A kind of energy-saving sewage-treatment plant
Technical field
The present invention relates to energy-saving sewage treatment field, specifically a kind of energy-saving sewage-treatment plant.
Background technology
When the prior art carries out water circulation use, flow can not orderly fall so that device fluctuation of service, Wu Fatong
It crosses the revolution of flow and pushes and realize that water is circularly-supercharged, the phenomenon that when operation is susceptible to power generation failure or electricity shortage.
Invention content
It is a primary object of the present invention to overcome the deficiencies of the prior art and provide a kind of energy-saving sewage-treatment plant, with
When solving to carry out water circulation use, flow can not orderly fall so that device fluctuation of service can not pass through the revolution of flow
Realize that water is circularly-supercharged with pushing, the problem of the phenomenon that when operation is susceptible to power generation failure or electricity shortage.
The present invention adopts the following technical scheme that realize:A kind of energy-saving sewage-treatment plant, structure include stabilizer blade,
Pipe, upper hole, pond body, tracheae, structure sedimentation basin, effuser, interior arrangement are flowed into, the stabilizer blade is fixedly connected on pond body bottom
Portion, the inflow pipe, pond body, effuser communicate, and the inflow pipe is connected to the one end of pond body far from effuser, the outflow
Pipe is glued to pond body far from the one end for flowing into pipe, and the upper hole is fixedly connected on the upper surface of pond body, and the tracheae is installed in
Pond body inner cavity, the structure sedimentation basin are mounted on the inner cavity of pond body, and positioned at close to one end of effuser, the interior arrangement
Mounted on the inside of pond body, the interior arrangement is hung by pipe, water sending device, electric machine, hydrodynamic force high-pressure installation form, institute
State pipe hang, water sending device it is adjacent with electric machine, the pipe hangs one end far from electric machine positioned at water sending device, the electricity
Machine device and hydrodynamic force high-pressure installation are sequentially connected, the water sending device by a water feeding machine structure, two transmission mechanisms, three
Water feeding machine structure, four water flowing out structure compositions, two transmission mechanisms and four water flowing out structure are sequentially connected, and described one is sent
Water dispenser structure is identical as three water feeding machine structure structures, and the hydrodynamic force high-pressure installation is by one high-voltage drive rod structure, hydrodynamic force knot
Structure, two portion mechanism of hydrodynamic force, three portion mechanism of hydrodynamic force, a motor drive, high-voltage drive auxiliary frame, high voltage power transmission increase
Pinch roller, two motor drives, drive mechanism frame composition, it is separate that the high-voltage drive rod structure is movably connected in drive mechanism frame
One end of two motor drives, one structure of the hydrodynamic force are fixedly connected on drive mechanism frame, a structure and water
Two portion mechanism axis connection of power, two portion mechanism of the hydrodynamic force are intermeshed with three portion mechanism of hydrodynamic force, the hydrodynamic force two
Portion mechanism and motor drive are rotatablely connected, and the high-voltage drive auxiliary frame is connected with high-voltage drive rod structure, described one
Motor drive and high voltage power transmission impeller of booster are sequentially connected, the one end of the high-voltage drive rod structure far from electric machine with
High voltage power transmission impeller of booster is adjacent, and the high voltage power transmission impeller of booster is adjacent with two motor drives, the high voltage power
Transmission impeller of booster is located at the middle of high-voltage drive auxiliary frame and two motor drives, three portion mechanism of the hydrodynamic force and high pressure
Transmission auxiliary frame is fixedly connected on drive mechanism frame, and a motor drive is movably connected in biography with two motor drives
In dynamic structural frames, the hydrodynamic force high-pressure installation is connect with the water tank in pond body.
As an optimization, a water feeding machine structure includes a chamber disk, a ball, clan's plate, a chamber disk
Inner cavity is equipped with a ball, and a ball is distributed in a chamber disk inner cavity, and clan plate is fixedly connected on a chamber
Disc side, the two composition be integrated, a chamber disk is connected with two transmission mechanisms, clan plate and
Three water feeding machine structure contacts.
As an optimization, two transmission mechanisms include two driving toothed plates, two transmission balladeur trains, two transmission gears,
Two driving toothed plates are slidably connected with two transmission balladeur trains, and two driving toothed plates are mutually nibbled with two transmission gears
It closes.
As an optimization, three water feeding machine structures include three driving springs, three drive links, three structure cylinders, described three
By three driving spring elastic connections, three drive links are driven balladeur train far from two for portion's drive link and three structure cylinders
One end is located at three structure tube inner chambers.
As an optimization, the electric machine includes motor, pulley, axis wheel, and the motor is passed with belt pulley by belt
Dynamic connection, the belt pulley are rotatablely connected with axis wheel by belt, and the axis wheel is flexibly connected with high-voltage drive rod structure.
As an optimization, the high-voltage drive rod structure includes high-voltage drive inside casing, high-voltage drive bar interior bar, high-voltage drive
Shaft, the high-voltage drive inside casing are slidably connected with high-voltage drive bar interior bar, the high-voltage drive bar interior bar and high-voltage drive axis
Bar axis is sequentially connected.
As an optimization, one structure of the hydrodynamic force includes one spring of hydrodynamic force, hydrodynamic force one swing rod, hydrodynamic(al)
One fixed plate of power, one swing rod of one spring of the hydrodynamic force and hydrodynamic force are flexibly connected, one swing rod of the hydrodynamic force
In one fixed plate of hydrodynamic force, one fixed plate of one swing rod of the hydrodynamic force and hydrodynamic force is flexibly connected axis connection, described
Two portion mechanism of hydrodynamic force includes two two connecting rods of hydrodynamic force, two axillares of hydrodynamic force, hydrodynamic force gears, the hydrodynamic force two
Two axillares of portion's connecting rod and hydrodynamic force are flexibly connected, and two gear drives of two connecting rods of the hydrodynamic force and hydrodynamic force contact,
Three portion mechanism of the hydrodynamic force includes three three gears of hydrodynamic force, hydrodynamic force wheel carriers, three gears of the hydrodynamic force and hydrodynamic(al)
Three wheel carrier flexible connections of power, two gears of the hydrodynamic force and a motor drive are rotatablely connected.
As an optimization, a motor drive includes a motor drive wheel, a motor drive belt, a biography
Dynamic motor, a motor drive strap lug is around a motor drive wheel, a motor drive wheel and a transmission electricity
Machine is connected by a motor drive belt transmission, a motor drive belt and high voltage power transmission impeller of booster rotation
Connection.
As an optimization, the drive mechanism frame includes fixed frame, a motor, is driven high pinch roller, two motors, described
Fixed frame is fixedly connected with a motor, two motors, and a motor is fixedly connected with two motors, an electricity
Machine, two motors are connect with high pinch roller is driven by belt.
Advantageous effect
The present invention starts the operation of motor carrying out sewage disposal simultaneously, and belt pulley, axis wheel and then turn when motor rotates
Dynamic, axis wheel drives transmission of the high-voltage drive shaft to high-voltage drive bar interior bar, that is, realizes the reciprocating action of a ball;With
Water is evacuated in drive mechanism frame by this simultaneously, and in pump process, flow passes through a water feeding machine structure and three water feeding machine structures respectively
It is flow to again in drive mechanism frame into three structure cylinders, flow, which discontinuously falls, under the transmission of two transmission mechanisms realizes water
The swing of one swing rod of power, one swing rod of hydrodynamic force drives two connecting rods of hydrodynamic force dynamic to the hook of two gears of hydrodynamic force, real
The rotation of two gears of hydrodynamic force is showed;One motor drive belt of rotation and the high-voltage drive bar interior bar of transmission are by flow
It is driven at toward high voltage power transmission impeller of booster, high voltage power transmission impeller of booster is rotated flow loopback and is pushed into be driven high
Pinch roller is driven the operation that high pressure wheel has driven a motor and two motors, the motor and two electricity of operation by rotation
Machine realizes power supply.
Compared with prior art, the beneficial effects of the invention are as follows:Flow discontinuously enters drive mechanism frame by water sending device
Interior, by the rotation that orderly two gears of overboard drive hydrodynamic force are gentle, two gears of hydrodynamic force drive a transmission rotation
For machine by flow toward drive at high voltage power transmission impeller of booster, two gears of hydrodynamic force have driven high voltage power transmission impeller of booster
Rotation;It drives the operating of high-voltage drive rod structure that water jet propulsion is applied with pressure simultaneously by the operation of motor, is pressed in height
Flow is turned round under the action of power transmission impeller of booster, realizes that unlimited water circulation use, flow have driven turning for the high pinch roller of transmission
The dynamic power generation for realizing a motor and two motors, realizes stable power-supplying, and power supply is sufficient.
Description of the drawings
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 energy-saving sewage-treatment plant of the present invention.
Fig. 2 is the structural schematic diagram one of interior arrangement of the present invention.
Fig. 3 is the structural schematic diagram two of interior arrangement of the present invention.
In figure:Stabilizer blade 1 flows into pipe 2, upper hole 3, pond body 4, tracheae 5, structure sedimentation basin 6, effuser 7, interior arrangement
8, pipe hangs 80, water sending device 81, electric machine 82, the transmission mechanism of water feeding machine structure 810, two of hydrodynamic force high-pressure installation 83, one
811, three water feeding machine structures, 812, four water flowing out structure 813, high-voltage drive rod structure 830, hydrodynamic force one structure 831, hydrodynamic(al)
Two portion mechanism 832 of power, hydrodynamic force three portion mechanisms 833, motor drives 834, high-voltage drive auxiliary frame 835, a high voltage powers
It is driven 836, two motor drives 837 of impeller of booster, 8100, one, the chamber disk of drive mechanism frame 838, one ball 8101, a clan
The driving toothed plate 8110, two of plate 8102, two is driven the driving spring 8120, three of transmission gear 8112, three of balladeur train 8111, two
Portion's drive link 8121, three structure cylinders 8122, motor 820, belt pulley 821, axis wheel 822, high-voltage drive inside casing 8300, high pressures
Drive link interior bar 8301, high-voltage drive shaft 8302, one spring 8310 of hydrodynamic force, hydrodynamic force one swing rod 8311, hydrodynamic(al)
One fixed plate 8312 of power, two connecting rods 8320 of hydrodynamic force, two axillares 8321 of hydrodynamic force, hydrodynamic force two gears 8322, water
Three gears 8330 of power, three wheel carriers of hydrodynamic force 8331, one, 8340, one, motor drive wheel motor drive belt 8341,
One driving motor 8342,8380, motors 8381 of fixed frame, high 8382, two motors 8383 of pinch roller of transmission.
Specific implementation mode
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 describes, 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 it is all its
His embodiment, shall fall within the protection scope of the present invention.
- 3 are please referred to Fig.1, the present invention provides a kind of energy-saving sewage-treatment plant technical solution:Its structure includes stabilizer blade
1, pipe 2, upper hole 3, pond body 4, tracheae 5, structure sedimentation basin 6, effuser 7, interior arrangement 8 are flowed into, the stabilizer blade 1, which is fixed, to be connected
It is connected on 4 bottom of pond body, the inflow pipe 2, pond body 4, effuser 7 communicate, and the inflow pipe 2 is connected to pond body 4 far from effuser
7 one end, the effuser 7 are glued to pond body 4 far from the one end for flowing into pipe 2, and the upper hole 3 is fixedly connected on pond body 4
Upper surface, the tracheae 5 are installed in 4 inner cavity of pond body, and the structure sedimentation basin 6 is mounted on the inner cavity of pond body 4, and positioned at close
One end of effuser 7, the interior arrangement 8 are mounted on the inside of pond body 4, and the interior arrangement 8 hangs 80, water sending device by pipe
81, electric machine 82, hydrodynamic force high-pressure installation 83 form, and it is adjacent with electric machine 82 that the pipe hangs 80, water sending device 81, institute
It states pipe and hangs 80 positioned at the one end of water sending device 81 far from electric machine 82, the electric machine 82 and hydrodynamic force high-pressure installation 83
It is sequentially connected, the water sending device 81 is by a water feeding machine structure 812, four of transmission mechanism 811, three of water feeding machine structure 810, two
Portion's water flowing out structure 813 forms, and two transmission mechanisms 811 and four water flowing out structure 813 are sequentially connected, and described one is sent water
Mechanism 810 is identical as three 812 structures of water feeding machine structure, and the hydrodynamic force high-pressure installation 83 is by high-voltage drive rod structure 830, water
One structure 831 of power, two portion mechanism 832 of hydrodynamic force, hydrodynamic force three portion mechanisms 833, motor drives 834, a high-voltage drives
Auxiliary frame 835,836, two motor drives 837 of high voltage power transmission impeller of booster, drive mechanism frame 838 form, the high pressure
Transmission rod structure 830 is movably connected in the one end of drive mechanism frame 838 far from two motor drives 837, the hydrodynamic force one
Structure 831 is fixedly connected on drive mechanism frame 838, a structure 831 and two portion mechanism of hydrodynamic force, 832 axis connection, institute
It states two portion mechanism 832 of hydrodynamic force to be intermeshed with three portion mechanism 833 of hydrodynamic force, two portion mechanism 832 of the hydrodynamic force and an electricity
834 rotation connection of machine transmission, the high-voltage drive auxiliary frame 835 are connected with high-voltage drive rod structure 830, a motor
Transmission 834 is sequentially connected with high voltage power transmission impeller of booster 836, and the high-voltage drive rod structure 830 is far from electric machine 82
One end is adjacent with high voltage power transmission impeller of booster 836, the high voltage power transmission impeller of booster 836 and two 837 phases of motor drive
Neighbour, the high voltage power transmission impeller of booster 836 are located at the middle of high-voltage drive auxiliary frame 835 and two motor drives 837,
Three portion mechanism 833 of the hydrodynamic force is fixedly connected on high-voltage drive auxiliary frame 835 on drive mechanism frame 838, an electricity
Machine transmission 834 is movably connected on drive mechanism frame 838 with two motor drives 837, the hydrodynamic force high-pressure installation 83 and
Water tank connection in pond body 4, a water feeding machine structure 810 include 8100, balls 8101 of a chamber disk, clan's plate
8102,8100 inner cavity of a chamber disk is equipped with a ball 8101, and a ball 8101 is distributed in a chamber disk 8100
Inner cavity, clan plate 8102 are fixedly connected on 8100 side of chamber disk, and the two composition is integrated, and described one
Portion's chamber disk 8100 is connected with two transmission mechanisms 811, and clan plate 8102 is contacted with three water feeding machine structures 812, described
Two transmission mechanisms 811 include two driving toothed plates, 8110, two transmission 8111, two transmission gears 8112 of balladeur train, described
Two driving toothed plates 8110 are slidably connected with two transmission balladeur trains 8111, two driving toothed plates 8110 and two driving cogs
8112 intermeshing of wheel, three water feeding machine structures 812 include three structures of drive link 8121, three of driving spring 8120, three
Cylinder 8122, three drive links 8121 and three structure cylinders 8122 are by three 8120 elastic connections of driving spring, described three
The one end of drive link 8121 far from two transmission balladeur trains 8111 is located at three 8122 inner cavities of structure cylinder, can be good at controlling water
Stream, convenient for subsequently stable operation, the electric machine 82 includes motor 820, belt pulley 821, axis wheel 822, the motor
820 are connect with belt pulley 821 by belt transmission, and the belt pulley 821 is rotatablely connected with axis wheel 822 by belt, the axis
Wheel 822 is flexibly connected with high-voltage drive rod structure 830, is served to spur, stable transmission, reliable, the high-voltage drive rod structure
830 include high-voltage drive inside casing 8300, high-voltage drive bar interior bar 8301, high-voltage drive shaft 8302, the high-voltage drive inside casing
8300 are slidably connected with high-voltage drive bar interior bar 8301, the high-voltage drive bar interior bar 8301 and 8302 axis of high-voltage drive shaft
It is sequentially connected, one structure 831 of the hydrodynamic force includes one spring 8310 of hydrodynamic force, hydrodynamic force one swing rod 8311, water
One fixed plate 8312 of power, one swing rod 8311 of one spring 8310 of the hydrodynamic force and hydrodynamic force is flexibly connected, described
One 8311 axis connection of swing rod of hydrodynamic force is in one fixed plate 8312 of hydrodynamic force, one swing rod 8311 of the hydrodynamic force and water
One fixed plate 8312 of power is flexibly connected, and two portion mechanism 832 of the hydrodynamic force includes hydrodynamic force two connecting rods 8320, hydrodynamic(al)s
Two two axillares 8321 of power, hydrodynamic force gears 8322, two connecting rods 8320 of the hydrodynamic force and two axillares 8321 of hydrodynamic force
Flexible connection, two connecting rods 8320 of the hydrodynamic force and two 8322 driving contacts of gear of hydrodynamic force, three machines of the hydrodynamic force
Structure 833 includes three gears 8330 of hydrodynamic force, three wheel carriers 8331 of hydrodynamic force, three gears 8330 of the hydrodynamic force and hydrodynamic(al)
Three wheel carriers 8331 of power are flexibly connected, and two gears 8322 of the hydrodynamic force and a motor drive 834 are rotatablely connected, and are passed through
It includes 8340, one, a motor drive wheel that the whereabouts of flow, which drives operating, ensuring smooth transmission, a motor drive 834,
8341, driving motors 8342 of motor drive belt, a motor drive belt 8341 is around a motor drive wheel
8340, a motor drive wheel 8340 and a driving motor 8342 are connected by a transmission of motor drive belt 8341
It connects, a motor drive belt 8341 is rotatablely connected with high voltage power transmission impeller of booster 836, for assisting control water
Flow direction, it includes 8380, motors 8381 of fixed frame, transmission high pressure to be convenient for subsequent power generation, the drive mechanism frame 838
8382, two motors 8383 are taken turns, the fixed frame 8380 is fixedly connected with 8381, two motors 8383 of a motor, and described one
Position motor 8381 is fixedly connected with two motors 8383,8381, two motors 8383 of a motor and the high pinch roller of transmission
8382 are connected by belt, simple in structure, easy to use.
Start the operation of motor 820 simultaneously carrying out sewage disposal, belt pulley 821 when motor 820 rotates, axis wheel 822 with
Rotation, axis wheel 822 drives transmission of the high-voltage drive shaft 8302 to high-voltage drive bar interior bar 8301, that is, realizes a rolling
The reciprocating action of pearl 8101;At the same time water is evacuated in drive mechanism frame 838, in pump process, flow passes through one respectively
Water feeding machine structure 810 and three water feeding machine structures 812 are flow into three structure cylinders 8122 in drive mechanism frame 838 again, are passed at two
Flow, which discontinuously falls, under the transmission of motivation structure 811 realizes the swing of one swing rod 8311 of hydrodynamic force, one swing rod of hydrodynamic force
8311 drive two connecting rods 8320 of hydrodynamic force dynamic to the hook of two gears 8322 of hydrodynamic force, realize two gears of hydrodynamic force
8322 rotation;The high-voltage drive bar interior bar 8301 of one motor drive belt 8341 of rotation and transmission is by flow toward high pressure
It is driven at power transmission impeller of booster 836, high voltage power transmission impeller of booster 836 is rotated flow loopback and is pushed into transmission height
Pinch roller 8382, by rotating the operation for being driven high pinch roller 8382 and having driven a motor 8381 and two motors 8383, operation
One motor 8381 and two motors 8383 are realized and are powered.
The technological progress that the present invention obtains compared with the prior art is:Flow discontinuously enters transmission knot by water sending device 81
In structure frame 838, pass through the rotation that orderly two gears 8322 of overboard drive hydrodynamic force are gentle, two gears 8322 of hydrodynamic force
It drives a transmission rotating machine 8342 to be driven flow at impeller of booster 836 toward high voltage power to drive, two gears 8322 of hydrodynamic force
The rotation of high voltage power transmission impeller of booster 836 is driven;The operating of high-voltage drive rod structure 830 is driven by the operation of motor
Water jet propulsion is applied with pressure simultaneously, flow is turned round under the action of high voltage power is driven impeller of booster 836, realizes nothing
It restricts water supply and recycles, flow has driven the rotation of the high pinch roller of transmission 8382 to realize a motor 8381 and two motors 8383
Power generation, realize stable power-supplying, power supply is sufficient.
Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art,
It still can be with technical scheme described in the above embodiments is modified, or is carried out to which part technical characteristic
Equivalent replacement, all within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should all include
Within protection scope of the present invention.