CN112107908A - Special water treatment electromechanical device for ecological landscape water body - Google Patents

Abstract

The invention discloses a special water treatment electromechanical device for an ecological landscape water body, which comprises: the sewage treatment system comprises a sewage separation module, a water filtering module, a water storage module and a sludge module; the sewage separation module is respectively communicated with the water filtration module and the sludge module, and the water filtration module is connected with the water storage module; the water filtering module comprises a suction pump and a filtering tank, a tank cover is arranged at the upper end of the filtering tank, an inner filtering module is arranged in the filtering tank, the left end of the filtering tank is communicated with the sewage separation module through the suction pump, and the right end of the filtering tank is communicated with the water storage module. This equipment mainly includes sewage separation module, water filtration module, water storage module and mud module, adopts the modular design for this equipment overall structure is simple and convenient, and is with low costs, and then also makes the administrative cost be superior to the conventional art, and moreover, sewage separation module, water filtration module are handled the water, and no chemical reagent does not produce secondary pollution, and the water stabilization of handling can regard as renewable resources to utilize betterly.

Description

Special water treatment electromechanical device for ecological landscape water body

Technical Field

The invention relates to the technical field of fire fighting, in particular to a special water treatment electromechanical device for an ecological landscape water body.

Background

The phenomenon of water pollution in China exists in a large quantity, regional, compound and compression water pollution is increasingly prominent, the water pollution becomes the most prominent factor influencing the water safety in China, and the prevention situation is very severe. Although the existing ecological landscape water body purification devices are various in types, the operation cost and the later maintenance cost are high, and although water pollution is treated to a certain extent, serious resource waste is caused. Therefore, there is a need for a water treatment electromechanical device dedicated to ecological landscape water body to at least partially solve the problems in the prior art.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the problems, the invention provides a special water treatment electromechanical device for an ecological landscape water body, which comprises:

the sewage treatment system comprises a sewage separation module, a water filtering module, a water storage module and a sludge module;

the sewage separation module is respectively communicated with the water filtration module and the sludge module, and the water filtration module is connected with the water storage module;

the water filtering module comprises a suction pump and a filtering box, a box cover is arranged at the upper end of the filtering box, an inner filtering module is arranged in the filtering box, the left end of the filtering box is communicated with the sewage separating module through the suction pump, and the right end of the filtering box is communicated with the water storage module.

Preferably, the inner filter module comprises a first filter plate, a second filter plate and a third filter plate from left to right, the first filter plate comprises a first frame body and a filter screen layer arranged in the first frame body, the second filter plate comprises a second frame body and a polypropylene fiber filter layer arranged in the second frame body, and the third filter plate comprises a third frame body and an activated carbon filter layer arranged in the third frame body;

and a first sliding groove corresponding to the first frame body, a second sliding groove corresponding to the second frame body and a third sliding groove corresponding to the third frame body are respectively arranged on the front inner wall and the rear inner wall of the filter box.

Preferably, wherein, the sewage separation module includes separator box, bull stick group, the filter plate of putting flatly, goes up wiper mechanism and wiper mechanism down, the bull stick group sets up the interior top surface of separator box, the filter plate setting of putting flatly is in the separator box and be located the below of bull stick group, go up wiper mechanism down wiper mechanism all sets up the separator box, it is located to go up wiper mechanism the top of putting the filter plate flatly, wiper mechanism is located down the below of putting the filter plate flatly, go up wiper mechanism down wiper mechanism all with the water storage module intercommunication, and be used for wasing the filter plate of putting flatly.

Preferably, wherein, it includes that electric telescopic handle, cleaning plate, a plurality of washing shower nozzle are put to the tie to go up wiper mechanism, the setting of electric telescopic handle is put to the tie on the left inner wall of separator box, the cleaning plate sets up electric telescopic handle's right-hand member is put to the tie, and is a plurality of the washing shower nozzle all establishes on the cleaning plate, wash the shower nozzle with water storage module intercommunication.

Preferably, the method further comprises the following steps: the suction pump box, the suction pump sets up in the suction pump box, the suction pump box sets up on bearing the frame, it is provided with a plurality of link plates to bear on the frame, the suction pump box sets up bear on the frame and with a plurality of the link plate can be dismantled and be connected.

Preferably, a vertical groove is formed in the inner side wall of the hanging plate, a vertical groove plate is arranged at the notch of the vertical groove, a telescopic module and a translation module are arranged in the vertical groove, the telescopic module comprises a first vertical rod, a second vertical rod, an upper bearing plate, a lower bearing plate, an upper worm, a lower worm, a turbine and a motor, the first vertical rod is arranged on the inner top surface of the vertical groove, the upper bearing plate is slidably sleeved on the first vertical rod, an upper insertion hole is formed in the upper bearing plate, the lower worm is arranged on the upper bearing plate, the second vertical rod is arranged on the inner bottom surface of the vertical groove and corresponds to the first vertical rod, the lower bearing plate is slidably sleeved on the second vertical rod, a lower insertion hole corresponding to the lower worm is formed in the lower bearing plate, the upper worm is arranged on the lower bearing plate and corresponds to the upper insertion hole, the motor is connected with the inner wall of the vertical groove and is positioned on one side of the lower worm, the worm wheel is rotationally connected with the motor, and the worm wheel is positioned between the upper worm and the lower worm;

translation module includes down the slant pole with loading board swing joint, be provided with two T type grooves on the surface of vertical translation board, first spring setting is in T type inslot, the inner of T type pole is located T type inslot and with first spring coupling, the outer end of T type pole is passed first via hole on the vertical frid extends to in the first blind hole on the suction pump case.

Preferably, the bearing frame comprises a first flat plate, a second flat plate, a third flat plate, a fourth flat plate and a resilient pad, the second flat plate is arranged on the first flat plate, the third flat plate is arranged on the second flat plate, the third flat plate is provided with a first upper groove, the resilient pad is arranged in the first upper groove, the fourth flat plate is arranged on the resilient pad, and the suction pump box is arranged on the fourth flat plate;

a first side groove is arranged on the side wall of the second flat plate, a vertical base plate and a first damping module are arranged in the first side groove, the vertical base plate is arranged on the inner surface of the first side groove, the first damping module is arranged on the outer side of the vertical base plate, the first damping module comprises a damping frame body and a damping plate, the damping plate is arranged in the damping frame body, a plurality of limiting plates are arranged on the lower surface of the third flat plate, second side grooves corresponding to the first side grooves are arranged on the inner surfaces of the limiting plates, a second damping module is connected in the second side groove and comprises a damping block and a second horizontal connecting rod, and a horizontal hole communicated with the second side groove is formed in the limiting plate, and the second horizontal connecting rod penetrates through the horizontal hole and is connected with the damping block.

Preferably, a plurality of second springs are arranged in the second side groove, a plurality of first clamping grooves are formed in the inner surface of the second side groove, second clamping grooves corresponding to the first clamping grooves are formed in the inner surface of the damping block, one end of each second spring is located in the corresponding first clamping groove, and the other end of each second spring is located in the corresponding second clamping groove.

Preferably, a second upper groove is formed in the upper surface of the fourth flat plate, a bearing ring is arranged in the second upper groove, a fifth flat plate is connected to the bearing ring, the suction pump box is borne on the fifth flat plate, a T-shaped hole is formed in the upper surface of the fifth flat plate and connected with the inner bottom surface of the second upper groove through a vertical connecting rod, and the vertical connecting rod penetrates through the T-shaped hole.

Preferably, wherein, first flat board the fourth is put through fixed subassembly and is connected between the board, fixed subassembly includes extension board, lower extension board, vertical clamping bar, goes up connecting cylinder and lower connecting cylinder, go up the extension board with first flat board is connected, the outer end of going up the extension board is provided with first clamp groove, lower extension board with the fourth is put the board and is connected, the outer end of lower extension board is provided with the second and presss from both sides the groove, the upper end of going up the connecting cylinder be provided with the first clamp splice that first clamp groove is connected, the lower extreme of connecting cylinder be provided with the second clamp splice that the second presss from both sides the groove and is connected down, the upper end of vertical clamping bar rotate to be connected in going up the connecting cylinder, and with go up the connecting cylinder and rotate to be connected, the lower extreme spiro union of vertical clamping bar is in the connecting cylinder down.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides a special water treatment electromechanical device for an ecological landscape water body, which is used for treating the ecological landscape water body, and mainly comprises a sewage separation module, a water filtration module, a water storage module and a sludge module.

Other advantages, objects, and features of the present invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the water treatment electromechanical device special for the ecological landscape water body of the invention.

Fig. 2 is a schematic structural diagram of a sewage separation module in the water treatment electromechanical device special for the ecological landscape water body.

FIG. 3 is a schematic structural view of a filter box in the water treatment electromechanical device special for the ecological landscape water body.

Fig. 4 is a schematic structural view of a suction pump box in the water treatment electromechanical device special for the ecological landscape water body.

Fig. 5 is a structural schematic diagram of a bearing frame in the water treatment machine electric equipment special for the ecological landscape water body.

Fig. 6 is a schematic structural view of a hanging plate in the water treatment electromechanical device special for the ecological landscape water body.

Fig. 7 is a schematic structural diagram of a second damping module in the water treatment electromechanical device special for the ecological landscape water body.

Fig. 8 is a schematic structural view of a first damping module in the water treatment electromechanical device special for the ecological landscape water body.

Fig. 9 is a schematic view of the internal structure of the second damping module in the water treatment electromechanical device special for the ecological landscape water body.

Fig. 10 is a schematic structural view of a fixing component in the water treatment electromechanical device special for the ecological landscape water body.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can practice the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-10, the invention provides a water treatment electromechanical device special for ecological landscape water body, comprising:

the sewage treatment system comprises a sewage separation module 1, a water filtering module 2, a water storage module 3 and a sludge module 4;

the sewage separation module 1 is respectively communicated with the water filtering module 2 and the sludge module 3, and the water filtering module 2 is connected with the water storage module 3;

the water filtering module 2 comprises a suction pump 21 and a filtering box 22, a box cover 23 is arranged at the upper end of the filtering box 22, an inner filtering module 23 is arranged in the filtering box 22, the left end of the filtering box 23 is communicated with the sewage separation module 1 through the suction pump 21, and the right end of the filtering box 22 is communicated with the water storage module 3.

The working principle of the technical scheme is as follows: the invention provides a water treatment electromechanical device special for an ecological landscape water body, which is used for treating the ecological landscape water body, and particularly comprises a sewage separation module 1, a water filtration module 2, a water storage module 3 and a sludge module 4, when in use, an operator conveys the ecological landscape water body to be treated into the sewage separation module 1, the sewage separation module 1 separates the ecological landscape water body, the sludge in the ecological landscape water body is separated from the water, the sludge is conveyed into the sludge module 4, the separated water is conveyed into the water filtration module 2, the water filtration module 2 comprises a suction pump 21 and a filter box 22, particularly, the suction pump 21 conveys the water separated from the sewage separation module 1 into the filter box 22, the water is conveyed into the water storage module 3 after being filtered by an internal filter module 23 and then is stored, can be used as reclaimed water again.

The beneficial effects of the above technical scheme are that: through the design of the structure, the invention provides the special water treatment electromechanical equipment for the ecological landscape water body, which is used for treating the ecological landscape water body, the equipment mainly comprises the sewage separation module 1, the water filtration module 2, the water storage module 3 and the sludge module 4, and the modularized design is adopted, so that the whole structure of the equipment is simple and convenient, the cost is low, the management cost is further superior to the traditional technology, in addition, the sewage separation module 1 and the water filtration module 2 are used for treating the water body, no chemical reagent is generated, no secondary pollution is generated, and the treated water quality is stable and can be better utilized as a renewable resource.

In one embodiment, the inner filter module 23 comprises a first filter plate 24, a second filter plate 25 and a third filter plate 26 from left to right, the first filter plate 24 comprises a first frame 241 and a filter screen layer 242 arranged in the first frame 241, the second filter plate 25 comprises a second frame 251 and a polypropylene fiber filter layer 252 arranged in the second frame 251, and the third filter plate 26 comprises a third frame 261 and an activated carbon filter layer 262 arranged in the third frame 261;

a first sliding groove 221 corresponding to the first frame 241, a second sliding groove 222 corresponding to the second frame 251, and a third sliding groove 223 corresponding to the third frame 261 are provided on the front inner wall and the rear inner wall of the filter box 22, respectively.

The working principle of the technical scheme is as follows: the present embodiment provides a structure of the inner filtering module 23, specifically, the inner filtering module 23 includes a first filtering plate 24, a second filtering plate 25, and a third filtering plate 26, and the water separated from the sewage separating module 1 is conveyed into the filtering tank 22 and sequentially filtered by the first filtering plate 24, the second filtering plate 25, and the third filtering plate 26, that is, sequentially filtered by the filtering net layer 242, the polypropylene fiber filtering layer 252, and the activated carbon filtering layer 262 to reach the primary use requirement of the reclaimed water; in order to facilitate the replacement of the inner filter module 23 by the operator, the first sliding groove 221, the second sliding groove 222, and the third sliding groove 223 are respectively disposed on the front inner wall and the rear inner wall of the filter box 22, so that when the first filter plate 24 needs to be replaced, the operator can directly pull out the first frame 241 from the first sliding groove 221, and similarly, the second filter plate 25 and the third filter plate 26 can be replaced, that is, the second frame 251 and the third frame 261 can be directly pulled out from the second sliding groove 222 and the third sliding groove 223 respectively.

The beneficial effects of the above technical scheme are that: through the design of the structure, the embodiment provides a specific structure of the inner filter module 23, the inner filter module 23 of the structure comprises a first filter plate 24, a second filter plate 25 and a third filter plate 26, and separated water can be better filtered, so that the separated water meets the use condition of reclaimed water; and the front inner wall and the rear inner wall of the filter box 22 are respectively provided with a first sliding groove 221, a second sliding groove 222 and a third sliding groove 223, so that an operator can conveniently replace the inner filter module 23, and the functions of saving time and labor are achieved.

In one embodiment, the sewage separation module 1 includes a separation box 11, a rotation rod set 12, a horizontal filter plate 13, an upper cleaning mechanism 14 and a lower cleaning mechanism 15, the rotation rod set 12 is disposed on the inner top surface of the separation box 11, the horizontal filter plate 13 is disposed in the separation box 11 and located below the rotation rod set 12, the upper cleaning mechanism 14 and the lower cleaning mechanism 15 are both disposed in the separation box 11, the upper cleaning mechanism 14 is located above the horizontal filter plate 13, the lower cleaning mechanism 15 is located below the horizontal filter plate 13, and the upper cleaning mechanism 14 and the lower cleaning mechanism 15 are both communicated with the water storage module 3 and used for cleaning the horizontal filter plate 13.

The working principle of the technical scheme is as follows: the embodiment provides a structure of a sewage separation module 1, specifically, the sewage separation module 1 of the structure comprises a separation tank 11, a rotating rod group 12, a horizontally-arranged filter plate 13, an upper cleaning mechanism 14 and a lower cleaning mechanism 15, after an ecological landscape water body is conveyed into the separation tank 11, an operator starts the rotating rod group 12 to stir the ecological landscape water body, water enters the lower part of the horizontally-arranged filter plate 13 after being filtered by the horizontally-arranged filter plate 13, and impurity sludge is intercepted by the horizontally-arranged filter plate 13, so that the separation of the ecological landscape water body is realized; when the flat filter plate 13 needs to be cleaned, an operator starts the upper cleaning mechanism 14 and the lower cleaning mechanism 15, the upper cleaning mechanism 14 and the lower cleaning mechanism 15 clean the upper surface and the lower surface of the flat filter plate 13, and the water storage module 3 supplies water to the upper cleaning mechanism 14 and the lower cleaning mechanism 15, so that the filtered water is reused.

The beneficial effects of the above technical scheme are that: through the design of the structure, the specific structure of the sewage separation module 1 is provided in the embodiment, the sewage separation module 1 of the structure comprises a separation tank 11, a rotating rod group 12, a horizontally-arranged filter plate 13, an upper cleaning mechanism 14 and a lower cleaning mechanism 15, and the stirring separation of the ecological landscape water body can be realized; the upper cleaning mechanism 14 and the lower cleaning mechanism 15 can clean the upper and lower surfaces of the horizontally arranged filter plates 13 by using the water in the water storage module 3, so that the filtered water is reused, and the utilization rate of the regenerated water is improved.

In one embodiment, the upper cleaning mechanism 14 includes a horizontally disposed electric telescopic rod 141, a cleaning plate 142, and a plurality of cleaning nozzles 143, the horizontally disposed electric telescopic rod 141 is disposed on the left inner wall of the separation box 11, the cleaning plate 142 is disposed at the right end of the horizontally disposed electric telescopic rod 141, the plurality of cleaning nozzles 143 are disposed on the cleaning plate 142, and the cleaning nozzles 143 are in communication with the water storage module 3.

The working principle of the technical scheme is as follows: the embodiment provides a structure of an upper cleaning mechanism 14, specifically, the upper cleaning mechanism 14 of the structure includes a horizontally disposed electric telescopic rod 141, a cleaning plate 142, and a plurality of cleaning nozzles 143; when the washing device is used, an operator plays a role of horizontally placing the electric telescopic rod 141, the horizontally placing electric telescopic rod 141 pushes the washing plate 142 to move from the left end to the right end of the upper surface of the horizontally placing filter plate 13, meanwhile, the water storage module 3 supplies water to the washing spray head 143, and the washing spray head 143 washes the upper surface of the horizontally placing filter plate 13.

The lower cleaning mechanism 15 may be configured similarly to the upper cleaning mechanism 14, and may flush the lower surface of the flat filter sheet 13.

The beneficial effects of the above technical scheme are that: through the design of the structure, the specific structure of the upper cleaning mechanism 14 is provided in the embodiment, the upper cleaning mechanism 14 of the structure comprises the horizontally-arranged electric telescopic rod 141, the cleaning plate 142 and the plurality of cleaning nozzles 143, the horizontally-arranged filter plate 13 can be cleaned, the ecological landscape water body treatment electromechanical device is convenient to reuse, and the service life of the horizontally-arranged filter plate 13 is prolonged.

In one embodiment, further comprising: suction pump box 5, suction pump 21 sets up in the suction pump box 5, suction pump box 5 sets up on bearing frame 6, be provided with a plurality of link plates 7 on bearing frame 6, suction pump box 5 sets up bear frame 6 on and with a plurality of link plates 7 can dismantle the connection.

The working principle of the technical scheme is as follows: the suction pump box 5 is provided in the embodiment, the suction pump 21 is placed in the suction pump box 5 for use, a stable use environment can be provided for the suction pump 21, the suction pump 21 works better, particularly, the suction pump box 5 is installed on the bearing frame 6, the suction pump box 5 is detachably connected with the plurality of hanging plates 7 on the bearing frame 6, the suction pump box 5 is installed and detached, and an operator can carry the suction pump box 5 conveniently.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, provided suction pump box 5 in this embodiment, this suction pump box 5 is installed and is used on bearing frame 6, can provide steady service environment for suction pump 21 to make things convenient for operating personnel to install and dismantle suction pump box 5, and then also made things convenient for transport suction pump box 5.

In one embodiment, a vertical groove 701 is provided on the inner side wall of the hanging plate 7, a vertical groove plate 702 is provided on the notch of the vertical groove 701, a telescopic module and a translation module are provided in the vertical groove 701, the telescopic module includes a first vertical rod 703, a second vertical rod 704, an upper bearing plate 705, a lower bearing plate 706, an upper worm 707, a lower worm 708, a turbine 709 and a motor 710, the first vertical rod 703 is provided on the inner top surface of the vertical groove 701, the upper bearing plate 705 is slidably sleeved on the first vertical rod 703, an upper insertion hole 712 is provided in the upper bearing plate 705, the lower worm 708 is provided on the upper bearing plate 705, the second vertical rod 704 is provided on the inner bottom surface of the vertical groove 701 and corresponds to the first vertical rod 703, the lower bearing plate 706 is slidably sleeved on the second vertical rod 704, a lower insertion hole 711 corresponding to the lower worm 708 is provided on the lower bearing plate 706, the upper worm 707 is disposed on the lower bearing plate 706 and corresponds to the upper insertion hole 712, the motor 710 is connected to the inner wall of the vertical slot 701 and is located at one side of the lower worm 708, the worm gear 709 is rotatably connected to the motor 710, and the worm gear 709 is located between the upper worm 707 and the lower worm 708;

the translation module comprises an upper inclined rod 713, a lower inclined rod 714, a vertical translation plate 715, two first springs 716 and two T-shaped rods 717, the vertical translation plate 715 is movably connected with the upper bearing plate 705 through the upper inclined rod 713, the vertical translation plate 715 is movably connected with the lower bearing plate 706 through the lower inclined rod 714, two T-shaped grooves are formed in the outer surface of the vertical translation plate 715, the first springs 716 are arranged in the T-shaped grooves, the inner ends of the T-shaped rods 717 are located in the T-shaped grooves and connected with the first springs 716, and the outer ends of the T-shaped rods 717 penetrate through first through holes 718 in the vertical groove plate 702 and extend into first blind holes in the suction pump box 5.

The working principle of the technical scheme is as follows: the embodiment provides a structure of the hanging plate 7, and specifically, a vertical groove 701 is formed in the inner side wall of the hanging plate 7 of the structure, and a telescopic module and a translation module are arranged in the vertical groove 701; when the suction pump box 5 is used, an operator mounts the suction pump box 5 on the bearing frame 6, so that the first blind hole on the suction pump box 5 is aligned with the first through hole 718 on the vertical trough plate 702, then the motor 710 is started by using an associated motor controller (not shown), the motor 710 rotates and drives the turbine 709 to rotate, the turbine 709 is simultaneously and rotatably connected with the upper worm 707 and the lower worm 708 on both sides, the lower worm 708 drives the upper bearing plate 705 to move downwards along the first vertical rod 703, the lower worm 708 is inserted into the lower insertion hole 711 of the lower bearing plate 706, the upper worm 707 drives the lower bearing plate 706 to move upwards along the second vertical rod 704, the upper worm 707 is inserted into the upper insertion hole 712 of the upper bearing plate 705, thereby realizing the smooth approaching movement of the upper bearing plate and the lower bearing plate 706, and the upper bearing plate 705 drives the upper end of the upper inclined rod 713 in the translation module to move downwards, the lower end of the upper inclined rod 713 moves outwards to push the vertical translation plate 715 to the suction pump box 5, meanwhile, the lower bearing plate 706 drives the lower end of the lower inclined rod 714 to move upwards, the upper end of the lower inclined rod 714 moves outwards to push the vertical translation plate 715 to the suction pump box 5, the outer ends of the two T-shaped rods 717 penetrate through the first through hole 718 to be inserted into the first blind hole in a wiping mode, connection between the hanging plate 7 and the suction pump box 5 is achieved, the first spring 716 abuts against the T-shaped rod 717 in the T-shaped groove 718, and the matching requirement between the T-shaped rod 717 and the first through hole 718 and the first blind hole is low;

conversely, the motor 710 can realize the smooth approaching and separating of the upper bearing plate 705 and the lower bearing plate 706, and further pull the vertical translation plate 715 back into the vertical groove 701, so that the T-shaped rod 717 is separated from the first blind hole, and thus the hanging plate 7 is detached from the suction pump box 5.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, provided the concrete structure of link plate 7 in this embodiment, designed flexible module, translation module in link plate 7's vertical groove 701, can realize link plate 7 and suction pump case 5's erection joint and dismantlement separation betterly, play the effect of labour saving and time saving and make things convenient for operating personnel to suction pump case 5's transport.

In one embodiment, the carrier 6 includes a first flat plate 601, a second flat plate 602, a third flat plate 603, a fourth flat plate 604, and a resilient pad 605, the second flat plate 602 is disposed on the first flat plate 601, the third flat plate 603 is disposed on the second flat plate 602, the third flat plate 603 is disposed with a first upper groove 606, the resilient pad 605 is disposed in the first upper groove 606, the fourth flat plate 604 is disposed on the resilient pad 605, and the suction pump box 5 is disposed on the fourth flat plate 604;

a first side groove 607 is arranged on the side wall of the second flat plate 602, a vertical backing plate 608 and a first damping module are arranged in the first side groove 607, the vertical pad 608 is disposed on the inner surface of the first side groove 607, the first damping module is disposed at the outer side of the vertical pad 608, the first damping module comprises a damping frame 609 and a damping plate 610, the damping plate 610 is arranged in the damping frame 609, a plurality of position-limiting plates 615 are provided on the lower surface of the third plane plate 603, second side recesses 616 corresponding to the first side recesses 607 are provided on the inner surface of the position-limiting plates 615, a second damping module is connected in the second side groove 616, the second damping module comprises a damping block 617, a second horizontal connecting rod 618, a horizontal hole 619 communicated with the second side groove 616 is formed in the limiting plate 615, the second horizontal connecting rod 618 is inserted into the horizontal hole 619 and connected to the damping block 617.

The working principle of the technical scheme is as follows: the present embodiment provides a structure of the bearing frame 6, specifically, the bearing frame 6 includes a first flat plate 601, a second flat plate 602, a third flat plate 603, a fourth flat plate 604, and a resilient pad 605, wherein the hanging plate 7 and the suction pump box 5 are all designed on the fourth flat plate 604, the first flat plate 601 at the lowest part provides a stable support for the whole bearing frame 6, the third flat plate 603 is mounted on the second flat plate 602, a first upper groove 606 is designed on the third flat plate 603, the first upper groove 606 is used for mounting the resilient pad 605, and the resilient pad 605 is connected to the fourth flat plate 604, so that the whole bearing frame 6 has a good function of pit vibration; in order to prevent the suction pump case 5 from moving forward, backward, leftward, and rightward, a plurality of stopper plates 615 are provided on the lower surface of the third flat plate 603, and in order to enhance the stopper effect between the stopper plates 615 and the second flat plate 602, the second flat plate 602 is provided with a first side groove 607, a vertical pad 608 and a first damping module are arranged in the first side groove 607, specifically, the first damping module comprises a damping frame 609 and a damping plate 610, in order to realize the fixation of the first damping module in the first side groove 607, a second through hole 611 is formed in the damping frame 609, a third through hole 612 corresponding to the second through hole 611 is formed in the vertical backing plate 608, a second blind hole 613 corresponding to the third through hole 612 is formed in the inner surface of the first side groove 607, and the second through hole 611, the third through hole 612 and the second blind hole 613 are connected through a first horizontal connecting rod 614, so that the first damping module is fixed in the first side groove 607; and correspondingly, a second side groove 616 is designed on the limiting plate 615, a second damping module is arranged in the second side groove 616, the second damping module comprises a damping block 617 and a second flat connecting rod 618, the damping block 617 is installed in the second side groove 616 by the second flat connecting rod 618, and the damping block 617 and the damping plate 610 are in contact with each other to have a large friction resistance, so that a good limiting effect is achieved.

The beneficial effects of the above technical scheme are that: through the design of the structure, the embodiment provides a specific structure of the bearing frame 6, and the bearing frame 6 of the structure comprises a first flat plate 601, a second flat plate 602, a third flat plate 603, a fourth flat plate 604 and a resilient cushion block 605, which not only can play a good role in supporting the suction pump box 5, but also can play a role in crater vibration due to the design of the resilient cushion block 605; through the design of the first damping module and the second damping module, the bearing frame 6 is prevented from moving forwards, backwards, leftwards and rightwards, and further the suction pump box 5 is prevented from moving forwards, backwards, leftwards and rightwards.

In one embodiment, a plurality of second springs 620 are disposed in the second side recess 616, a plurality of first locking grooves 621 are disposed on an inner surface of the second side recess 616, a second locking groove 622 corresponding to the first locking grooves 621 is disposed on an inner surface of the damping block 617, one end of the second springs 620 is disposed in the first locking groove 621, and the other end of the second springs 620 is disposed in the second locking groove 622.

The working principle of the technical scheme is as follows: this embodiment provides second spring 620, first draw-in groove 621, second draw-in groove 622 isotructure, specifically, first draw-in groove 621 has been designed at the internal surface of second side recess 616, second draw-in groove 622 has been designed to the internal surface of damping piece 617, installs second spring 620 between first draw-in groove 621, second draw-in groove 622 for second spring 620 supports and props against damping piece 617, and damping piece 617 can contact with damping plate 610 betterly like this, prevents damping piece 617 after wearing and tearing and separates with damping plate 610 and reduce spacing effect.

The beneficial effects of the above technical scheme are that: through the design of the structure, the second spring 620, the first clamping groove 621, the second clamping groove 622 and other structures are provided in the embodiment, and the compensation effect is provided for the damping block 617, so that the damping block 617 can be in good contact with the damping plate 610, and the damping block 617 is prevented from being separated from the damping plate 610 after being worn out, and the limiting effect is reduced.

In one embodiment, the upper surface of the fourth flat plate 604 is provided with a second upper groove 623, the second upper groove 623 is provided with a bearing ring 624, the bearing ring 624 is connected with a fifth flat plate 625, the fifth flat plate 625 bears the suction pump box 5, the upper surface of the fifth flat plate 625 is provided with a T-shaped hole 626 and is connected with the inner bottom surface of the second upper groove 623 through a vertical connecting rod 627, and the vertical connecting rod 627 penetrates through the T-shaped hole 626.

The working principle of the technical scheme is as follows: in the embodiment, structures such as the second upper groove 623, the bearing ring 624, the fifth flat plate 625, and the like are provided, specifically, the fourth flat plate 604 is provided with the second upper groove 623, the bearing ring 624 plays a role in supporting the fifth flat plate 625 in the second upper groove 623, and the fifth flat plate 625 can be replaced with one having a different thickness as required, so as to provide a suitable height for the suction pump box 5; in this case, the upper end of the vertical link 627 can be hidden by the design of the T-shaped hole 626, and the suction pump box 5 is not prevented from being mounted on the fifth flat plate 625.

The beneficial effects of the above technical scheme are that: through the design of the structure, the present embodiment provides the structures of the second upper groove 623, the bearing ring 624, the fifth flat plate 625, etc., and can better meet the installation requirement of the suction pump box 5.

In one embodiment, the first flat plate 601 and the fourth flat plate 604 are connected by a fixing component, the securing assembly includes an upper extension plate 628, a lower extension plate 629, vertical clamp bars 636, an upper connector barrel 630 and a lower connector barrel 631, the upper extension plate 628 is connected to the first flat plate 601, the outer end of the upper extension plate 628 is provided with a first clamping groove 632, the lower extension plate 629 is connected to the fourth flat plate 604, a second clip groove 633 is provided at the outer end of the lower extension plate 629, the upper end of the upper connector 630 is provided with a first clamping block 634 connected with the first clamping groove 632, the lower end of the lower connecting cylinder 631 is provided with a second clamping block 635 connected with the second clamping groove 633, the upper end of the vertical clamping rod 636 is rotatably connected in the upper connecting cylinder 630, and is rotatably connected with the upper connecting cylinder 630, and the lower end of the vertical clamping bar 636 is screwed into the lower connecting cylinder 631.

The working principle of the technical scheme is as follows: in order to connect the first and fourth flat plates 601 and 604, the present embodiment provides a structure of a fixing assembly, specifically, the fixing assembly includes an upper extension plate 628, a lower extension plate 629, a vertical clamping rod 636, an upper connecting cylinder 630 and a lower connecting cylinder 631, when in use, an operator can hold the vertical clamping rod 636 and then rotate the vertical clamping rod 636, the upper end of the vertical clamping rod 636 is connected with an upper slide block 637, the upper slide block 637 is rotatably connected in the upper connecting cylinder 630, so that the rotation between the vertical clamping rod 636 and the upper connecting cylinder 630 is realized, the lower end of the vertical clamping rod 636 is connected with a screw block 638, an inner screw groove corresponding to the screw block 638 is designed on the inner wall of the lower connecting cylinder 636, so that the vertical clamping rod 636 is rotated to realize the approaching or separating between the upper connecting cylinder 630 and the lower connecting cylinder 631, thereby realizing the approaching or separating between the first and fourth flat plates 601 and 604, the operation of operators is facilitated according to actual needs.

The beneficial effects of the above technical scheme are that: through the design of the above structure, the present embodiment provides a specific structure of the fixing component, and the fixing component includes an upper extension plate 628, a lower extension plate 629, a vertical clamping bar 636, an upper connecting cylinder 630 and a lower connecting cylinder 631, which not only can realize the fixation between the first flat plate 601 and the fourth flat plate 604, but also can realize the approaching or the departing between the two, thereby facilitating the operation of the operator according to the actual needs.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a special water treatment electromechanical device of ecological landscape water which characterized in that includes:

the sewage treatment system comprises a sewage separation module (1), a water filtering module (2), a water storage module (3) and a sludge module (4);

the sewage separation module (1) is respectively communicated with the water filtering module (2) and the sludge module (3), and the water filtering module (2) is connected with the water storage module (3);

the water filtering module (2) comprises a suction pump (21) and a filtering box (22), a box cover is arranged at the upper end of the filtering box (22), an inner filtering module (23) is arranged in the filtering box (22), the left end of the filtering box (23) is communicated with the sewage separation module (1) through the suction pump (21), and the right end of the filtering box (22) is communicated with the water storage module (3).

2. The special water treatment electromechanical equipment for the ecological landscape water body according to claim 1, wherein the inner filter module (23) comprises a first filter plate (24), a second filter plate (25) and a third filter plate (26) from left to right, the first filter plate (24) comprises a first frame body (241) and a filter screen layer (242) arranged in the first frame body (241), the second filter plate (25) comprises a second frame body (251) and a polypropylene fiber filter layer (252) arranged in the second frame body (251), and the third filter plate (26) comprises a third frame body (261) and an activated carbon filter layer (262) arranged in the third frame body (261);

the front inner wall and the rear inner wall of the filter box (22) are respectively provided with a first sliding groove (221) corresponding to the first frame body (241), a second sliding groove (222) corresponding to the second frame body (251), and a third sliding groove (223) corresponding to the third frame body (261).

3. The special water treatment electromechanical equipment for the ecological landscape water body according to claim 1, wherein the sewage separation module (1) comprises a separation box (11), a rotating rod group (12), a horizontal filter plate (13), an upper cleaning mechanism (14) and a lower cleaning mechanism (15), the rotating rod group (12) is arranged on the inner top surface of the separation box (11), the horizontal filter plate (13) is arranged in the separation box (11) and is positioned below the rotating rod group (12), the upper cleaning mechanism (14) and the lower cleaning mechanism (15) are both arranged on the separation box (11), the upper cleaning mechanism (14) is positioned above the horizontal filter plate (13), the lower cleaning mechanism (15) is positioned below the horizontal filter plate (13), the upper cleaning mechanism (14) and the lower cleaning mechanism (15) are both communicated with the water storage module (3), and is used for cleaning the flat filter plate (13).

4. The special water treatment electromechanical equipment for the ecological landscape water body as claimed in claim 3, wherein the upper cleaning mechanism (14) comprises a horizontally-arranged electric telescopic rod (141), a cleaning plate (142) and a plurality of cleaning nozzles (143), the horizontally-arranged electric telescopic rod (141) is arranged on the left inner wall of the separation box (11), the cleaning plate (142) is arranged at the right end of the horizontally-arranged electric telescopic rod (141), the plurality of cleaning nozzles (143) are arranged on the cleaning plate (142), and the cleaning nozzles (143) are communicated with the water storage module (3).

5. The water treatment electromechanical device special for the ecological landscape water body as claimed in claim 1, further comprising: suction pump case (5), suction pump (21) set up in suction pump case (5), suction pump case (5) set up and bear frame (6), bear and be provided with a plurality of link plate (7) on frame (6), suction pump case (5) set up bear on frame (6) and with a plurality of link plate (7) can be dismantled and be connected.

6. The special water treatment electromechanical equipment for the ecological landscape water body as claimed in claim 5, wherein a vertical groove (701) is arranged on the inner side wall of the hanging plate (7), a vertical groove plate (702) is arranged on the notch of the vertical groove (701), a telescopic module and a translation module are arranged in the vertical groove (701), the telescopic module comprises a first vertical rod (703), a second vertical rod (704), an upper bearing plate (705), a lower bearing plate (706), an upper worm (707), a lower worm (708), a turbine (709) and a motor (710), the first vertical rod (703) is arranged on the inner top surface of the vertical groove (701), the upper bearing plate (705) is slidably sleeved on the first vertical rod (703), an upper jack (712) is arranged in the upper bearing plate (705), the lower worm (708) is arranged on the upper bearing plate (705), the second vertical rod (704) is arranged on the inner bottom surface of the vertical groove (701) and corresponds to the first vertical rod (703), the lower bearing plate (706) is sleeved on the second vertical rod (704) in a sliding manner, a lower insertion hole (711) corresponding to the lower worm (708) is arranged on the lower bearing plate (706), the upper worm (707) is arranged on the lower bearing plate (706) and corresponds to the upper insertion hole (712), the motor (710) is connected with the inner wall of the vertical groove (701) and is positioned on one side of the lower worm (708), the turbine (709) is connected with the motor (710) in a rotating manner, and the turbine (709) is positioned between the upper worm (707) and the lower worm (708);

the translation module comprises an upper inclined rod (713), a lower inclined rod (714), a vertical translation plate (715), two first springs (716) and two T-shaped rods (717), the vertical translation plate (715) is movably connected with the upper bearing plate (705) through the upper inclined rod (713), the vertical translation plate (715) is movably connected with the lower bearing plate (706) through the lower inclined rod (714), two T-shaped grooves (718) are arranged on the outer surface of the vertical translation plate (715), the first spring (716) is arranged in the T-shaped groove, the inner end of the T-shaped rod (717) is positioned in the T-shaped groove (718) and is connected with the first spring (716), the outer end of the T-bar (717) passes through a first through-hole (718) in the vertical slotted plate (702) and extends into a first blind hole in the suction pump box (5).

7. The special water treatment electromechanical device for the ecological landscape water body as claimed in claim 5, wherein the bearing frame (6) comprises a first flat plate (601), a second flat plate (602), a third flat plate (603), a fourth flat plate (604) and a resilient pad (605), the second flat plate (602) is arranged on the first flat plate (601), the third flat plate (603) is arranged on the second flat plate (602), a first upper groove (606) is arranged on the third flat plate (603), the resilient pad (605) is arranged in the first upper groove (606), the fourth flat plate (604) is arranged on the resilient pad (605), and the suction pump box (5) is arranged on the fourth flat plate (604);

a first side groove (607) is arranged on the side wall of the second flat plate (602), a vertical base plate (608) and a first damping module are arranged in the first side groove (607), the vertical base plate (608) is arranged on the inner surface of the first side groove (607), the first damping module is arranged on the outer side of the vertical base plate (608), the first damping module comprises a damping frame body (609) and a damping plate (610), the damping plate (610) is arranged in the damping frame body (609), a plurality of limiting plates (615) are arranged on the lower surface of the third flat plate (603), a second side groove (616) corresponding to the first side groove (607) is arranged on the inner surface of the limiting plate (615), a second damping module is connected in the second side groove (616), the second damping module comprises a damping block (617) and a second flat connecting rod (618), a horizontal hole (619) communicated with the second side groove (616) is formed in the limiting plate (615), and the second horizontal connecting rod (618) penetrates through the horizontal hole (619) and is connected with the damping block (617).

8. The special water treatment electromechanical device for the ecological landscape water body as claimed in claim 7, wherein a plurality of second springs (620) are arranged in the second side groove (616), a plurality of first clamping grooves (621) are arranged on the inner surface of the second side groove (616), a second clamping groove (622) corresponding to the first clamping groove (621) is arranged on the inner surface of the damping block (617), one end of each second spring (620) is located in the first clamping groove (621), and the other end of each second spring is located in the second clamping groove (622).

9. The special water treatment electromechanical equipment for the ecological landscape water body as claimed in claim 7, wherein a second upper groove (623) is arranged on the upper surface of the fourth horizontal plate (604), a bearing ring (624) is arranged on the second upper groove (623), a fifth horizontal plate (625) is connected onto the bearing ring (624), the suction pump box (5) is borne on the fifth horizontal plate (625), a T-shaped hole (626) is arranged on the upper surface of the fifth horizontal plate (625), and is connected with the inner bottom surface of the second upper groove (623) through a vertical connecting rod (627), and the vertical connecting rod (627) penetrates through the T-shaped hole (626).

10. A unidirectional moving highway bridge basin rubber bearing according to claim 1, wherein the first flat plate (601) and the fourth flat plate (604) are connected by a fixing component, the fixing component comprises an upper extension plate (628), a lower extension plate (629), vertical clamping bars (636), an upper connecting cylinder (630) and a lower connecting cylinder (631), the upper extension plate (628) is connected with the first flat plate (601), the outer end of the upper extension plate (628) is provided with a first clamping groove (632), the lower extension plate (629) is connected with the fourth flat plate (604), the outer end of the lower extension plate (629) is provided with a second clamping groove (633), the upper end of the upper connecting cylinder (630) is provided with a first clamping block (634) connected with the first clamping groove (632), the lower end of the lower connecting cylinder (631) is provided with a second clamping block (635) connected with the second clamping groove (633), the upper end of the vertical clamping rod (636) is rotatably connected into the upper connecting cylinder (630) and is rotatably connected with the upper connecting cylinder (630), and the lower end of the vertical clamping rod (636) is screwed into the lower connecting cylinder (631).

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