CN209094050U - A kind of underwater cleaning robot - Google Patents

Abstract

The utility model discloses a kind of underwater cleaning robot, belongs to cleaning robot technical field.The underwater cleaning robot includes frame body and the electronic system that is mounted in frame body；Frame body includes upper frame, partition and lower frame, and is bolted；Electronic system includes multiple collision detecting devices, sealed compartment and the depth scale that partition upper surface is arranged in, and the multiple horizontal propellers and two vertical pushers of partition lower surface are arranged in；Cleaning device is provided with below partition.The underwater cleaning robot powers on and is placed under water without installation, can clean according to the path planned automatically to entire precipitating bottom of pond portion inclined tube；When the main devices such as propeller when something goes wrong, can carry out integral replacing, safeguard efficient and convenient.In addition, underwater cleaning robot can the transition operation between multiple independent sedimentation basins, price is far below existing stent-type ultrasonic cleaning apparatus, significantly reduces the equipment purchase cost of water factory.

Description

A kind of underwater cleaning robot

Technical field

The utility model relates to cleaning robot technical field, in particular to a kind of underwater cleaning robot.

Background technique

In water treatment field, inclined-tube sedimentation tank is that water factory applies a kind of more universal High-efficiency precipitation equipment, main The principle for utilizing " shallow layer precipitating ", installs one group of inclined tube for having certain tilt angle built up side by side in pond, is solid in water The sedimentation of particle provides advantage, can greatly improve the effect and ability of water process.However, since inclined tube caliber is smaller, It is easy deposition in pipe, and algae can be bred under certain condition, if dirt cannot be cleared up in time in inclined tube, be easy to cause Inclined tube blocking, generates anti-mud phenomenon, makes to be discharged water quality deterioration.Currently, be to solve inclined tube to hold susceptible to plugging problem, water factory frequently with Giant cleans inclined tube, but that there are working efficiencies is low, cleaning effect is poor, need to stop production the problems such as discharging water coordinating operation.

Existing pond ultrasonic cleaning apparatus needs to drive ultrasonic wave shake plate to carry out washing motion in sedimentation basin Complicated stent-type movement mechanism is set on water surface or under water, is similar to used in factory and drives a vehicle, equipment is than cumbersome, installation It is many and diverse, difficult in maintenance；And existing pond ultrasonic cleaning apparatus, movement mechanism are to be fixedly mounted, and cannot arbitrarily be removed It is dynamic, thus a set of cleaning equipment is only used for a corresponding sedimentation basin, and usually there are 2-4 sedimentation basin, some large sizes in water factory Water factory has that 6-8 sedimentation basin is even more, thus considerably increases the equipment purchase cost of water factory.

Utility model content

The purpose of this utility model is to provide a kind of underwater cleaning robots, to solve existing pond ultrasonic cleaning Equipment problem erroneous for installation, difficult in maintenance and high purchase cost.

In order to solve the above technical problems, the utility model provides a kind of underwater cleaning robot, including frame body and peace Electronic system in the frame body；Wherein,

The frame body includes upper frame, partition and lower frame, and is bolted；

The electronic system includes that multiple collision detecting devices, sealed compartment and the depth of the partition upper surface is arranged in The multiple horizontal propellers and two vertical pushers of the partition lower surface are arranged in instrument；It is provided with below the partition Cleaning device.

Optionally, the lower frame includes under(-)chassis, shake plate supporting beam, sidebar and multiple cushion idler devices；It is described Shake plate supporting beam is welded on the under(-)chassis；Four endpoints of the under(-)chassis are arranged in the cushion idler device Place.

Optionally, the upper frame includes the top frame being welded to each other, support base and hanging ring；It is provided on the support base Bolt hole is connect by bolt with the sidebar of the partition and the lower frame.

Optionally, the multiple horizontal propeller directlys adopt bolt and connect with the partition；Described two vertical thrusts Device is connect using bolt with angle seat, and the angle seat is connect with the partition.

Optionally, ultrasonic wave shake plate is provided with below the partition, the cleaning device is ultrasonic wave shake plate, with shake plate Supporting beam is bolted.

Optionally, the quantity of the collision detecting device is four, is separately positioned on four sides of the partition upper surface；Institute The quantity for stating horizontal propeller is four, is arranged in the partition lower surface, and mutually symmetrical in 45 degree.

Optionally, the underwater cleaning robot further includes foam, is connect using bolt with the partition.

Optionally, the sealed compartment is fixed on the partition by fixed ring.

Optionally, sensing unit and control unit are provided in the sealed compartment.

Optionally, the cushion idler device is polyurethane roller.

It provides a kind of underwater cleaning robot in the present invention, including frame body and is mounted on the frame sheet Electronic system in body；Wherein, the frame body includes upper frame, partition and lower frame, and is bolted；The electricity Subsystem includes multiple collision detecting devices, sealed compartment and the depth scale that the partition upper surface is arranged in, setting it is described every Multiple horizontal propellers of plate lower surface and two vertical pushers.

The underwater cleaning robot of the utility model has the advantages that without installation, powers on and is placed in water Under, entire precipitating bottom of pond portion inclined tube can be cleaned according to the path planned automatically, can also install camera and dedicated survey additional Equipment is tried, field operation situation is monitored, and cleaning effect can be analyzed in real time；When the main devices such as propeller go out When existing problem, integral replacing can be carried out, is safeguarded efficient and convenient.In addition, a underwater cleaning robot can be multiple independent Transition operation between sedimentation basin, and its price is far below existing stent-type ultrasonic cleaning apparatus, significantly reduces water factory Equipment purchase cost, reduce equipment redundancy.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of underwater cleaning robot provided by the utility model；

Fig. 2 is the structural schematic diagram of electronic system provided by the utility model；

Fig. 3 is the structural schematic diagram of lower frame provided by the utility model；

Fig. 4 is the structural schematic diagram of upper frame provided by the utility model.

Specific embodiment

Below in conjunction with the drawings and specific embodiments to the utility model proposes a kind of underwater cleaning robot make it is further It is described in detail.According to following explanation and claims, will be become apparent from feature the advantages of the utility model.It should be noted that Attached drawing is all made of very simplified form and using non-accurate ratio, only to convenient, lucidly aid illustration is originally practical The purpose of new embodiment.

Embodiment one

The utility model provides a kind of underwater cleaning robot, and structure is as shown in Figure 1.The underwater cleaning robot Including frame body and the electronic system being mounted in the frame body；Wherein, the frame body include upper frame 1, every Plate 2 and lower frame 3, and be bolted, form detachable structure；The electronic system includes being arranged on the partition 2 Multiple horizontal propulsions of 2 lower surface of partition are arranged in multiple collision detecting devices 4, sealed compartment 5 and the depth scale 6 on surface Device 7 and two vertical pushers 8.The depth scale 6 is for detecting underwater cleaning robot in the depth of underwater.It is described underwater Cleaning robot further includes foam 9, for increasing the buoyancy of underwater cleaning robot, the foam 9 using bolt and it is described every Plate 2 connects.The lower section of the partition 2 is provided with ultrasonic wave shake plate 10, and the ultrasonic wave shake plate 10 emits downwards ultrasonic wave, is used for Remove the dirt on robot underlying object surface.

Specifically, as shown in Fig. 2, the quantity of the collision detecting device 4 be four, respectively collision detecting device 41, Collision detecting device 42, collision detecting device 43 and collision detecting device 44；It is separately positioned on the four of 2 upper surface of partition Side, for the contact condition of four different directions and pool wall to detect all around to underwater robot；The level pushes away Quantity into device is four, is arranged in the partition lower surface, and mutually symmetrical in 45 degree.Please continue to refer to Fig. 2, the multiple water Flat propeller 7(includes horizontal propeller 71, horizontal propeller 72, horizontal propeller 73 and horizontal propeller 74) directly adopt spiral shell Bolt is connect with the partition 2；Described two vertical pusher 8(include vertical pusher 81 and vertical pusher 82) use bolt It is connect with angle seat 11, the angle seat 11 is attached with the partition 2 by bolt or welding.Further, The sealed compartment 5 is fixed on the partition 2 by fixed ring 12, and sensing unit is provided in the sealed compartment 5 and control is single Member.

Specifically, the structure of the lower frame 3 is as shown in Figure 3.The lower frame 3 includes under(-)chassis 31, shake plate support Beam 32, sidebar 33 and multiple cushion idler devices 34；The shake plate supporting beam 32 is welded on the under(-)chassis 31；It is described every Plate 2 is shelved in the sidebar 33.The cushion idler device 34 is arranged at four endpoints of the under(-)chassis 31.Into one Step, the cushion idler device 34 is polyurethane roller, when underwater robot and pool wall collision, plays buffer function.Institute It states and is provided with bolt hole in shake plate supporting beam 32, connect by bolt with the ultrasonic wave shake plate 10.

Specifically, being illustrated in figure 4 the structural schematic diagram of the upper frame 1.The upper frame 1 includes the top being welded to each other Portion's frame 11, support base 12 and hanging ring 13；It is provided with bolt hole on the support base 12, by bolt and the partition 2 and described The sidebar 33 of lower frame 3 connects, and then the lower frame of underwater cleaning robot 3, partition 2 and upper frame 1 link together.Institute It is lifted by rope when stating hanging ring 13 for underwater cleaning robot Water Exit.

The underwater cleaning robot drives mode using six, wherein as shown in Fig. 2, horizontal propeller 72 and horizontal propeller 74 be front side horizontal propeller, and horizontal propeller 71 and horizontal propeller 73 are rear side horizontal propeller, 81 He of vertical pusher Vertical pusher 82 is left and right sides vertical thrusters, realizes advance, retrogressing, left and right translation, raising and lowering of robot etc. Motion mode, and then realize that robot in the scanning motion of entire cleaning area, enables ultrasonic wave shake plate 10 to complete to precipitate The cleaning of inclined tube in any region of pond.Steps are as follows for groundwork:

(1) underwater cleaning robot dive is to predetermined depth.By underwater cleaning robot being put on one side along sedimentation basin (front and back side and sedimentation basin short side are substantially parallel, and left and right sides and sedimentation basin long side are substantially parallel), activation system operation, control in water Vertical thrusters operating in the left and right sides makes robot dive to away from about 5 centimeters of bottom inclined tube upper surface, closes vertical pusher 81 and vertical pusher 82, so that itself and bottom inclined tube is kept certain distance, not only guarantees cleaning effect, but also inclined tube will not be damaged；

(2) underwater cleaning robot posture is adjusted, determines washing motion starting point.Horizontal propeller 73 and horizontal propeller 74 Reversion, robot move downward, and collision detecting device 41 exports collision alarm within a certain period of time, close 73 He of horizontal propeller Horizontal propeller 74, and recording the position is washing motion starting point；As collision detecting device 41 does not have signal within a certain period of time Output, then close horizontal propeller 73 and horizontal propeller 74；It opens horizontal propeller 71 and horizontal propeller 72 and inverts, machine Device people moves right, until collision detecting device 44 exports the right side to side signal, closes horizontal propeller 71, horizontal propeller 72, The point is washing motion starting point.

(3) washing motion origin is determined.Rear side horizontal propeller 71 and rear side horizontal propeller 73 rotate forward, and robot is forward Movement after robot motion state is stablized, closes rear side horizontal propeller until collision detecting device 43 exports collision alarm 71 and rear side horizontal propeller 73, the point be the origin of washing motion, the attitude angle and runing time of record robot at this time T₁, for pose adjustment of robot during scanning motion and cleaning scanning motion after return washing motion and rise Point.

(4) scanning motion is cleaned.1. front side horizontal propeller 72,74 rotates forward, robot moves backward, until collision detection Device 42 exports collision alarm, closes front side horizontal propeller 72,74, the running time T of recorder people₂；2. such as robot In the leftmost side (executing dextrad scanning) of sedimentation basin, horizontal propeller 71, horizontal propeller 72 are inverted, and move right half of seat in the plane Afterwards, horizontal propeller 71,72 is closed, rear side horizontal propeller 71,73 is opened and is rotated forward, robot travels forward, until collision Detection device 43 exports collision alarm, closes rear side horizontal propeller 71,73；3. horizontal propeller 71,72 invert, robot to After moving right half of seat in the plane, horizontal propeller 71,72 is closed, open front side horizontal propeller 72,74 and is rotated forward, robot is backward Movement closes front side horizontal propeller 72,74, so far cleans scanning motion until collision detecting device 42 exports collision alarm A circulation terminate；2. 3. 4. repeating the above steps, until robot touches sedimentation basin during moving right Right side wall, i.e. collision detecting device 44 export collision alarm, open corresponding propeller and rotate forward that (robot is on front side of sedimentation basin When wall, front side horizontal propeller 72,74 is opened, robot moves backward；Robot opens rear side water in sedimentation basin rear wall Flat propeller 71,73, robot travels forward), when collision detecting device 43,42 exports collision alarm, close corresponding water Flat propeller, so far entire pond cleaning scanning motion process terminates, and completes the cleaning of entire sedimentation basin.5. if robot is heavy The rightmost side (executing left-hand scanning) in shallow lake pond, when collision detecting device 43,42 exports collision alarm, horizontal propeller 73,74 Reversion, is moved to the left half of seat in the plane, remaining process is identical as dextrad scanning every time.

(5) cleaning robot returns to washing motion starting point.What it is such as robot execution is that dextrad scans, horizontal propeller 73, 74 reversions, robot are moved to the left, until collision detecting device 41 exports collision alarm, close horizontal propeller 73,74, at this time Robot returns to the corresponding point of cleaning origin or the ipsilateral cleaning origin of sedimentation basin；If robot is in cleaning origin, front side water is opened Flat propeller 72,74, robot moves backward, when running between reach T₁When value, front side horizontal propeller 72,74 is closed, this When cleaning robot return to washing motion starting point (i.e. robot enter water position)；If robot is in the ipsilateral cleaning origin of sedimentation basin Corresponding point, open rear side horizontal propeller 71,73, robot travels forward, when running between reach T₂-T₁When value, after closing Side horizontal propeller 71,73, cleaning robot returns to washing motion starting point (i.e. robot enter water position) at this time；So far entire Washing and cleaning operation terminates.

In entire motion process, in order to ensure robot is able to maintain rectilinear scanning motion, according to the road of advance planning Diameter to entire sedimentation basin carry out washing and cleaning operation, thus in control unit include course rectify a deviation module, with adjust in time water disturbance, Robot course deviation caused by the factors such as pool wall collides inertia, cable pulls；Under the premise of ensuring cleaning effect, in order to subtract Few damage to bottom inclined tube, robot need to carry out washing and cleaning operation (i.e. away from bottom inclined tube upper surface in preset depth About 5 centimetres), thus in control unit include depth adjustment module, with adjust in time robot self gravity it is different from buoyancy and The change in depth of generation.

Foregoing description is only the description to the utility model preferred embodiment, not to any limit of the scope of the utility model Fixed, any change, the modification that the those of ordinary skill in the utility model field does according to the disclosure above content belong to right and want Seek the protection scope of book.

Claims (10)

1. a kind of underwater cleaning robot, which is characterized in that including frame body and the electronics being mounted in the frame body System；Wherein,

The frame body includes upper frame, partition and lower frame, and is bolted；

The electronic system includes multiple collision detecting devices, sealed compartment and the depth scale that the partition upper surface is arranged in, if Set the multiple horizontal propellers and two vertical pushers in the partition lower surface；Cleaning dress is provided with below the partition It sets.

2. underwater cleaning robot as described in claim 1, which is characterized in that the lower frame includes under(-)chassis, shake plate Supporting beam, sidebar and multiple cushion idler devices；The shake plate supporting beam is welded on the under(-)chassis；The cushion idler Device is arranged at four endpoints of the under(-)chassis.

3. underwater cleaning robot as claimed in claim 2, which is characterized in that the upper frame includes the top being welded to each other Frame, support base and hanging ring；It is provided with bolt hole on the support base, passes through the sidebar of bolt and the partition and the lower frame Connection.

4. underwater cleaning robot as described in claim 1, which is characterized in that the multiple horizontal propeller directlys adopt spiral shell Bolt is connect with the partition；Described two vertical pushers are connect using bolt with angle seat, the angle seat with it is described Partition connection.

5. underwater cleaning robot as claimed in claim 4, which is characterized in that the cleaning device is ultrasonic wave shake plate, with Shake plate supporting beam is bolted.

6. underwater cleaning robot as described in claim 1, which is characterized in that the quantity of the collision detecting device is four It is a, it is separately positioned on four sides of the partition upper surface；The quantity of the horizontal propeller is four, is arranged under the partition Surface, and it is mutually symmetrical in 45 degree.

7. the underwater cleaning robot as described in claim 1-6 is any, which is characterized in that the underwater cleaning robot also wraps Foam is included, is connect using bolt with the partition.

8. underwater cleaning robot as described in claim 1, which is characterized in that the sealed compartment is fixed on institute by fixed ring It states on partition.

9. underwater cleaning robot as described in claim 1, which is characterized in that be provided in the sealed compartment sensing unit and Control unit.

10. underwater cleaning robot as claimed in claim 2, which is characterized in that the cushion idler device is polyurethane rolling Wheel.