CN108158513A

CN108158513A - The sweep-out method of the flat-objects surface such as glass, floor stain

Info

Publication number: CN108158513A
Application number: CN201810009563.5A
Authority: CN
Inventors: 蔡宜和
Original assignee: Individual
Current assignee: Lu'an Yongzhen Grizzly Electrical And Mechanical Technology Co ltd
Priority date: 2018-01-05
Filing date: 2018-01-05
Publication date: 2018-06-15
Anticipated expiration: 2038-01-05
Also published as: CN108158513B

Abstract

The invention discloses the sweep-out method of the flat-objects surface such as glass, floor stain, step is：Cleaning water source is injected into water pot ontology by water injection pipe, housing is installed on by tank ontology is cleaned by erecting device；Cleaning water source in water pot ontology is delivered to by diversion pipe, water flow control mechanism in the receiving tank of cleaning device, and the detergent in cleaning tank ontology is by being connected hose, detergent flow control mechanism is delivered in the receiving tank of cleaning device and is mixed with cleaning water source；Accommodate that the mixing liquid in tank passes sequentially through permeable hole, the water flowing inner cavity of shaft, the cleaning inner cavity of shaft, the clean inner cavity of cleaning head, the limbers on cleaning head are sprayed to glass surface, shaft rotation simultaneously drives cleaning shaft to rotate and cleaning head is driven to rotate, and cleaning head rotation makes sponge protrusion cleaning glass window.

Description

The sweep-out method of the flat-objects surface such as glass, floor stain

Technical field

The present invention relates to a kind of glass surface cleaning method more particularly to it is a kind of to glass surface carry out concentration of lotion The cleaning method of self-regulated.

Background technology

Usually sponge is absorbed by cleaning solution to wipe, pass through to the traditional removal method of glass surface spot at present Rubber scraper or dry wipe remove the cleaning solution stayed on glass, and this method not only takes considerable time, but also cleaning solution is dense Bad grasp is spent, concentration of lotion, which is crossed, to be caused to damage to glass surface, and concentration of lotion is too small, can not remove stupid Gu spot, in addition to this, such cleaning method also add the labor intensity of cleaning personnel, it is not easy to daily cleaning.

Invention content

To solve the deficiencies in the prior art, the object of the present invention is to provide detergent concentration can the cleaning glass of self-regulated set It is standby.

To realize the above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.

The sweep-out method of the flat-objects surface such as glass, floor stain, step are：

（One）Clean water source and detergent preparation stage；

S1：Cleaning water source is injected into water pot ontology by water injection pipe；

S2：Housing is installed on by tank ontology is cleaned by erecting device, cleaning tank ontology and conducting are made by retainer plate and filler ring Hose is connected, and pressing cleaning tank ontology moves downward it and filler ring and locking sliding block ontology is driven to move downward, filler ring and lock During tight slider body moves downward, when the distance between filler ring and retainer plate incrementally increase and reach maximum value, shank Positive stop end entered in limiting slot by the guiding function of guiding groove one, the positive stop end of shank is slided with limiting slot cooperation limitation locking Block body moves upwards, and tripping spring is in extended configuration, and the elastic force of tripping spring does locking sliding block ontology to transport relatively upward Dynamic trend, at the same time, gag lever post is moved downward along the channeling direction of limit sliding chutes, since the channeling direction of limit sliding chutes is in incline Tiltedly arrangement, the movement of gag lever post can be divided into vertical and straight movement and horizontal movement, and the vertical and straight movement of gag lever post makes the pressing end of gag lever post Close to cleaning tank ontology, the horizontal movement of gag lever post makes the pressing end of gag lever post be contacted and to cleaning with cleaning the tank bottom of tank ontology The movement of tank ontology is limited, and cleaning tank ontology is fixedly installed in shell under the cooperation at tripping spring and gag lever post pressing end Body；

（Two）Clean water source and detergent mix stages；

S3：Cleaning water source in water pot ontology flows into water flow control mechanism by diversion pipe and is conveyed by water flow control mechanism To the receiving tank of cleaning device, water flow control mechanism can control the stream for flowing into the cleaning water source for accommodating tank in transmission process Amount, after the cleaning water source in receiving tank reaches aequum, water flow control mechanism makes cleaning water source that can not flow into receiving tank；

S4：Detergent in cleaning tank ontology flows into detergent flow control mechanism, and by cleaning agent flux by the way that hose is connected Control mechanism is delivered in the receiving tank of cleaning device to be mixed with cleaning water source, detergent flow control mechanism energy in transmission process Enough control flows into the flow for the detergent for accommodating tank, after the detergent in receiving tank reaches aequum, detergent flow control Mechanism makes detergent that can not flow into receiving tank；

The detergent flow control mechanism in water flow control mechanism, step S4 in above-mentioned steps S3 includes flow control Unit, when external motivating force connect simultaneously passing power with being set to the flow controlling unit of water flow control mechanism, by setting The flow of clean water is adjusted in the flow controlling unit for being placed in water flow control mechanism；When external motivating force and it is set to clear When the flow controlling unit connection of clean agent flux control mechanism and passing power, by being set to detergent flow control mechanism The flow of detergent is adjusted in flow controlling unit；

（Three）Cleaning device cleans the glass stage；

S5：When shaft rotates, the permeable hole for being set to shaft can be to the cleaning water source and the mixing liquid of detergent in holding tank Flow-disturbing is carried out, cleaning water source is made to be uniformly mixed with detergent, liquid after mixing passes sequentially through the water flowing of permeable hole, shaft Inner cavity, the cleaning inner cavity of shaft, the clean inner cavity of cleaning head, the limbers on cleaning head are sprayed to glass surface, while shaft Rotation drives cleaning shaft to rotate and cleaning head is driven to rotate, and cleaning head rotation makes sponge protrusion cleaning glass window；

（Four）Cleaning water source refills the cleaning device stage with detergent；

S6：External motivating force connect simultaneously passing power with being set to the flow controlling unit of water flow control mechanism, is set to water The flow increase at the flow controlling unit control cleaning water source of flow control mechanism, it is external after cleaning water source reaches aequum Driving force makes the flow for being set to the flow controlling unit control cleaning water source of water flow control mechanism reduce until being zero；

S7：External motivating force connect simultaneously passing power, setting with being set to the flow controlling unit of detergent flow control mechanism Increase in the flow of the flow controlling unit control detergent of detergent flow control mechanism, after detergent reaches aequum, External motivating force makes the flow for being set to the flow controlling unit control detergent of detergent flow control mechanism reduce until being Zero；

（Five）Clean the replacement stage of tank ontology；

S8：Pressing cleaning tank ontology, during pressing, the positive stop end of shank is detached from limiting under the guiding function of guiding groove two Slot, the elastic force of tripping spring move upwards locking sliding block ontology, while make gag lever post upward along the channeling direction of limit sliding chutes Movement due to the inclined arrangement of the channeling direction of limit sliding chutes, makes the pressing end of gag lever post be detached from the tank bottom of cleaning tank ontology, clearly The clean unrestricted position bar of tank ontology is limited and can be removed；

S9：New cleaning tank ontology is installed on by housing by erecting device.

This programme advanced optimizing and improving.

The above-mentioned flow controlling unit for being set to water flow control mechanism, the stream for being set to detergent flow control mechanism Measure control unit can connection control mechanism, control mechanism include loop bar, impeller, fixed link, gear part, the fixed link Central axial direction it is parallel with the central axial direction of shaft, the gear part is socketed on the outside of shaft, described One end of impeller is socketed on the outside of fixed link, the other end is socketed on the outside of shaft and is flexibly connected with gear part, Impeller can along the axial movement of fixed link, impeller along fixed link it is axially displaced when, can drive gear component along shaft Axial movement, the loop bar are socketed on the outside of fixed link and are flexibly connected with impeller, and loop bar can be along the axis of fixed link When loop bar is along fixed link generation axis shift, promotion can be drawn to slip and loop bar around the center axis thereof of fixed link The synchronous movement of part；The axial movement of loop bar along fixed link makes impeller push in axial sliding mistake of the gear part along shaft Cheng Zhong, gear part connect with detergent flow control mechanism or water flow control mechanism and control opening or closing for the two.

This programme advanced optimizing and improving.

It is connected between the gear part and shaft by linkage part, and along shaft position axially occurs for gear part During shifting, shaft can continue to export power to gear part by linkage part, and the linkage part is to be set in shaft External splines one, the internal spline one for being set to gear part；

The gear part includes gear a, gear b, connection loop bar, and the equal coaxial line arrangement of gear a, gear b, connection loop bar is simultaneously And gear a, gear b are fixedly installed on one end of connection loop bar respectively, are both provided with and set at the center of gear a and gear b In the internal spline one that the external splines one in shaft matches, the impeller is fixedly connected on connection loop bar；Gear part exists Along along the central axial direction motion process of shaft, when gear a is connect with water flow control mechanism, shaft can be to water flow control Mechanism processed exports power and water flow control mechanism is controlled to open, switched between closed state, when gear b and detergent When flow control mechanism connects, shaft can export power to detergent flow control mechanism and control detergent flow control mechanism It opening, switched between closed state.

This programme advanced optimizing and improving.

Above-mentioned control mechanism further includes oscillating structural member, and oscillating structural member is used to make axial movement of the loop bar along fixed link, institute The oscillating structural member stated includes control rocking bar, intermediate bar, motion bar, control rocking bar can deflection and deflected trajectory be parallel to and turn The central axis of axis, the central axial direction for extending perpendicularly to shaft of intermediate bar control one end and the intermediate bar of rocking bar Driving end be fixedly connected, control the deflection of rocking bar that intermediate bar is driven to synchronize deflection, motion bar is metal elastic part, living One end of lever is fixedly connected with the output terminal of intermediate bar, the connection of the other end and loop bar, and the deflection of intermediate bar drives loop bar deflection, The deflection of loop bar can be divided into along the sliding axially of fixed link, the axial rotation around fixed link.

This programme advanced optimizing and improving.

Above-mentioned flow controlling unit includes screw nipple, three-way pipe, sealing-plug, connecting tube, and the three-way pipe is set Vertical flow tube, horizontal flow tube are equipped with, vertical flow tube is vertically installed in horizontal flow tube centre position and mutually connects and form T-shaped Structure, one end of horizontal flow tube is threaded ends, the other end is liquid extruding end, the conducting hose or diversion pipe and three The vertical flow tube connection of siphunculus is connected, and the sealing-plug is set in horizontal flow tube and the two forms sealed slip and matches It closes, by slip of the sealing-plug in horizontal flow tube, so as to control vertical flow tube and the effective vent ruler at horizontal flow tube connection Very little, the screw nipple is movably installed on fixing bracket and can be rotated around center axis, screw nipple Central axial direction is parallel with the central axial direction of shaft, and the connection end of screw nipple and horizontal flow tube is the end of thread, The end of thread of screw nipple is threadedly coupled with the threaded ends of three-way pipe, one end of the connecting tube and horizontal flow tube The connection of liquid extruding end is connected, the other end and cleaning device connection are connected；When screw nipple rotates, due to horizontal flow tube with It is connected through a screw thread between screw nipple, makes screw nipple that can be moved along center axis direction towards horizontal flow tube, Screw nipple contacts during the motion with sealing-plug, and makes liquid extruding end motion of the sealing-plug towards horizontal flow tube, close In blocking motion process, sealing-plug makes vertical flow tube be gradually reduced with the effective vent size at horizontal flow tube connection, so as to make The specific discharge of three-way pipe is gradually reduced, and is flowed into three-way pipe so as to adjust the clean water in water pot or the detergent in cleaning tank Flow, and be finally reached adjust water pot in clean water or cleaning tank in detergent flow into cleaning device in flow mesh , after clean water is mixed with detergent completion, sealing-plug will seal at vertical flow tube and horizontal flow tube connection；

Above-mentioned flow controlling unit further includes adjustment spring, and built-in step, built-in step are provided in the horizontal flow tube Be set to horizontal flow tube liquid extruding end and horizontal flow tube, vertical flow tube connection between, adjustment spring is set to level In flow tube, one end of adjustment spring is contradicted with the built-in step in horizontal flow tube, the other end and sealing-plug contradict, adjustment spring Elastic force makes threaded connection end motion of the sealing-plug towards horizontal flow tube；When the clean water in cleaning device and detergent mixing liquid After use, screw nipple can be reversely rotated, exits the threaded ends of the end of thread from the horizontal flow tube of screw nipple, Simultaneously sealing-plug adjustment spring elastic force effect under towards horizontal flow tube threaded connection end motion, sealing-plug motion process In, sealing-plug makes vertical flow tube gradually increase with the effective vent size at horizontal flow tube connection, leads to clean water or detergent It crosses three-way pipe and connecting tube is reentered in cleaning device, until after clean water is mixed with detergent completion, make sealing again Plug will seal at vertical flow tube and horizontal flow tube connection, and so on.

This programme advanced optimizing and improving.

Above-mentioned flow controlling unit further includes gear c, and gear c is socketed on the outside of screw nipple, works as gear part When being moved along the central axial direction of shaft, gear a or gear b in gear part are nibbled with the gear c in flow controlling unit It closes, shaft rotates and gear part is driven to rotate, and so as to be rotated with moving gear c, and finally rotates screw nipple；

It is connected between the gear c and screw nipple by connector, and threadingly position axially occurs gear c for connecting tube During shifting, gear c can continue to export power to screw nipple by connector.

The advantageous effect of the present invention compared with prior art is that the detergent concentration of cleaning glass can be certainly in the present invention It adjusts, and it is convenient to clean the dismounting of tank ontology.

Description of the drawings

It in order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to institute in embodiment

Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some of the present invention Embodiment, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these Attached drawing obtains other attached drawings.

Fig. 1 is the overall structure diagram of the present invention.

Fig. 2 is the sectional view of the present invention.

Fig. 3 is the partial sectional view of the present invention.

Fig. 4 is the structure diagram of the control mechanism of the present invention.

Fig. 5 is the control mechanism of the present invention and the unmated schematic diagram of flow controlling unit.

Fig. 6 is the sectional view of the flow controlling unit of the present invention.

Fig. 7 is the sectional view of the receiving tank of the present invention.

Fig. 8 is the cooperation schematic diagram of the shaft and cleaning shaft of the present invention.

Fig. 9 is the cooperation schematic diagram of the shaft and cleaning shaft of the present invention.

Figure 10 is the sectional view of the anti-detachment shell of the present invention.

Figure 11 is the uninstalled schematic diagram of cleaning tank ontology of the present invention.

Figure 12 is the mounted schematic diagram of cleaning tank ontology of the present invention.

Figure 13 is the structure diagram of the erecting device of the present invention.

Figure 14 is the structure diagram of the installation shell of the present invention.

Figure 15 is the structure diagram of the position limiting slide block of the present invention.

Figure 16 is the structure diagram of the position-limit mechanism of the present invention.

Each label meaning is in figure：

100th, power supply component；

200th, power transfer mechanism；210th, shaft；211st, permeable hole；212nd, dive key；220th, drive bevel gear；230th, it is driven Bevel gear；

300th, volume control device；310th, control mechanism；311st, rocking bar is controlled；312nd, intermediate bar；313rd, motion bar；314th, it covers Bar；315th, impeller；316th, fixed link；317th, gear part；318th, external splines one；

320th, detergent flow control mechanism；

330th, water flow control mechanism；

340th, flow controlling unit；341st, screw nipple；342nd, external splines two；343rd, gear c；344th, three-way pipe；345th, it is close Blocking；346th, adjustment spring；347th, connecting tube；

400th, cleaning device；410th, cleaning head；420th, shaft is cleaned；421st, buffer spring；422nd, keyway；430th, tank is accommodated； 431st, holding tank；

440th, anti-detachment shell；441st, inner cavity is limited；442nd, inner cavity is slided；443rd, inner cavity is connected；

500th, water pot；

600th, tank is cleaned；610th, tank ontology is cleaned；620th, hose is connected；

700th, erecting device；The 710th, shell is installed；711st, outer cover body；712nd, mounting groove；713rd, constraint protrusion；714th, dog hole； 715th, limit sliding chutes；716th, retainer plate；

720th, shank；

730th, tripping spring；

740th, locking sliding block；741st, locking sliding block ontology；742nd, guide chute；743rd, filler ring；744th, mobile protrusion；745th, it guides Slot one；746th, limiting slot；747th, guiding groove two；748th, limited block one；749th, limited block two；

750th, position-limit mechanism；751st, gag lever post；752nd, position limiting slide block；

800th, housing.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete

Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments. Based on the embodiments of the present invention, what those of ordinary skill in the art were obtained without making creative work is all Other embodiment shall fall within the protection scope of the present invention.

As illustrated in figs. 1-16, a kind of detergent concentration can self-regulated glass cleaning equipment, including power supply component 100, Power transfer mechanism 200, volume control device 300, cleaning device 400, water pot 500, cleaning tank 600, power supply component 100 Cleaning power is provided for cleaning glass for cleaning device 400, power transfer mechanism 200 can receive power supply component 100 The power is simultaneously transferred to cleaning device 400 by power, and water pot 500 is used to provide required cleaning water source, cleaning for cleaning device 400 Tank 600 is used to provide detergent needed for glass surface cleaning in the process for cleaning device 400, and cleaning device 400 can receive cleaning The mixed liquor of water and detergent simultaneously cleans glass, and volume control device 300 is used to control the cleaning in cleaning device 400 The mixed proportion of water and detergent.

As Figure 2-3, above-mentioned power transfer mechanism 200 includes gear drive, shaft 210, it is preferred that gear Transmission mechanism is bevel gear transmission, and the bevel gear transmission includes drive bevel gear 220, driven wheel of differential 230, The power output end of the power supply component 100 is connect with drive bevel gear 220, driven wheel of differential 230 and active conical tooth 220 engagement of wheel and driven wheel of differential 230 are fixedly sheathed in the outside of shaft 210, the power of the power supply component 100 Shaft 210 is transferred to by bevel gear transmission and shaft 210 is made to be rotated around center axis；Select Bevel Gear Transmission machine Structure can make power direction of transfer that 90 degree of deflections occur, and can reduce the volume of transmission mechanism.

For the ease of holding, the present invention is additionally provided with front handlebar, rear handle, and the power supply component 100 is set to Afterwards in handle, since bevel gear transmission can make power direction of transfer that 90 degree of deflections occur, handle can be set vertically after institute Put, be advantageous in that, in the use of the present invention, cleanup crew can the right hand hold front handlebar, handle after left-handed, convenient for cleaning Personnel hold.

Glass cleaning equipment further includes housing 800, and the power transfer mechanism 200, volume control device 300 are respectively provided with In in housing 800.

As shown in figures 2-6, above-mentioned volume control device 300 includes control mechanism 310, detergent flow control mechanism 320th, water flow control mechanism 330, the detergent flow control mechanism 320 connect with cleaning tank 600 and for controlling The flow of the detergent in cleaning device 400 is flowed into, the water flow control mechanism 330 connect and is used for water pot 500 Control flows into the flow of the clean water in cleaning device 400, and the control mechanism 310 is used to control detergent flow control machine Structure 320 and water flow control mechanism 330 open or close.

As shown in Figure 3-4, above-mentioned control mechanism 310 includes loop bar 314, impeller 315, fixed link 316, gear part 317, the fixed link 316 is fixedly connected with housing 800 and in the central axial direction of fixed link 316 and shaft 210 Heart axis direction is parallel, and the gear part 317 is socketed on the outside of shaft 210, one end socket of the impeller 315 The outside of shaft 210 is socketed in the outside of fixed link 316, the other end and is flexibly connected with gear part 317, impeller 315 can along the axial movement of fixed link 316, impeller 315 along fixed link 316 it is axially displaced when, can drive gear component 317 move axially along shaft 210, and the loop bar 314 is socketed on the outside of fixed link 316 and connects with 315 activity of impeller Connect, loop bar 314 can along fixed link 316 slide axially and loop bar 314 can be around the center axis thereof of fixed link 316, loop bar 314 along fixed link 316 occur axis shift when, 315 synchronous movement of impeller can be drawn；Loop bar 314 is along fixed link 316 Being axially moved makes impeller 315 push gear part 317 along during the sliding axially of shaft 210, gear part 317 with it is clear Clean agent flux control mechanism 320 or water flow control mechanism 330 connect and control opening or closing for the two.

More specifically, it is connected between gear part 317 and shaft 210 by linkage part, and 317 edge of gear part When shaft 210 is axially displaced, shaft 210 can continue to export power to gear part 317 by linkage part, it is preferred that The linkage part is the external splines 1 being set in shaft 210, the internal spline one for being set to gear part 317.

More optimize, the gear part 317 includes gear a, gear b, connection loop bar, gear a, gear b, connection Loop bar equal coaxial line arrangement and gear a, gear b are fixedly installed on one end of connection loop bar respectively, in gear a and gear b The internal spline one that the external splines 1 in shaft 210 matches is both provided with and is set at the heart, and the impeller 315 is solid Surely it is connected to connection loop bar；Gear part 317 is in the central axial direction motion process along shaft 210, when gear a and flow When measuring the connection of control mechanism 330, shaft 210 can export power to water flow control mechanism 330 and control water flow control mechanism 330 are opening, are being switched between closed state, and when gear b is connect with detergent flow control mechanism 320, shaft 210 can Power is exported to detergent flow control mechanism 320 and detergent flow control mechanism 320 is controlled to open, between closed state It switches over.

As shown in figure 4, above-mentioned control mechanism 310 further includes oscillating structural member, oscillating structural member is installed on housing 800, pendulum Dynamic component is used to make axial movement of the loop bar 314 along fixed link 316.

More specifically, the oscillating structural member includes control rocking bar 311, intermediate bar 312, motion bar 313, controls rocking bar 311 are located at outside housing 800, control rocking bar 311 can deflection and deflected trajectory be parallel to the central axis of shaft 210, Intermediate bar 312 is movably installed on housing 800, and the central axial direction for extending perpendicularly to shaft 210 of intermediate bar 312 is simultaneously And the driving end of intermediate bar 312 is located at outside housing 800, output terminal is located inside housing 800, control rocking bar 311 one end with The driving end of intermediate bar 312 is fixedly connected, and the deflection of control rocking bar 311 drives intermediate bar 312 to synchronize deflection, motion bar 313 one end is fixedly connected with the output terminal of intermediate bar 312, the other end and loop bar 314 are connect, and the deflection of intermediate bar 312 drives Loop bar 314 deflects, and the deflection of loop bar 314 can be divided into along the sliding axially of fixed link 316, the axial rotation around fixed link 316；Set The deflection of bar 314 is embodied in：When the distance between loop bar 314 and intermediate bar 312 are incremented by by minimum value to maximum value When（I.e. loop bar 314 is far from intermediate bar 312）, the axial direction that the deflection of motion bar 313 makes loop bar 314 along fixed link 316 done far from Between bar 313 slip, while loop bar 314 is made to do the rotation towards intermediate bar 313 around the axial direction of fixed link 316, when loop bar 314 with When the distance between intermediate bar 312 is successively decreased by maximum value to minimum value（I.e. loop bar 314 is close to intermediate bar 312）, motion bar 313 The axial direction that deflecting makes loop bar 314 along fixed link 316 does the slip close to intermediate bar 313, while makes loop bar 314 around fixed link 316 Axial direction do the rotation far from intermediate bar 313.

Preferably, the motion bar 313 is metal elastic part；Motion bar 313 has made of metal elastic part Bending property can make the process that motion bar 313 drives loop bar 314 to deflect more smooth, if motion bar 313 does not have bendability Can, then motion bar 313 drive loop bar 314 deflect during, loop bar 314 along fixed link 316 slide axially with loop bar 314 around It can be interfered between the axial rotation of fixed link 316, lead to interim card occur in 314 deflection of loop bar.

As seen in figs. 5-6, above-mentioned detergent flow control mechanism 320 includes flow with water flow control mechanism 330 Control unit 340, the fixing bracket being fixedly installed on housing 800, flow controlling unit 340 are installed on fixing bracket, if The flow controlling unit 340 for being placed in water flow control mechanism 330 is used to control the clean water in water pot 500 to flow into cleaning device Flow in 400 is set to the flow controlling unit 340 of detergent flow control mechanism 320 for controlling in cleaning tank 600 Detergent flows into the flow in cleaning device 400, so as to control the mixing ratio of clean water and detergent in cleaning device 400 Example.

More specifically, the cleaning tank 600 includes cleaning tank ontology 610, conducting hose 620, conducting hose 620 One end is connect with cleaning tank ontology 610, flow controlling unit 340 of the other end with being set to detergent flow control mechanism 320 Connection, cleaning device can be flowed by the way that hose 620 and flow controlling unit 340 is connected by cleaning the detergent in tank ontology 610 In 400, the water pot 500 includes water pot ontology, diversion pipe, and one end of diversion pipe is connect with water pot ontology, the other end is with setting The flow controlling unit 340 for being placed in water flow control mechanism 330 connects, the clean water in water pot ontology can by diversion pipe and Flow controlling unit 340 is flowed into cleaning device 400.

As shown in fig. 6, above-mentioned flow controlling unit 340 include screw nipple 341, three-way pipe 344, sealing-plug 345, Connecting tube 347, the three-way pipe 344 are provided with vertical flow tube, horizontal flow tube, and vertical flow tube is vertically installed in horizontal flow tube Between position and mutually connect and form T-type structure, one end of horizontal flow tube is threaded ends, the other end is liquid extruding end, The conducting hose 620 or diversion pipe connect connection with the vertical flow tube of three-way pipe 344, and the sealing-plug 345 is set to In horizontal flow tube and the two form it is sealed be slidably matched, by slip of the sealing-plug 345 in horizontal flow tube, so as to control Vertical flow tube and the effective vent size at horizontal flow tube connection, the screw nipple 341 are movably installed in fixing bracket It can rotate above and around center axis, the central axial direction of screw nipple 341 and the central axial direction of shaft 210 Parallel, the connection end of screw nipple 341 and horizontal flow tube is the end of thread, the end of thread and three-way pipe of screw nipple 341 344 threaded ends are threadedly coupled, one end of the connecting tube 347 connect with the liquid extruding end of horizontal flow tube connection, The other end connect connection with cleaning device 400；When screw nipple 341 rotates, due to horizontal flow tube and screw nipple 341 Between be connected through a screw thread, make screw nipple 341 that can be moved along center axis direction towards horizontal flow tube, be threadedly coupled Pipe 341 contacts during the motion with sealing-plug 345, and makes liquid extruding end motion of the sealing-plug 345 towards horizontal flow tube, close In 345 motion process of blocking, sealing-plug 345 makes vertical flow tube be gradually reduced with the effective vent size at horizontal flow tube connection, It is clear in clean water or cleaning tank 600 in water pot 500 so as to adjust so as to which the specific discharge for making three-way pipe 344 is gradually reduced The clean dose of flow flowed into three-way pipe 344, and be finally reached and adjust the clean water in water pot 500 or the cleaning in cleaning tank 600 Agent flows into the purpose of the flow in cleaning device 400, and after clean water is mixed with detergent completion, sealing-plug 345 will flow vertically Pipe makes clean water or detergent that can not enter in cleaning device 400 by three-way pipe 344, keeps away with being sealed at horizontal flow tube connection Exempt to destroy the optimum mixture ratio example of the clean water and detergent in cleaning device 400.

As shown in fig. 6, above-mentioned flow controlling unit 340 further includes adjustment spring 346, set in the horizontal flow tube There is built-in step, it is preferred that built-in step is set to the liquid extruding end of horizontal flow tube and the connection of horizontal flow tube, vertical flow tube Between, adjustment spring 346 is set in horizontal flow tube, and one end of adjustment spring 346 is supported with the built-in step in horizontal flow tube The tactile, other end and sealing-plug 345 contradict, and the elastic force of adjustment spring 346 makes sealing-plug 345 towards the threaded ends of horizontal flow tube Movement；When the clean water in cleaning device 400 and detergent mixing liquid after use, screw nipple 341 can be reversely rotated, Exit the threaded ends of the end of thread from the horizontal flow tube of screw nipple 341, while sealing-plug 345 is in adjustment spring 346 Elastic force effect under towards horizontal flow tube threaded connection end motion, in 345 motion process of sealing-plug, sealing-plug 345 makes vertically Flow tube gradually increases with the effective vent size at horizontal flow tube connection, and clean water or detergent is made to pass through three-way pipe 344 and connect Take over 347 is reentered in cleaning device 400, until after clean water is mixed with detergent completion, is incited somebody to action making sealing-plug 345 again Vertical flow tube at horizontal flow tube connection with sealing, and so on.

As seen in figs. 5-6, above-mentioned flow controlling unit 340 further includes gear c343, and gear c343 is socketed on screw thread company The outside of take over 341, when the central axial direction of gear part 317 along shaft 210 moves, the gear a in gear part 317 Or gear b is engaged with the gear c in flow controlling unit 340, shaft 210 rotates and gear part 317 is driven to rotate, so as to band Moving gear c is rotated, and finally rotates screw nipple 341.

More specifically, it is connected between the gear c343 and screw nipple 341 by connector, and gear When threadingly connecting tube 341 is axially displaced, gear c can continue to export to screw nipple 341 by connector dynamic c343 Power, it is preferred that the connector is the external splines 2 342 being set on screw nipple 341, is set to gear c343 centers Place and the internal spline two to match with external splines 2 342；During gear c343 drives the rotation of screw nipple 341, spiral shell Line connecting tube 341 is moved towards three-way pipe 344, at the same time, due to the presence of connector, gear c343 opposite thread connecting tubes 341 occur relative displacement, and gear c can continue to export power to screw nipple 341 by connector.

As shown in Fig. 2-3,7-9, above-mentioned cleaning device 400 include cleaning head 410, cleaning shaft 420, accommodate tank 430, Fixing sleeve, the receiving tank 430 are fixedly installed in by fixing sleeve on housing 800, and flow control list can be received by accommodating tank 430 The detergents of 340 discharge of member and accommodate the holding tank 431 being provided in tank 430 for accommodating detergent or water at water, clean The central axial direction of shaft 420 is overlapped with the central axial direction of shaft 210, and one end of cleaning shaft 420 connects with shaft 210 Connect, the other end and cleaning head 410 connect, shaft 210 rotation drive cleaning shaft 420 rotate, and cleaning head 410 is driven to rotate.

As shown in fig. 7, the cleaning shaft 420 is the cylindrical barrel body structure of both ends open, the shaft 210 is located at Part in holding tank 431 is provided with the water flowing inner cavity connected with 420 inner cavity of cleaning shaft, and the periphery of shaft 210 is provided with The permeable hole 211 connected with water flowing inner cavity and connected with holding tank 431 is provided with clean inner cavity in the cleaning head 410 And the inner cavity of clean inner cavity and cleaning shaft 420 is connected, and cleaning head 410 is in being provided with several on the end face of glass contact The limbers for being evenly spaced on and being connected with clean inner cavity；Clean water and detergent mixture in holding tank 431 are successively Pass through permeable hole 211, the water flowing inner cavity of shaft 210, the cleaning inner cavity of shaft 420, the clean inner cavity of cleaning head 410, cleaning head Limbers on 410 is sprayed to glass surface, and the rotation of shaft 210 drives cleaning shaft 420 to rotate and drive 410 turns of cleaning head Dynamic, 410 cleaning glass window of cleaning head, in addition to this, permeable hole 211 also have stirring action, are embodied in：Shaft 210 is turning During dynamic, permeable hole 211 can be realized carries out flow-disturbing to the mixed liquor in holding tank 431, so as to promote filling for water and detergent Divide mixing.

Preferably, the cleaning head 410 is in be evenly spaced on being additionally provided with several on the end face of glass contact Sponge protrusion, when 410 cleaning glass window of cleaning head, sponge protrusion can increase the frictional force between cleaning head 410 and glass, So as to improve the efficiency that cleaning head 410 cleans glass.

More optimizing, the shaft 210 is located at the lower section of holding tank 431, its significance lies in that, holding tank can be improved The utilization rate of clean water and detergent mixture in 431 if shaft 210 is not located at the lower section of holding tank 431, will appear residual Phenomenon is stayed, is embodied in：The water that holding tank 431 is located at 210 top of shaft can pass through permeable hole 211 with detergent mixture Into in cleaning head 410, and holding tank 431 is located at the water of the lower section of shaft 210 and detergent mixture due to can not be with permeable hole 211 contacts lead to not enter in cleaning head 410 by permeable hole 211, can only remain in holding tank 431, not only reduce The utilization rate of water and detergent mixture in holding tank 431, also to clean water next time and the optimum mixture ratio of detergent Example impacts.

When cleaning device 400 cleans glass, if glass surface there are stain, the cleaning in cleaning device 400 First 410 cannot quickly remove stain, in order to quickly remove the stain of glass surface, be gone back in cleaning device 400 It is provided with buffer gear, the buffer gear makes between cleaning head 410 and shaft 210 that there are cushion effects, and cushion effect is not only Cleaning head 410 can be made quickly to remove the spot of glass surface, additionally it is possible to reduce shaking between cleaning head 410 and glass surface It is dynamic.

As Figure 8-9, above-mentioned buffer gear include buffering connector, the shaft 210 with cleaning shaft 420 it Between by buffer connector connect, and clean shaft 420 along center axis direction be subjected to displacement when, shaft 210 can lead to It crosses buffering connector to continue to export power to cleaning shaft 420, it is preferred that the buffering connector includes being set to shaft Dive key 212 on 210, the keyway 422 being set in cleaning shaft 420.

As Figure 8-9, above-mentioned buffer gear further includes buffer spring 421, is set in 420 inner cavity of cleaning shaft Built-in step is equipped with, one end of buffer spring 421 and the built-in step being set in 420 inner cavity of cleaning shaft contradict, the other end It is contradicted with shaft 210, the elastic force of buffer spring 421 makes cleaning shaft 420 be transported along center axis direction towards cleaning head 410 It is dynamic；When cleaning head 410 is contacted with glass surface, glass surface not only makes cleaning shaft 420 to the reaction force of cleaning head 410 Buffer spring 421 is compressed, there are buffer springs so as to make between cleaning shaft 420 and shaft 210, additionally it is possible to increase cleaning head Sponge protrusion on 410 is conducive to eliminate stain to the frictional force of glass surface.

Cleaning device 400 is cleaned in glass process, and when cleaning head 410 is contacted with glass surface, buffer spring 421 is in Compressive state, when cleaning head 410 is disengaged with glass surface, the elastic force of buffer spring 421 can be such that cleaning shaft 420 does far Movement from shaft 210 in this motion process, if the elastic force of buffer spring 421 is excessive, can cause shaft 210 to turn with cleaning Be detached between axis 420, in order to prevent this occurrence of, shaft 210 with cleaning shaft 420 junction be provided with anticreep From shell 440.

As shown in Figure 10, cylindrical barrel body structure of the above-mentioned anti-detachment shell 440 for both ends open, anti-detachment shell 440 Inner cavity be divided into three parts, the limiting inner cavity 441 that respectively matches with shaft 210, the connection to match with cleaning shaft 420 Inner cavity 443 positioned at limiting inner cavity 441 and is connected between inner cavity 443 and the slip inner cavity 442 that matches with dive key 212, Limit inner cavity 441 diameter be less than slide inner cavity 442 diameter, the shaft 210 be slidably socketed in limiting inner cavity 441 in, The dive key 212 is set in slip inner cavity 442 and the two composition is slidably matched, and the cleaning shaft 420 can Dismounting is socketed in connection inner cavity 443, it is preferred that cleaning shaft 420 is connected through a screw thread with connecting inner cavity 443；Buffering elastic The elastic force of spring 421 makes cleaning shaft 420 do in the motion process far from shaft 210, due to cleaning shaft 420 and anti-detachment shell 440 are connected through a screw thread, and cleaning shaft 420 drives anti-detachment shell 440 to be synchronized with the movement, and the movement of anti-detachment shell 440 is suitable The movement towards limiting inner cavity 441 is done in slip inner cavity 442 in dive key 212, since the diameter of limiting inner cavity 441 is less than The diameter of inner cavity 442 is slided, when dive key 212, which is moved to, to be contacted with limiting inner cavity 441, limits 441 restricted guidance of inner cavity Flat key 212 continues to move, and the movement far from shaft 210 is done so as to limit cleaning shaft 420, be finally reached prevent shaft 210 with The purpose being detached between cleaning shaft 420.

As shown in Figure 1, above-mentioned water pot ontology is fixedly installed in the outside of housing 800, water filling is provided on water pot ontology Pipe, when the water in water pot ontology after use, can water be injected into water pot ontology by water injection pipe；Above-mentioned cleaning tank ontology 610 are movably installed in the outside of housing 800, when cleaning tank ontology 610 in detergent after use, replaceable new cleaning tank Ontology 610, in order to clean the install convenient of tank ontology 610, the present invention is additionally provided with erecting device 700, and erecting device 700 can Quickly and easily installation or removal cleaning tank ontology 610.

As illustrated in figures 11-16, above-mentioned erecting device 700 includes installation shell 710, limit switch, position-limit mechanism 750, Installation shell 710, which is fixedly connected and is installed with housing 800, installs limit switches, position-limit mechanism 750 on housing 710, when clear When clean tank ontology 610 completes connection with conducting hose 620, position-limit mechanism 750 will limit the movement of cleaning tank ontology 610, when right When cleaning tank ontology 610 is replaced, limit switch can make position-limit mechanism 750 cancel the limitation to cleaning tank ontology 610, be convenient for It replaces.

As shown in figure 14, above-mentioned installation shell 700 include outer cover body 711, positioned at 711 side of outer cover body and with it is outer The retainer plate 716 that shell ontology 711 is structure as a whole, retainer plate 716 is for fixed cleaning tank ontology 610, the outer cover body 711 towards the mounting groove 712 being provided on the face of housing 800 for accommodating limit switch, and mounting groove 712 is towards retainer plate 716 Cell wall on be provided with limit sliding chutes 715, position-limit mechanism 750 is installed in limit sliding chutes 715 and position-limit mechanism 750 can be along limit The guide direction movement of position sliding slot 715.

As illustrated in figs. 13-15, above-mentioned limit switch includes shank 720, tripping spring 730, locking sliding block 740, described Shank 720 one end connect for positive stop end and positive stop end with locking sliding block 740, the other end and outer cover body 711 it is hinged, cut with scissors The place of connecing is located at the lower section of mounting groove 712 and is hinged the shaft core line mounting groove parallel, described with the groove depth direction of mounting groove 712 712 slot bottom is provided with the constraint protrusion 713 above locking sliding block 740, and the locking sliding block 740 is raised towards constraint Mobile protrusion 744 is provided on 713 face, one end of tripping spring 730 is connect with mobile protrusion 744, the other end is convex with constraining 713 connections are played, the elastic force of tripping spring 730 makes locking sliding block 740 be moved upwards along the guide direction of mounting groove 712, described Locking sliding block 740 is set in mounting groove 712 and locking sliding block 740 is towards being provided with guiding on the face of 712 slot bottom of mounting groove Sliding slot 742, the cell wall of guide chute 742 and mounting groove 712 match and locking sliding block 740 can by guide chute 742 with The cooperation of 712 cell wall of mounting groove slides up and down.

As shown in figure 15, above-mentioned locking sliding block 740 include locking sliding block ontology 741, positioned at the lower section of retainer plate 716 and The filler ring 743 being structure as a whole with locking sliding block ontology 741, the filler ring 743 are connect with conducting hose 620, when cleaning tank When ontology 600 is located in retainer plate 716 and moves downward, the bottleneck of cleaning tank ontology 600 will be connected with filler ring 743, thus with Conducting hose 620 is connected, and the locking sliding block ontology 741 is described towards being provided with guide and limit slot on the face of housing 800 The positive stop end of shank 720 is located in guide and limit slot, the opening of shank 720 and guide and limit slot cooperation control position-limit mechanism 750 Or it closes.

More specifically, the guide and limit slot includes guiding groove 1, limiting slot 746, guiding groove 2 747, guiding It is mutually connected between slot 1, limiting slot 746, guiding groove 2 747, the guiding groove 1 is used for the limit of shank 720 Position end is guided into limiting slot 746, and the limiting slot 746 is used to limit the movement of shank 720, the guiding groove 2 747 For the positive stop end of shank 720 to be guided out from limiting slot 746；Cleaning tank ontology 600 continues after being connected with conducting hose 620 During moving downward, the distance between filler ring 743 and retainer plate 716 gradually increase, when filler ring 743 and retainer plate 716 it Between distance be maximum value when, the positive stop end of shank 720 is located in limiting slot 746, and the elastic force of tripping spring 730 makes filler ring 743 There is relative upward movement, the at the same time limitation of position-limit mechanism 750 cleaning tank ontology 600 moves upwards, tripping spring 730 are fixed cleaning tank ontology 600 with the cooperation of position-limit mechanism 750, and in 600 disassembly process of cleaning tank ontology, filler ring 743 is with consolidating Surely circle the distance between 716 is gradually reduced, when the distance between filler ring 743 and retainer plate 716 are minimum value, shank 720 Positive stop end is guided out from limiting slot 746, and at the same time position-limit mechanism 750 cancels the limitation to cleaning tank ontology 600, cleans tank sheet Body 600 can be removed.

More optimize, the guiding groove 1 is inclined to be arranged and between guiding groove 1 and filler ring 743 Distance is incremented by from the bottom to top along the guide direction of mounting groove 712, and the guiding groove 2 747 is arranged vertically,

The 746 V-shaped structure of limiting slot, the output terminal of guiding groove 1 are connected with the input terminal of limiting slot 746, limiting The output terminal of slot 746 is connected with the input terminal of guiding groove 2 747, the output terminal of guiding groove 2 747 and the input of guiding groove 1 Termination is logical.

Preferably, the upper V-shaped groove wall minimum point of limiting slot 746 is minimum close to input terminal, the lower V-shaped groove wall of limiting slot 746 Point close to limiting slot 746 output terminal, be advantageous in that, shank 720 from limiting slot 746 into 2 747 motion process of guiding groove, It can prevent shank 720 from backhaul phenomenon occurs（I.e. shank 720 is moved from limiting slot 747 to guiding groove 1）.

It is more perfect, it is provided with limiting between the output terminal of guiding groove 1 and the input terminal of limiting slot 746 The thickness of block 1, one 748 wedge shaped structure of limited block and limited block 1 is along one 745 output terminal of guiding groove to limiting slot The direction of 746 input terminals is incremented by, and from guiding groove 1 into 747 motion process of limiting slot, limited block 1 can make shank 720 Shank 720 smoothly enter limiting slot 747, prevent shank 720 occur backhaul phenomenon, the output terminal of the guiding groove 2 747 with Limited block 2 749,2 749 wedge shaped structure of limited block and limited block 2 749 are provided between the input terminal of guiding groove 1 Thickness be incremented by along the direction of 2 747 output terminal of guiding groove to one 745 input terminal of guiding groove, the thickness on limited block 2 749 is most Big face is concordant with the input terminal of guiding groove 1, shank 720 from guiding groove 2 747 into one 745 motion process of guiding groove, Limited block 2 749 can make shank 720 smoothly enter guiding groove 1, prevent shank 720 from reentering guiding groove 2 747.

As shown in Figure 11-12,16, above-mentioned position-limit mechanism 750 includes gag lever post 751, position limiting slide block 752, gag lever post 751 It is structure as a whole with position limiting slide block 752, position limiting slide block 752 matches and limits with the limit sliding chutes 715 on installation shell 710 Sliding block 752 can be slided along the guide direction of limit sliding chutes 715, one end of gag lever post 751 it is hinged with locking sliding block ontology 741 and Hinged shaft core line is perpendicular to the groove depth direction of mounting groove 712, the other end for pressing end and for being locked to cleaning tank ontology 610 Tightening position；Locking sliding block ontology 741 slides up and down and gag lever post 751 is driven to be moved along the guide direction of limit sliding chutes 715, so as to The pressing end of gag lever post 751 is made to be limited or cancelled limitation to cleaning tank ontology 610.

More specifically, the inclined arrangement of the channeling direction of the limit sliding chutes 715 and limit sliding chutes 715 and installation The distance between 712 slot bottom of slot is from top to bottom incremented by along the guide direction of mounting groove 712, and gag lever post 751 is along limit sliding chutes 715 When channeling direction moves, the pressing end of gag lever post 751 contacts or disengages with cleaning the tank bottom of tank ontology 610, so as to clear Clean tank ontology 610 is limited or is cancelled limitation；Gag lever post 751 presses end and the limitation or revocation of cleaning tank ontology 610 is limited Process is embodied in：Due to the inclined arrangement of the channeling direction of limit sliding chutes 715, gag lever post 751 is led along limit sliding chutes 715 Movement to direction can be divided into vertical and straight movement and horizontal movement, and the vertical and straight movement of gag lever post 751 leans on the pressing end of gag lever post 751 Close or remote from the tank bottom of cleaning tank ontology 610, the horizontal movement of gag lever post 751 makes the pressing end of gag lever post 751 and cleaning tank sheet The tank bottom contact of body 610 disengages, when the pressing end of gag lever post 751 is close and contacts the tank bottom of cleaning tank ontology 610, Cleaning tank ontology 610 is limited, and when the pressing end of gag lever post 751 is separate and is detached from the tank bottom of cleaning tank ontology 610, cleans tank Ontology 610 is revoked limitation.

When glass cleaning equipment works, cleaning water source is injected into water pot ontology by water injection pipe, passes through erecting device 700 Cleaning tank ontology 610 is installed on housing 800, the installation process of erecting device 700 is embodied in：It is logical to clean tank ontology 610 It crosses retainer plate 716 and filler ring 743 to be connected with conducting hose 620, pressing cleaning tank ontology 610 makes it move downward and drive Filler ring 743 and locking sliding block ontology 741 move downward, and during filler ring 743 is moved downward with locking sliding block ontology 741, work as support When the distance between ring 743 and retainer plate 716 incrementally increase and reach maximum value, the positive stop end of shank 720 passes through guiding groove one 745 guiding function enters in limiting slot 746, positive stop end and the cooperation limitation locking sliding block ontology of limiting slot 746 of shank 720 741 move upwards, and tripping spring 730 is in extended configuration, and the elastic force of tripping spring 730 makes locking sliding block ontology 741 do relatively Trend is moved upwards, at the same time, gag lever post 751 is moved downward along the channeling direction of limit sliding chutes 715, due to limit sliding chutes The 715 inclined arrangement of channeling direction, the movement of gag lever post 751 can be divided into vertical and straight movement and horizontal movement, and gag lever post 751 erects Straight movement makes the pressing end of gag lever post 751, and close to cleaning tank ontology 610, the horizontal movement of gag lever post 751 makes the pressure of gag lever post 751 It closes end to contact with the tank bottom of cleaning tank ontology 610 and limit the movement for cleaning tank ontology 610, cleaning tank ontology 610 exists Tripping spring 730 is pressed with gag lever post 751 to be fixed under the cooperation at end；When being replaced to cleaning tank ontology 610, press again Tank ontology 610 is cleaned, during pressing, the positive stop end of shank 720 is detached from limiting slot under the guiding function of guiding groove 2 747 746, the elastic force of tripping spring 730 moves upwards locking sliding block ontology 741, while makes gag lever post 751 along limit sliding chutes 715 Channeling direction moves upwards, and due to the inclined arrangement of the channeling direction of limit sliding chutes 715, is detached from the pressing end of gag lever post 751 The tank bottom of tank ontology 610 is cleaned, 610 unrestricted bars of cleaning tank ontology 751 are limited and can be removed.

The detergent in cleaning water source and cleaning tank ontology 610 in water pot ontology passes through diversion pipe or conducting hose 620 enter in volume control device 300 and are delivered in the receiving tank 430 in cleaning device 400 by volume control device 300, Volume control device 300 can control the flow for flowing into the clean water for accommodating tank 430 or detergent, specific manifestation in transmission process For：Mobile oscillating structural member makes loop bar 314 push axial movement of the impeller 315 along shaft 210, and impeller 315 pushes gear structure Axial movement of the part 317 along shaft 210, so as to which gear a in gear part 317 or gear b be made to be engaged with gear c343, simultaneously Shaft 210 rotates and being engaged by gear part 317 with gear c rotates screw nipple 341, due to screw nipple It is connected through a screw thread between 341 and horizontal flow tube, makes screw nipple 341 can be along center axis direction towards horizontal flow tube Movement, screw nipple 341 contacts during the motion with sealing-plug 345, and makes sealing-plug 345 towards the fluid of horizontal flow tube End motion is squeezed out, in 345 motion process of sealing-plug, sealing-plug 345 makes vertical flow tube and the effective vent at horizontal flow tube connection Size is gradually reduced, and so as to which the inflow for making three-way pipe 344 is gradually reduced, and is finally reached the clean water adjusted in water pot 500 Or the detergent in cleaning tank 600 flows into the purpose of the flow in cleaning device 400, when clean water is mixed with detergent completion Afterwards, sealing-plug 345 will seal at vertical flow tube and horizontal flow tube connection, make clean water or detergent can not be by three-way pipe 344 Into in cleaning device 400, the optimum mixture ratio example of the clean water and detergent in cleaning device 400 is avoided damage to.

It accommodates the mixing liquid in tank 430 and passes sequentially through permeable hole 211, the water flowing inner cavity of shaft 210, cleaning shaft 420 Inner cavity, the clean inner cavity of cleaning head 410, the limbers on cleaning head 410 be sprayed to glass surface, while shaft 210 rotates Cleaning shaft 420 is driven to rotate and cleaning head 410 is driven to rotate, the rotation of cleaning head 410 makes sponge protrusion cleaning glass window.

When accommodating the mixture in tank 430 after use, mobile oscillating structural member simultaneously makes gear part 317 and gear c again Engagement, while shaft 210 is rotated backward, shaft 210, which rotates backward, drives screw nipple 341 to rotate synchronously and connect screw thread The threaded ends of the end of thread of take over 341 from horizontal flow tube exit, while sealing-plug 345 is made in the elastic force of adjustment spring 346 With the lower threaded connection end motion towards horizontal flow tube, in 345 motion process of sealing-plug, sealing-plug 345 makes vertical flow tube and water Effective vent size at advection pipe connection gradually increases, and clean water or detergent is made to pass through 347 weight of three-way pipe 344 and connecting tube It is new to enter in receiving tank 430, until after water is mixed with detergent completion, again rotate backward shaft 210 and screw thread is driven to connect Take over 341 and finally makes sealing-plug 345 connect vertical flow tube and horizontal flow tube towards the liquid extruding end motion of horizontal flow tube Place's sealing, and so on.

（One）Clean water source and detergent preparation stage；

S2：Housing 800 is installed on by tank ontology 610 is cleaned by erecting device 700, is made clearly by retainer plate 716 and filler ring 743 Clean tank ontology 610 is connected with conducting hose 620, and pressing cleaning tank ontology 610 moves downward it and drives filler ring 743 and locking Slider body 741 moves downward, during filler ring 743 is moved downward with locking sliding block ontology 741, when filler ring 743 and retainer plate The distance between 716 when incrementally increasing and reaching maximum value, the guiding function that the positive stop end of shank 720 passes through guiding groove 1 Into in limiting slot 746, positive stop end and the limiting slot 746 of shank 720 coordinate limitation locking sliding block ontology 741 to move upwards, and make Spring 730 of moving is in extended configuration, and the elastic force of tripping spring 730 makes locking sliding block ontology 741 do relative upward movement trend, with This simultaneously, gag lever post 751 is moved downward along the channeling direction of limit sliding chutes 715, since the channeling direction of limit sliding chutes 715 is in inclining Tiltedly arrangement, the movement of gag lever post 751 can be divided into vertical and straight movement and horizontal movement, and the vertical and straight movement of gag lever post 751 makes gag lever post 751 Pressing end close to cleaning tank ontology 610, the horizontal movement of gag lever post 751 makes the pressing end of gag lever post 751 and cleaning tank ontology 610 tank bottom contact simultaneously limits the movement for cleaning tank ontology 610, and cleaning tank ontology 610 is in tripping spring 730 and limiting Bar 751 presses and is fixedly installed in housing 800 under the cooperation at end；

（Two）Clean water source and detergent mix stages；

S3：Cleaning water source in water pot ontology flows into water flow control mechanism 330 and by water flow control mechanism by diversion pipe 330 are delivered in the receiving tank 430 of cleaning device 400, and water flow control mechanism 330 can control inflow to accommodate in transmission process The flow at the cleaning water source of tank 430, after the cleaning water source in receiving tank 430 reaches aequum, water flow control mechanism 330 makes Cleaning water source, which can not flow into, to be accommodated in tank 430；

S4：Detergent in cleaning tank ontology 610 flows into detergent flow control mechanism 320, and by clear by the way that hose 620 is connected Clean agent flux control mechanism 320 is delivered in the receiving tank 430 of cleaning device 400 to be mixed with cleaning water source, clear in transmission process Clean agent flux control mechanism 320 can control the flow for flowing into the detergent for accommodating tank 430, the detergent in receiving tank 430 After reaching aequum, detergent flow control mechanism 320 makes detergent that can not flow into receiving tank 430；

The detergent flow control mechanism 320 in water flow control mechanism 330, step S4 in above-mentioned steps S3 includes stream Control unit 340 is measured, when external motivating force is connect and passed with being set to the flow controlling unit 340 of water flow control mechanism 330 During graduating power, the flow of clean water is adjusted by the flow controlling unit 340 for being set to water flow control mechanism 330； When external motivating force connect simultaneously passing power with being set to the flow controlling unit 340 of detergent flow control mechanism 320, lead to It crosses and is set to the flow controlling unit 340 of detergent flow control mechanism 320 flow of detergent is adjusted；

（Three）Cleaning device cleans the glass stage；

S5：When shaft 210 rotates, the permeable hole 211 for being set to shaft 210 can be to the cleaning water source in holding tank 431 and cleaning The mixing liquid of agent carries out flow-disturbing, and cleaning water source is made to be uniformly mixed with detergent, and liquid after mixing passes sequentially through permeable It is hole 211, the water flowing inner cavity of shaft 210, the cleaning inner cavity of shaft 420, the clean inner cavity of cleaning head 410, logical on cleaning head 410 Water hole is sprayed to glass surface, while the rotation of shaft 210 drives cleaning shaft 420 to rotate and cleaning head 410 is driven to rotate, and cleans First 410 rotation makes sponge protrusion cleaning glass window；

S6：External motivating force connect simultaneously passing power with being set to the flow controlling unit 340 of water flow control mechanism 330, if The flow increase at the control cleaning of flow controlling unit 340 water source of water flow control mechanism 330 is placed in, when cleaning water source reaches institute After requirement, external motivating force makes to be set to the flow at the control cleaning of flow controlling unit 340 water source of water flow control mechanism 330 Reduce until being zero；

S7：External motivating force is connect and transmitted dynamic with being set to the flow controlling unit 340 of detergent flow control mechanism 320 Power, the flow controlling unit 340 for being set to detergent flow control mechanism 320 control the flow increase of detergent, work as detergent After reaching aequum, external motivating force makes to be set to the control cleaning of flow controlling unit 340 of detergent flow control mechanism 320 The flow of agent reduces until being zero；

（Five）Clean the replacement stage of tank ontology；

S8：Pressing cleaning tank ontology 610, during pressing, the positive stop end of shank 720 is under the guiding function of guiding groove 2 747 Limiting slot 746 is detached from, the elastic force of tripping spring 730 moves upwards locking sliding block ontology 741, while makes gag lever post 751 along limit The channeling direction of position sliding slot 715 moves upwards, and due to the inclined arrangement of the channeling direction of limit sliding chutes 715, makes gag lever post 751 The tank bottom that end is detached from cleaning tank ontology 610 is pressed, 610 unrestricted bars of cleaning tank ontology 751 are limited and can be removed；

S9：New cleaning tank ontology 610 is installed on by housing 800 by erecting device 700.

Specific case is applied in the present invention to be expounded the principle of the present invention and embodiment, above example

Illustrate to be merely used to help understand method and its core concept of the invention；Meanwhile for the general technology people of this field Member, thought according to the present invention, in specific embodiments and applications there will be changes.In conclusion this explanation Book content should not be construed as limiting the invention.

Claims

1. the sweep-out method of the flat-objects surface such as glass, floor stain, step are：

（One）Clean water source and detergent preparation stage；

（Two）Clean water source and detergent mix stages；

（Three）Cleaning device cleans the glass stage；

（Five）Clean the replacement stage of tank ontology；

S9：New cleaning tank ontology is installed on by housing by erecting device.

2. the sweep-out method of the flat-objects surface such as glass according to claim 1, floor stain, feature exist In the above-mentioned flow controlling unit for being set to water flow control mechanism, the flow control for being set to detergent flow control mechanism Unit processed can connection control mechanism, control mechanism includes loop bar, impeller, fixed link, gear part, in the fixed link Heart axis direction is parallel with the central axial direction of shaft, and the gear part is socketed on the outside of shaft, the promotion One end of part is socketed on the outside of fixed link, the other end is socketed on the outside of shaft and is flexibly connected with gear part, pushes Part can along the axial movement of fixed link, impeller along fixed link it is axially displaced when, can drive gear component along shaft axial direction Mobile, the loop bar is socketed on the outside of fixed link and is flexibly connected with impeller, and loop bar can be slided along the axial direction of fixed link Dynamic and loop bar can around the center axis thereof of fixed link, loop bar along fixed link axis shift occurs when, can draw impeller with It is synchronized with the movement；The axial movement of loop bar along fixed link makes impeller push in axial sliding process of the gear part along shaft In, gear part connect with detergent flow control mechanism or water flow control mechanism and controls opening or closing for the two.

3. the sweep-out method of the flat-objects surface such as glass according to claim 2, floor stain, feature exist In, connected between the gear part and shaft by linkage part, and gear part along shaft it is axially displaced when, Shaft can continue to export power to gear part by linkage part, and the linkage part is the external splines being set in shaft First, it is set to the internal spline one of gear part；

4. the sweep-out method of the flat-objects surface such as glass according to claim 3, floor stain, feature exist In above-mentioned control mechanism further includes oscillating structural member, and oscillating structural member is used to make axial movement of the loop bar along fixed link, the pendulum Dynamic component includes control rocking bar, intermediate bar, motion bar, control rocking bar can deflection and deflected trajectory be parallel in shaft Mandrel line, the central axial direction for extending perpendicularly to shaft of intermediate bar, controls one end of rocking bar and the driving of intermediate bar End is fixedly connected, and controls the deflection of rocking bar that intermediate bar is driven to synchronize deflection, motion bar is metal elastic part, motion bar One end is fixedly connected with the output terminal of intermediate bar, the other end and loop bar connect, and the deflection of intermediate bar drives loop bar deflection, loop bar Deflection can be divided into along the sliding axially of fixed link, the axial rotation around fixed link.

5. the sweep-out method of the flat-objects surface such as glass according to claim 3, floor stain, feature exist In above-mentioned flow controlling unit includes screw nipple, three-way pipe, sealing-plug, connecting tube, and the three-way pipe is provided with perpendicular DC tube, horizontal flow tube, vertical flow tube are vertically installed in horizontal flow tube centre position and mutually connect and form T-type structure, water One end of advection pipe is threaded ends, the other end is liquid extruding end, described conducting hose or diversion pipe and three-way pipe Vertical flow tube connection is connected, and the sealing-plug, which is set in horizontal flow tube, and the two composition is sealed is slidably matched, and passes through Slip of the sealing-plug in horizontal flow tube, it is described so as to control vertical flow tube and the effective vent size at horizontal flow tube connection Screw nipple be movably installed on fixing bracket and can be rotated around center axis, the central axis of screw nipple Direction is parallel with the central axial direction of shaft, and the connection end of screw nipple and horizontal flow tube is the end of thread, is threadedly coupled The end of thread of pipe is threadedly coupled with the threaded ends of three-way pipe, one end of the connecting tube and the liquid extruding of horizontal flow tube End connection is connected, the other end and cleaning device connection are connected；When screw nipple rotates, since horizontal flow tube is with being threadedly coupled It is connected through a screw thread between pipe, makes screw nipple that can be moved along center axis direction towards horizontal flow tube, be threadedly coupled Pipe contacts, and make liquid extruding end motion of the sealing-plug towards horizontal flow tube with sealing-plug during the motion, sealing-plug movement In the process, sealing-plug makes vertical flow tube be gradually reduced with the effective vent size at horizontal flow tube connection, so as to make three-way pipe Specific discharge is gradually reduced, so as to adjust the clean water in water pot or the flow in the detergent inflow three-way pipe in cleaning tank, And the purpose for adjusting the clean water in water pot or the flow in the detergent inflow cleaning device in cleaning tank is finally reached, when clear After clean water is mixed with detergent completion, sealing-plug will seal at vertical flow tube and horizontal flow tube connection；

6. the sweep-out method of the flat-objects surface such as glass according to claim 5, floor stain, feature exist In above-mentioned flow controlling unit further includes gear c, and gear c is socketed on the outside of screw nipple, when gear part is along shaft Central axial direction movement when, gear a or gear b in gear part are engaged with the gear c in flow controlling unit, shaft It rotates and gear part is driven to rotate, so as to be rotated with moving gear c, and finally rotate screw nipple；