CN205072798U - Pnematic water spray mop - Google Patents

Abstract

The utility model provides a pnematic water spray mop, including mop body (100) and rotor, be equipped with water tank (120) and shower nozzle (130) on the mop body, the bottom is equipped with cleaning cloth (110), pnematic water spray mop is connected with outside vacuum source, last be equipped with air intake (140) of pnematic water spray mop, when outside vacuum source during operation, the air current flows in and forms the wind channel from the air intake in pnematic water spray mop, be equipped with wind -driven water pump mechanism in the wind channel, this wind -driven water pump mechanism including set up in the wind channel water pump pnematic round (300) and by the water pump assembly of its drive, pnematic water spray mop is still including the on -off mechanism who is used for controlling the working water jet capacity. The utility model discloses a setting sets up wind -driven water pump mechanism in the wind channel, come driven water pump by the inhaled air flow, pumps water or cleaning solution and spray, and the person of facilitating the use is deep clean to ground, and the principle is simple, compact structure, safe in utilization and the function is practical, has effectively expanded the application range of dry -type dust catcher.

Description

Pneumatic mop capable of spraying water

Technical field

The utility model relates to a kind of pneumatic mop capable of spraying water, belongs to daily electrical home appliance manufacturing technology field.

Background technology

Existing mop mainly just utilizes rag to mop floor in the market, run into some dry dirts or have the place of stain just need watering in addition that ground drenched or add cleaning agent to clean, for the user, such mode of operation is obviously cumbersome.For the problems referred to above, market have recently emerged a kind of mop capable of spraying water, provide energy to drive water pump or manual pressure hydrojet by battery, complex structure, cost is higher.

Utility model content

Technical problem to be solved in the utility model is for the deficiencies in the prior art, a kind of pneumatic mop capable of spraying water is provided, by arranging wind-driven water pump mechanism in air channel, flowed by the air sucked and drive water pump, water or cleaning solution are pumped and sprays, person easy to use is to the deep layer cleaning on ground, and principle is simple, compact conformation, use safety and practical function, effectively extends the scope of application of dry type dust collector.

Technical problem to be solved in the utility model is achieved by the following technical solution:

A kind of pneumatic mop capable of spraying water, the rotor comprising type of mop body and can rotate relative to described type of mop body, described type of mop body is provided with water tank and shower nozzle, bottom is provided with cleaning cloth, described pneumatic mop capable of spraying water is connected with external vacuum source, described pneumatic mop capable of spraying water is provided with at least one air inlet, when described external vacuum source work, air-flow flows into from air inlet and form air channel in pneumatic mop capable of spraying water, wind-driven water pump mechanism is provided with in described air channel, for the water in water tank being pumped to shower nozzle ejection, described wind-driven water pump mechanism comprises the water pump Pneumatic wheel be arranged in air channel and the water pump component driven by it, described pneumatic mop capable of spraying water also comprises the switching mechanism for controlling injection flow rate.

Specifically, described rotor comprises the rotary shaft rack, hose and the suction pipe that are fixedly connected sequentially, the vertical portion that described rotary shaft rack comprises hollow and the tube extended to both sides, described tube patches and form rotating shaft in type of mop body, described wind-driven water pump mechanism is placed in this vertical portion, and described air inlet is opened in the type of mop body of described tube side.

As required, in the embodiment that the utility model is different, water pump component also uses different structures.Specifically, wherein in an embodiment, described water pump component mainly comprises a membrane pump; Described water pump Pneumatic wheel is fixed in rotary shaft rack by Pneumatic wheel support, rotating shaft is fixed on the center of Pneumatic wheel support by bearing, described water pump Pneumatic wheel is fixed on one end of rotating shaft, and the other end of rotating shaft connects the drive end of membrane pump, is pumped by the water in water tank to shower nozzle and sprays.

In another embodiment of the present utility model, described wind-driven water pump organization establishes is in the side of the inner chamber of type of mop body, and described inner chamber is communicated with rotor by air intake cylinder, and described air inlet correspondence is opened in the type of mop body of this side.

Described water pump component comprises piston mechanism and the pump housing, the rotating shaft of water pump Pneumatic wheel is connected with described piston mechanism by gear reduction, described piston mechanism comprises the water pump eccentric wheel being positioned at gear reduction final stage, and connected water piston bar, described water pump eccentric wheel is embedded in the caulking groove of water piston bar one end; When water pump eccentric wheel rotates, water piston bar moves back and forth in the pump housing, is extracted out by the water in water tank and sprays from shower nozzle.

In order to effectively regulate the size of air-flow in air channel, described switching mechanism is suction control valve, comprise the leakage hole be opened on described suction pipe tube wall, and the push button be slidably arranged on leakage hole, make leakage hole open gradually or block completely by promoting push button, thus regulate the air-flow size in air channel.

Except by regulating the size of air-flow in air channel to control except injection flow rate, can also directly control the break-make in water route.Specifically, described switching mechanism comprises holder, the intracavity bottom of holder is provided with guide pillar, guide pillar is arranged with back-moving spring, described guide pillar is also arranged with interlock body, described back-moving spring is between holder inner chamber and interlock body, and the top of interlock body is fixed with pedal, and described pedal is convexly equipped in outside described type of mop body; The center of described interlock body offers square hole, and square hole inside casing is respectively equipped with jacking block and lower jacking block, control valve is contained in described square hole; Water in described water tank, sprays through shower nozzle from delivery port successively after control valve, pump entrance, exit of pump.

More specifically, described control valve comprises the rotatable spool be embedded in interlock body, and described spool is " Z " font, when the upper and lower motion of interlock body, described spool is subject to being arranged on the active force of upper jacking block in square hole inside casing and lower jacking block respectively and rotates, and controls water route and cuts off or be communicated with.

In order to connect closely convenient disassembly again, described cleaning cloth pastes by fixing the bottom being fixed on described type of mop body.

In order to make the structure of pneumatic mop capable of spraying water compacter, prevent from use causing shower nozzle colliding with and damaging, described shower nozzle is placed in the groove of type of mop body front end simultaneously.

In sum, the utility model arranges wind-driven water pump mechanism by being arranged in air channel, flowed by the air sucked and drive water pump, water or cleaning solution are pumped and sprays, person easy to use is to the deep layer cleaning on ground, principle is simple, compact conformation, use safety and practical function, effectively extends the scope of application of dry type dust collector.

Below in conjunction with the drawings and specific embodiments, the technical solution of the utility model is described in detail.

Accompanying drawing explanation

Fig. 1 is the explosive view of the utility model embodiment one;

Fig. 2 is the overall diagram of the utility model embodiment one;

Fig. 3 is the explosive view of the utility model embodiment two;

Fig. 4 is the overall diagram of the utility model embodiment two;

Fig. 5 is the control valve course of work schematic diagram (1) of the utility model embodiment two;

Fig. 6 is the control valve course of work schematic diagram (2) of the utility model embodiment two;

Fig. 7 is the control valve course of work schematic diagram (3) of the utility model embodiment two;

Fig. 8 is the control valve course of work schematic diagram (4) of the utility model embodiment two;

Fig. 9 is the explosive view of the utility model embodiment four.

Detailed description of the invention

Embodiment one

Fig. 1 and Fig. 2 is respectively explosive view and the overall diagram of the utility model embodiment one.As Fig. 1 and shown in composition graphs 2, the utility model provides a kind of pneumatic mop capable of spraying water, the rotor comprising type of mop body 100 and can rotate relative to described type of mop body, described type of mop body 100 is provided with water tank 120 and shower nozzle 130, and bottom is provided with cleaning cloth 110.In order to connect closely convenient disassembly again, described cleaning cloth 110 is fixed on the bottom of described type of mop body 100 by fixing subsides 111, removes cleaning, conveniently can change rag after fixing subsides 111 cloth convenient for cleaning is finished.Described pneumatic mop capable of spraying water is connected with external vacuum source (not shown), type of mop body is provided with at least one air inlet, when described external vacuum source work, air-flow flows into from air inlet and form air channel in pneumatic mop capable of spraying water, wind-driven water pump mechanism is provided with in described air channel, spray for the water in water tank 120 is pumped to shower nozzle 130, described wind-driven water pump mechanism comprises the water pump Pneumatic wheel 300 be arranged in air channel and the water pump component driven by it; Described pneumatic mop capable of spraying water also comprises the switching mechanism for controlling injection flow rate, for regulating or block the air-flow in air channel, or cuts off or is communicated with water route.

As Fig. 1 and shown in composition graphs 2, specifically, in the present embodiment, described rotor comprises the rotary shaft rack 201, hose 202 and the suction pipe 203 that are fixedly connected sequentially, the vertical portion 210 that described rotary shaft rack 201 comprises hollow and the tube 220 extended to both sides, described tube 220 patches and form rotating shaft in type of mop body 100, can make rotor centered by tube 220, rotate relative to type of mop body 100, make type of mop body 100 more flexible, the operation of more convenient user in operation process.In the present embodiment, described wind-driven water pump mechanism is placed in this vertical portion 210, and shown in composition graphs 2, described air inlet 140 is opened in the type of mop body 100 of described tube side.

As shown in Figure 1, as required, in the embodiment that the utility model is different, water pump component also uses different structures, and specifically, in the present embodiment, described water pump component mainly comprises a membrane pump 305; Described water pump Pneumatic wheel 300 is fixed in rotary shaft rack 201 by Pneumatic wheel support 301, rotating shaft 303 is fixed on the center of Pneumatic wheel support 301 by bearing 302, described water pump Pneumatic wheel 300 is fixed on one end of rotating shaft 303, and the other end of rotating shaft 303 connects the drive end of membrane pump 305.Membrane pump 305 is provided with water inlet 3051 and delivery port 3052, and water inlet 3051 is wherein connected with the outlet valve 1201 of water tank 120, and delivery port 3052 and shower nozzle 130 are connected to form water route, thus is pumped by the water in water tank 120 to shower nozzle 130 and spray.It should be noted that, what select in the present embodiment is membrane pump, belongs to existing standard element, and its internal structure and operation principle do not repeat them here.Select membrane pump that complete machine structure can be made compacter in the present embodiment, in actual applications, also can select the water pump of other types as required.In order to make the structure of pneumatic mop capable of spraying water compacter, prevent from use causing shower nozzle 130 colliding with and damaging, described shower nozzle 130 is placed in the groove 112 of type of mop body 100 front end simultaneously.As required, described shower nozzle 130 spray field is fan shape.For the ease of observing the water level in water tank 120, type of mop body 100 also offers water level window 800.

As Fig. 1 and shown in composition graphs 2, in order to effectively regulate the size of air-flow in air channel, the utility model is also provided with switching mechanism on pneumatic mop capable of spraying water, in the present embodiment, described switching mechanism is suction control valve 400, comprises the leakage hole 401 be opened on described suction pipe 203 tube wall, and is slidably arranged on the push button 402 on leakage hole 401, make leakage hole 401 open gradually or block completely by promoting push button 402, thus regulate the air-flow size in air channel.Push button 402 slidably can be fixed on suction pipe 203 by conventional mode, as shown in Figures 1 and 2, housing is convexly equipped with in the relevant position of suction pipe 203, the both sides edge of push button 402 can be located on housing by the structure of chute and so on, the part of push button 402 except showing in figure, the part of contraction can also being comprised, for releasing, the whole leakage holes in housing being covered in.More specifically, when the push button 402 be arranged on suction pipe 203 moves the leakage hole 401 on suction pipe 203 is opened time, suction bottom suction pipe 203 reduces, and water pump Pneumatic wheel cannot be driven to rotate, and now water pump quits work; When push button 402 move down the leakage hole 401 on suction pipe 203 is closed time, suction bottom suction pipe 203 increases, and drive water pump Pneumatic wheel to rotate, now water pump is started working.Obviously, except making leakage hole open completely by promotion push button or blocking completely, also leakage hole 401 can be partially opened or partial occlusion by regulating the position of push button 402, thus regulate the size of air-flow in air channel, to control the frequency that membrane pump 305 draws water.

Shown in composition graphs 1 and Fig. 2, the specific works process of the present embodiment is such:

Because water pump Pneumatic wheel 300 is arranged on bottom suction pipe 203, axle center and the suction pipe 203 of water pump Pneumatic wheel 300 are arranged on same air channel axially, when external vacuum source is started working, air flowing in the air channel formed by rotary shaft rack 201, hose 202 and suction pipe 203 drives water pump Pneumatic wheel 300 to rotate, thus drives membrane pump 305 pump water from water tank 120 to spray through shower nozzle 130.In the above-mentioned course of work, controlled by the air quantity in suction control valve 400 pairs of air channels.

Embodiment two

Fig. 3 and Fig. 4 is respectively explosive view and the overall diagram of the utility model embodiment two.As Fig. 3 and shown in composition graphs 4, the essential difference between the pneumatic mop capable of spraying water provided in the present embodiment and embodiment one is the setting of described switching mechanism.As shown in the above, in embodiment one, switching mechanism is the suction control valve 400 be arranged on suction pipe 203, is to realize controlling by the air-flow size controlled in air channel.And in the present embodiment, described switching mechanism then by control water route cut-out or be communicated with realize control.Fig. 5 to Fig. 8 is the control valve course of work schematic diagram of the utility model embodiment two.As shown in Figures 3 to 8, switching mechanism in the present embodiment comprises holder 500, the intracavity bottom of holder 500 is provided with guide pillar 501, guide pillar 501 is arranged with back-moving spring 502, described guide pillar 501 is also arranged with interlock body 503, and described back-moving spring 502 is between holder 500 inner chamber and interlock body 503, and the top of interlock body 503 is fixed with pedal 504, described pedal 504 is convexly equipped in outside described type of mop body 100, tramples with person easy to use.The center of described interlock body 503 offers square hole 505, square hole inside casing is respectively equipped with jacking block 5051 and lower jacking block 5052, control valve 600 is contained in described square hole 505, water in described water tank 120 is through control valve 600, water outlet of water tank 1202 is connected with the hose nozzle 1204 of side on Inner part of water valve lid 1203, the hose nozzle 1205 of opposite side is connected with the water inlet 3051 of membrane pump 305, and the delivery port 3052 of membrane pump 305 is connected with shower nozzle 130.

As Fig. 5 to Fig. 8 and shown in composition graphs 1, Fig. 2, described control valve 600 comprises and is rotatablely embedded the spool 601 in interlock body 503, described spool 601 is in " Z " font, when stepping on pedal 504 and making the upper and lower motion of interlock body 503, described spool 601 is subject to being arranged on the active force of upper jacking block 5051 in square hole inside casing and lower jacking block 5052 respectively and rotates, and controls water route and cuts off or be communicated with.Specifically, as shown in Figure 5, spool 601 is in vertical state, and this state is open mode, now keeps the state connected between water tank 120 and shower nozzle.As shown in Figure 6, when user push down on the pedal 504 time, back-moving spring 502 compresses, and interlock body 503 moves to extreme lower position, and the upper jacking block 5051 on square hole inside casing promotes the Z-shaped end in spool 601 upper right corner, makes it turn clockwise centered by fixing point; As shown in Figure 7, unclamp pedal 504, back-moving spring 502 diastole, interlock body 503 moves upward under its elastic-restoring force effect, lower jacking block 5052 on square hole inside casing promotes the Z-shaped end in spool 601 lower left corner, and make it continue to turn clockwise centered by fixing point, spool 601 is in level, this state is closed condition, the state now remained open between water tank 120 and shower nozzle.As shown in Figure 8, continue to push down on the pedal 504, the upper jacking block 5051 on square hole inside casing promotes spool 601 makes it continue to turn clockwise centered by fixing point, gets back to the vertical state shown in Fig. 5, keeps the state coming back to connection between water tank 120 and shower nozzle.By that analogy, user can realize conducting and the cut-out in water route by the mode of above-mentioned continuous pushes pedals 504.

Except the difference of above-mentioned switching mechanism, the other technologies feature in the present embodiment is substantially identical with embodiment one, does not repeat them here.No matter which kind of structure switching mechanism adopts, and from the work angle of user, is all very easily.Switching effect is realized respectively by opening or closing air channel and water route.Therefore, both both can be used alone, and also can use simultaneously, in the product structure of reality is arranged, can select as required.

Shown in composition graphs 3 to Fig. 8, in the present embodiment, the concrete course of work is such:

In the present embodiment, water pump Pneumatic wheel 300 is the bottom being arranged on suction pipe 203 equally, and the axle center of water pump Pneumatic wheel 300 and suction pipe 203 are coaxially arranged.When external vacuum source is started working, air stream in the air channel formed by rotary shaft rack 201, hose 202 and suction pipe 203 drives water pump Pneumatic wheel 300 to rotate, spray through shower nozzle 130 after driving membrane pump 305 to be gone out by the water pump in water tank 120, the switch of water pump is then controlled by valve switch pedal, after pushes pedals 504 makes it move down and resets under elastic force effect at back-moving spring 502, interlock body 503 makes spool 601 rotate 80 °, and two lateral lines now on Inner part of water valve lid 1203 are in off-state; After pushes pedals 504 again makes it move down and resets under elastic force effect at back-moving spring 502, interlock body 503 makes spool 601 rotate 80 ° again, and two lateral lines now on Inner part of water valve lid 1203 are in open mode.Pushes pedals 504 and so forth, can realize the control to water route.

Embodiment three

Embodiment three of the present utility model and the difference of embodiment one, two are the position of air inlet 140 different (the present embodiment does not provide relevant drawings), in the present embodiment, air inlet 140 is arranged on rotary shaft rack 201, and be positioned at the upstream end of water pump Pneumatic wheel 300, in order to make air inlet effect better, air inlet 140 can be arranged on vertical portion 210, that is, air inlet 140 both can be positioned in type of mop body 100, also can be positioned on rotor.

Embodiment four

Fig. 9 is the explosive view of the utility model embodiment four.As shown in Figure 9, with the difference of embodiment one, two, embodiment four of the present utility model is that the setting position of water pump air operated mechanism is different.Wind-driven water pump mechanism in embodiment one, two is arranged in the vertical portion 210 of rotor, in the present embodiment, wind-driven water pump organization establishes is in the side of type of mop body inner chamber, described inner chamber by air intake cylinder 700 and rotor UNICOM, and type of mop body 100 on the one side correspondence offer described air inlet (not shown).

As shown in Figure 9, in the present embodiment, the structure of water pump component also with embodiment one, two different, specifically, described water pump component comprises piston mechanism and the pump housing 310, and the rotating shaft 303 of water pump Pneumatic wheel 300 is connected with described piston mechanism by gear reduction.Described piston mechanism comprises the water pump eccentric wheel 308 being positioned at gear reduction final stage, and connected water piston bar 306, and described water pump eccentric wheel 308 is embedded in the caulking groove 3061 of water piston bar one end.When water pump eccentric wheel 308 rotates, water piston bar 306 moves back and forth in the pump housing 310, is extracted out by the water in water tank 120 and sprays from shower nozzle 130.Above-mentioned gear reduction belongs to the conventional design in mechanical transmission fields, that is: multiple intermeshing travelling gear is included, as shown in Figure 9, comprise the elementary travelling gear be connected with rotating shaft 303, and the intermediate drive gear to engage successively with elementary travelling gear and final drive gear, three realizes slowing down by the change of gear ratio.For the ease of fixing, be also provided with the reducing gear shell 307 of two semi-involution snappings in the outside of this gear reduction, half is fixed on water pump Pneumatic wheel support 301, and second half is also provided with the space for accommodating water piston bar 306.

As shown in Figure 9, in the present embodiment, the concrete course of work is such:

User promotes push button 402, is all closed by the leakage hole 401 be opened on suction pipe 203, and now under the effect of external vacuum source, the air flow rate of a rotating body strengthens; Air-flow enters the inner chamber of type of mop body by air inlet 140, and under the guide effect of water pump Pneumatic wheel support 301, water pump Pneumatic wheel 300 starts to rotate.The rotating shaft 303 of water pump Pneumatic wheel 300 drives the water pump eccentric wheel 308 being arranged on its end to rotate by reducing gear, and water pump eccentric wheel 308 moves in caulking groove 3061, drives water piston bar 306 to move back and forth in the pump housing 310.The pump housing 310 is respectively equipped with water inlet 311 and delivery port 312, and wherein water inlet 311 is connected with water tank 120 by pipeline, and delivery port 312 is connected with shower nozzle 130 by pipeline.Piston rod 306 is moved back and forth and is pumped in the pump housing 310 by inlet port 311 by the water in water tank 120, then sprays from shower nozzle 130 through delivery port 312.

In sum, the utility model provides a kind of pneumatic mop capable of spraying water, arranges wind-driven water pump mechanism by being arranged in air channel, and being flowed by the air sucked drives water pump, water or cleaning solution is pumped and sprays; Wind-driven water pump mechanism can be arranged on the diverse location in air channel according to different needs, Simultaneous Switching mechanism also have employed the mode controlling air-flow size and conducting or cut-out water route in air channel respectively, principle is simple, compact conformation is various, use safety and practical function, effectively extend the scope of application of dry type dust collector, person easy to use is to the deep layer cleaning on ground.

Claims (10)

1. a pneumatic mop capable of spraying water, the rotor comprising type of mop body (100) and can rotate relative to described type of mop body, described type of mop body is provided with water tank (120) and shower nozzle (130), bottom is provided with cleaning cloth (110), it is characterized in that, described pneumatic mop capable of spraying water is connected with external vacuum source, described pneumatic mop capable of spraying water is provided with at least one air inlet (140), when described external vacuum source work, air-flow flows into from air inlet and form air channel in pneumatic mop capable of spraying water, wind-driven water pump mechanism is provided with in described air channel, for the water in water tank being pumped to shower nozzle ejection, described wind-driven water pump mechanism comprises the water pump Pneumatic wheel (300) be arranged in air channel and the water pump component driven by it, described pneumatic mop capable of spraying water also comprises for controlling the switching mechanism of spraying water.

2. pneumatic mop capable of spraying water as claimed in claim 1, it is characterized in that, described rotor comprises the rotary shaft rack (201), hose (202) and the suction pipe (203) that are fixedly connected sequentially, the vertical portion (210) that described rotary shaft rack comprises hollow and the tube (220) extended to both sides, described tube patches and form rotating shaft in type of mop body, described wind-driven water pump mechanism is placed in this vertical portion (210), and described air inlet (140) is opened in the type of mop body of described tube side.

3. pneumatic mop capable of spraying water as claimed in claim 2, is characterized in that, described water pump component mainly comprises a membrane pump (305); Described water pump Pneumatic wheel (300) is fixed in rotary shaft rack (201) by Pneumatic wheel support (301), rotating shaft (303) is fixed on the center of Pneumatic wheel support by bearing (302), described water pump Pneumatic wheel is fixed on one end of rotating shaft, the other end of rotating shaft connects the drive end of membrane pump, is pumped by the water in water tank (120) to shower nozzle (130) and sprays.

4. pneumatic mop capable of spraying water as claimed in claim 1, it is characterized in that, described wind-driven water pump organization establishes is in the side of the inner chamber of type of mop body (100), described inner chamber is communicated with rotor by air intake cylinder (700), and described air inlet (140) correspondence is opened in the type of mop body of this side.

5. pneumatic mop capable of spraying water as claimed in claim 4, it is characterized in that, described water pump component comprises piston mechanism and the pump housing (310), the rotating shaft (303) of water pump Pneumatic wheel (300) is connected with described piston mechanism by gear reduction, described piston mechanism comprises the water pump eccentric wheel (308) being positioned at gear reduction final stage, and connected water piston bar (306), described water pump eccentric wheel is embedded in the caulking groove (3061) of water piston bar one end; When water pump eccentric wheel rotates, water piston bar moves back and forth in the pump housing, is extracted out by the water in water tank (120) and sprays from shower nozzle (130).

6. pneumatic mop capable of spraying water as claimed in claim 2 or claim 3, it is characterized in that, described switching mechanism is suction control valve (400), comprise the leakage hole (401) be opened on described suction pipe (203) tube wall, and the push button (402) be slidably arranged on leakage hole, make leakage hole open gradually or block completely by promoting push button, thus regulate the air-flow size in air channel.

7. the pneumatic mop capable of spraying water as described in any one of claim 2-5, it is characterized in that, described switching mechanism comprises holder (500), the intracavity bottom of holder is provided with guide pillar (501), guide pillar is arranged with back-moving spring (502), described guide pillar is also arranged with interlock body (503), described back-moving spring is between holder inner chamber and interlock body, the top of interlock body is fixed with pedal (504), and described pedal (504) is convexly equipped in outside described type of mop body (100);

The center of described interlock body (503) offers square hole (505), and square hole inside casing is respectively equipped with jacking block (5051) and lower jacking block (5052), control valve (600) is contained in described square hole;

Water in described water tank (120), sprays through shower nozzle (130) from delivery port successively after control valve (600), pump entrance, exit of pump.

8. pneumatic mop capable of spraying water as claimed in claim 7, it is characterized in that, described control valve (600) comprises and is rotatablely embedded the spool (601) in interlock body (503), described spool is in " Z " font, when the upper and lower motion of interlock body, described spool is subject to being arranged on the active force of upper jacking block (5051) in square hole (505) inside casing and lower jacking block (5052) respectively and rotates, and controls water route and cuts off or be communicated with.

9. pneumatic mop capable of spraying water as claimed in claim 1, is characterized in that, described cleaning cloth (110) pastes by fixing the bottom that (111) are fixed on described type of mop body (100).

10. pneumatic mop capable of spraying water as claimed in claim 1, is characterized in that, described shower nozzle (130) is placed in the groove (112) of type of mop body (100) front end.