CN104058477A - Engine driving operation machine - Google Patents

Abstract

The invention discloses an engine driving operation machine capable of fully guaranteeing the generation amount of pure water. The engine driving operation machine (10) comprises a water generation device (20) enabling a part of raw water (27) to generate pure water (28). The water generation device (20) comprises a separator (35) arranged in a sealing space (39) formed by an evaporator (31) and a condenser (33), an opening portion (36) arranged in the center of the separator (35), and an shielding plate (37) covering the opening portion (36). The separator (35) inclines to guide the pure water (28) generated by the condenser (33) to a water-taking opening (81). The opening portion (36) opens in a way that guiding vapor evaporated by the evaporator (31) to the condenser (33). The shielding plate (37) is formed to prevent the pure water (28) generated by the condenser (33) from dropping to the evaporator (31) and lead the generated pure water (28) to the separator (35).

Description

Motor driven operator

Technical field

The present invention relates to possess the motor driven operator of following function: in the driving process of water pump, a part that makes to be taken into the former water in water pump is shunted from water pump, utilize the waste heat of engine to make the former water evaporation distributing, and make the vapour condensation evaporating and generate water purification.

Background technology

As motor driven operator, for example disclosed in TOHKEMY 2012-24699 communique, known following such Engine Driven Pump: the water (former water) in river etc. is taken in water pump, make the part shunting of the former water being taken into, utilize the waste heat of engine to make the former water evaporation distributing, and utilize the former water distributing to make the vapour condensation evaporating and generate water purification.

According to disclosed Engine Driven Pump in TOHKEMY 2012-24699 communique, in the driving process of water pump, a part that is taken into the former water in water pump is guided to former moisture flow pipe, and the former water of guiding is guided to waste pipe through former moisture flow pipe.Utilize the waste heat (, the waste heat of engine) of vapor pipe to make the former water evaporation of guiding, make the steam evaporating along rising to former moisture flow pipe communicating pipe.Utilize the former water in former moisture flow pipe to make the vapour condensation rising, can generate thus water purification.The water purification generating for example can be used as tap water.

, the motor driven operator in TOHKEMY 2012-24699 communique makes the steam evaporating by the waste heat of vapor pipe along rising to former moisture flow pipe communicating pipe.Therefore, in the time making steam increase along communicating pipe, a part for steam can be in the wall portion condensation of communicating pipe, thereby is difficult to fully guarantee the growing amount of water purification.

And above-mentioned motor driven operator utilizes the former water in former moisture flow pipe to make the vapour condensation evaporating by the waste heat of engine., former moisture flow pipe is the stream for guiding the former water that will evaporate by the waste heat of engine.Therefore, the vaporization function that the amount of the former water flowing in former moisture flow pipe possesses according to the waste heat of engine decides, thereby is difficult to increase the flow of former water.Therefore, be difficult to guarantee the condensation number of the steam evaporating by the waste heat of engine, thereby be difficult to fully guarantee the growing amount of water purification (distilled water).Therefore, expect to allow to the technical application of the growing amount of fully guaranteeing water purification.

Summary of the invention

Problem of the present invention is to provide one can fully guarantee the motor driven operator of the growing amount of water purification (distilled water).

According to an aspect of the present invention, provide a kind of motor driven operator, described motor driven operator possesses: water pump, and described water pump, by engine driven, is taken into mouth from Yuan Shui thus and is taken into former water, and the former water being taken into is discharged from former water relief outlet, and water generating device, in the driving process of this water pump, described water generating device makes a part that is taken into the former water that is taken into of mouth from described former water be diverted to the outside of described water pump, the former water distributing is guided to vaporizer and utilize the waste heat of described engine to make the former water evaporation distributing, and utilize agglomerator to make the vapour condensation going out by described evaporator evaporation generate water purification, wherein, in described water generating device, on the top of described vaporizer, be provided with opposed to each other described agglomerator with this vaporizer, thus, form enclosed space by described vaporizer and described agglomerator, described water generating device comprises: separator, described separator is arranged in this enclosed space, described vaporizer and described agglomerator are separated between the upper and lower, and be inclined to and the water purification generating by described agglomerator can be guided towards the conveying end of this water purification, peristome, described peristome is arranged at the central authorities of this separator, thus described vaporizer and described agglomerator is communicated with, and the steam going out can be guided to described agglomerator by described evaporator evaporation, and masking shield, described masking shield is arranged on the inside of described agglomerator to cover the mode of top of this peristome, can prevent that the water purification generating by described agglomerator from dripping to described vaporizer, and the described water purification generating by described agglomerator can be guided to described separator.

In the present invention, utilize separator that vaporizer and agglomerator are separated between the upper and lower, and be provided with peristome in the central authorities of separator.By peristome being set at separator, can not need thus the stream to agglomerator guiding by steam.Therefore,, in the time that steam is guided to agglomerator, there is not steam condensation and worry of Returning evaporimeter in the wall portion of stream., in the time that peristome rises to agglomerator, can prevent steam in peristome condensation and Returning evaporimeter at the steam that makes to go out by evaporator evaporation.

And, by the central authorities at separator, peristome is set, can make thus peristome away from agglomerator, thereby can utilize steam that near of peristome is remained to higher temperature.Therefore, in the time that peristome rises to agglomerator, can prevent more well steam in peristome condensation and Returning evaporimeter at the steam that makes to go out by evaporator evaporation.

Like this, due to the steam Returning evaporimeter that can prevent through peristome, therefore can make the steam evaporating by the waste heat of engine not generate lavishly water purification (distilled water).Thus, the formation efficiency of water purification can be improved, thereby the growing amount of water purification can be fully guaranteed.

And, by masking shield being covered to the top of peristome, can prevent that thus the water purification generating by agglomerator from dripping to vaporizer, and all water purification that generate by agglomerator can be guided to separator.Thus, all water purification that generate efficiently can not taken out from conveying end lavishly.

At this, the state that relatively state of water generating device horizontal arrangement and water generating device tilt, the water surface of the former water of accumulating in vaporizer remains roughly the same height in centre.Therefore, by the central authorities at separator, peristome is set, thus, can the height dimension from the water surface to peristome be remained to the size roughly the same with the state of water generating device horizontal arrangement in the situation that water generating device tilts.By keeping height dimension from the water surface to peristome, can prevent that thus the former water of accumulating from sneaking into agglomerator side (water purification, generating in agglomerator) through peristome in vaporizer.Thus, can prevent that the water purification generating by water generating device is because of former water muddiness, thereby can maintain well the water quality of water purification.

Preferably, described agglomerator possesses condensation member, and described condensation member is arranged on the top of described masking shield, makes the vapour condensation going out by described evaporator evaporation generate water purification.Therefore, can utilize masking shield by spaced apart to the lower side space of masking shield and condensation member.By by spaced apart to lower side space and condensation member, can prevent thus the lower side space condensation at masking shield of the steam that guided by peristome.By preventing vapour condensation, the steam coming can not guided to lavishly thus to the top (, condensation member) of masking shield from peristome guiding.Like this, owing to the steam coming from peristome guiding can not being guided to condensation member lavishly, therefore can make the steam evaporating by the waste heat of engine generate lavishly more well and not water purification (distilled water).

Preferably, outstanding above the mediad of the above masking shield of left and right directions, described masking shield is formed as mountain type thus, and the periphery of described masking shield configures than peristome in the outer part.Therefore, can prevent that the water purification generating by agglomerator from dripping to vaporizer, and the water purification generating by agglomerator can be guided to separator.

According to another aspect of the present invention, provide a kind of motor driven operator, described motor driven operator possesses: water pump, and described water pump, by engine driven, is taken into mouth from Yuan Shui thus and is taken into former water, and the former water being taken into is discharged from former water relief outlet, and water generating device, in the driving process of this water pump, described water generating device makes a part that is taken into the former water that is taken into of mouth from described former water be diverted to the outside of described water pump, the former water distributing is guided to vaporizer and utilize the waste heat of described engine to make the former water evaporation distributing, and utilize agglomerator to make the vapour condensation going out by described evaporator evaporation generate water purification, wherein, described water generating device comprises: take out stream, described taking-up stream is communicated with described water pump, can take out as water coolant be taken into a mouthful part for the former water being taken into from described former water, condensation member, described condensation member is communicated with this taking-up stream, and be arranged on the cover of the housing that forms described agglomerator, thus the former water importing from described taking-up stream guided to the internal space of described cover, can make thus the vapour condensation evaporating by the waste heat of described engine, with return to stream, the described stream that returns is communicated with the outlet of this condensation member, make the former water that is directed to this outlet be back to the former water of discharging from described former water relief outlet, described condensation member forms space by gabarit and interior exterior feature between described gabarit and described interior exterior feature, and be configured to and can described in guiding to from the former water of described taking-up stream importing, return to stream, described gabarit forms the outside of described cover, and described interior exterior feature is arranged at the inner side of this gabarit and forms the inside of described cover.

In the present invention, can utilize condensation member a part for former water to be guided to the internal space of cover, and utilize the former water of guiding to make steam (steam evaporating by the waste heat of engine) condensation.Therefore, the stream of the former water that can will evaporate by waste heat with respect to guiding, the condensation member of condensing steam is set to another system.Thus, be limited in the amount of the former water flowing in condensation member without the vaporization function possessing according to the waste heat of engine, can be so that the mode of the steam evaporating by waste heat condensation well determines the former water yield.Like this, by so that the mode of steam condensation well determines the former water yield (the former water yield flowing in condensation member), can improve thus the formation efficiency of water purification (distilled water), thereby can guarantee fully the growing amount of water purification.

In addition, utilize condensation member former water to be guided to the internal space of cover, can utilize thus former water to carry out cooling to cover.Thus, can prevent that cover is by steam-heated cal(l)andria, thereby can further improve the ease for use of motor driven operator.

And, utilize gabarit and interior exterior feature to make the hood-shaped bilayer that becomes, can improve thus the rigidity/strength of cover.Thus, can be formed as steam and be difficult to the structure of leaking from cover, thereby can further improve the reliability of motor driven operator.

Preferably, the former water that described condensation member is formed as importing described space guides sinuously.Therefore, can in the vast scope of cover, guide equably former water.Thus, can utilize the former water flowing in condensation member to make steam (steam evaporating by the waste heat of engine) condensation more efficiently.

And, by guide equably former water in the vast scope of cover, can prevent more well that cover is by steam-heated cal(l)andria.

Preferably, the described outlet of described condensation member is arranged at central authorities, an entrance of described condensation member is arranged at an end, another entrance of described condensation member is arranged at another end, described taking-up stream possesses: the 1st takes out stream, it is communicated with described water pump, guides to a described entrance using be taken into a mouthful part for the former water being taken into from described former water as water coolant; With the 2nd taking-up stream, it is communicated with described water pump, guides to described another entrance using be taken into a mouthful part for the former water being taken into from described former water as water coolant.

Like this, in the present invention, the outlet of condensation member is arranged to central authorities, an entrance is arranged to an end, another entrance is arranged to another end.And, utilize the 1st taking-up stream and the 2nd to take out stream and guide to an entrance and another stream of condensation member using former water as water coolant, and make the former water of guiding return to water pump from outlet.Thus, can make the former water that imports condensation member flow swimmingly in condensation member, thereby can utilize the former water flowing in condensation member to make steam (steam evaporating by the waste heat of engine) condensation more efficiently.

Preferably, described gabarit (58) and described interior exterior feature (59) are formed by a sheet material respectively.Therefore, can guarantee the stopping property of the condensation member being become with interior profile by gabarit, thereby can prevent reliably that former water from leaking from condensation member.And, utilize respectively a sheet material to form gabarit and interior exterior feature, can guarantee well thus the stopping property of agglomerator.

Brief description of the drawings

Below, based on accompanying drawing, the preferred embodiments of the present invention are at length described, in figure,

Fig. 1 illustrates the stereographic map of observing the state of motor driven operator of the present invention from water pump side.

Fig. 2 illustrates the stereographic map of observing the state of the motor driven operator shown in Fig. 1 from water generating device side.

Fig. 3 is the stereographic map that the water pump shown in Fig. 1 and water generating device are shown,

Fig. 4 is the stereographic map that former current road and the current road of the water generating device shown in Fig. 3 are summarily shown.

Fig. 5 is the stereographic map of the water generating device shown in Fig. 2.

Fig. 6 is the exploded perspective view of the water generating device shown in Fig. 5.

Fig. 7 is the sectional view of the 7-7 line based in Fig. 5.

Fig. 8 is the sectional view of the 8-8 line based in Fig. 5.

Fig. 9 is the sectional view that the condensation member of Fig. 5 is shown.

Figure 10 is the figure observing along the arrow 10 in Fig. 3.

Figure 11 A and Figure 11 B illustrate the figure that a part for former water is supplied to the example of vaporizer.

Figure 12 A and Figure 12 B illustrate the figure that the former water of cooling use is imported to the example of condensation member.

Figure 13 A and Figure 13 B illustrate the figure that makes the former water of cooling use be back to the example of the former water of discharging use through returning to stream.

Figure 14 A and Figure 14 B illustrate the figure that utilizes separator to reclaim the example of the water purification being generated by condensation member.

Figure 15 A and Figure 15 B illustrate the figure that the water purification that utilizes separator to reclaim is stored to the example of the 2nd water tank.

Figure 16 A and Figure 16 B illustrate that the former water that prevents from being accumulated in vaporizer sneaks into the figure of the example in water purification.

Embodiment

As shown in Figure 1 and Figure 2, motor driven operator 10 is the engine driven water pumps that possess following part: framework 11, and it forms the housing of motor driven operator 10; Engine 12, it is arranged at the front portion of framework 11; Water pump 16, it is arranged at engine 12 integratedly; And water generating device 20, it is arranged to water pump 16 adjacent with engine 12.

Framework 11 has: the pedestal 23 of supporting engine 12, water pump 16 and water generating device 20; The front baffle 24 bending upward from the front portion of pedestal 23; With the rear frame 25 bending upward from the rear portion of pedestal 23.

By the handle part 24a of front baffle 24 dominated by hand and the handle part 25a of rear frame 25 and on carry motor driven operator 10, thus can conveyance (carrying) motor driven operator 10.

Engine 12 is supported on the front right-hand part 23a of pedestal 23, and the drive shaft of the left part of bent axle and water pump 16 links on same axis.And the right part of bent axle and kick-starter 14 link.

As shown in Figure 3, water pump 16 possesses: be arranged on the housing 17 in the cylinder body 13 of engine 12; Be arranged on the impeller on drive shaft in the inside of housing 17; Be taken into mouth 18 and former water relief outlet 19 with the former water being arranged on housing 17.Be taken on mouth 18 and be communicated with and be taken into flexible pipe (not shown) at Yuan Shui.Housing 17 is supported on the front left side 23b(of pedestal 23 with reference to Fig. 1).

By driving the engine 12 shown in Fig. 4 to utilize bent axle that the drive shaft of water pump 16 is rotated, vane rotary thus.By vane rotary, thus the water in river etc. (following, to be called former water) is taken into mouthfuls 18 from Yuan Shui and as arrow A, is taken into the inside of housing 17, and the former water being taken into is discharged as arrow B from former water relief outlet 19.Below, the former water of discharging from former water relief outlet 19 is called to " discharging former water ".

As shown in Figure 3, Figure 4, water generating device 20 comprises: for making the vaporizer 31 of former water evaporation; For supplying with the former water supply member 32 of the former water that will evaporate by vaporizer 31; For making the agglomerator 33 of the vapour condensation evaporating by vaporizer 31; With former water guiding elements 34, its by former water supply to agglomerator 33 and make supply with former water return to water pump 16.

And as shown in Figure 4, Figure 5, water generating device 20 comprises: separator 35, the water purification (distilled water) that it generates by agglomerator 33 for collecting (concentrating); Peristome 36, it is arranged at separator 35, for steam being guided to agglomerator 33; Masking shield 37(is with reference to Fig. 6), it is arranged on the top of peristome 36; With water storage member 38, it is for accumulating the water purification of collecting (concentrating) by separator 35.This water generating device 20 possesses such function: utilize agglomerator 33 to make the vapour condensation evaporating by vaporizer 31 generate water purification.

As shown in Figure 6, Figure 7, vaporizer 31 possesses: be supported on the latter half of 23c(of pedestal 23 with reference to Fig. 2) on container for evaporation 41; With the heating part 42 being arranged in container for evaporation 41.

Container for evaporation 41 is arranged to and engine 12 and water pump 16(Fig. 2) adjacent, and be formed as accumulating former water.About this container for evaporation 41, its upper end 41a opening, flange 43 stretches out laterally from upper end 41a.Inside 44 at container for evaporation 41 is provided with heating part 42.

Heating part 42 is and engine 12(Fig. 2) the vapor pipe that is communicated with of exhaust manifold.Flow in heating part 42 by the waste gas that makes engine 12, utilize the heat (waste heat of engine 12) of waste gas to heat heating part 42.By heating part 42 is heated, the former water 27 that can utilize thus heating part 42 to make to accumulate in container for evaporation 41 evaporates., vaporizer 31 possesses and utilizes the waste heat of engine 12 to make to accumulate the function that the former water 27 in container for evaporation 41 evaporates.

Return to Fig. 3, Fig. 4, former water supply member 32 possesses: supply with shunting stream 46, it makes former water shunt and former water is guided to container for evaporation 41 from water pump 16; Magnetic valve 47, it is arranged on supplies with shunting stream 46 midway; With former level detection sensor 48(with reference to Fig. 5), it is arranged at container for evaporation 41.Former level detection sensor 48 is to detect the former water 27(water surface 27a(that accumulates in the inside 44 of container for evaporation 41 with reference to Fig. 7)) top water-level and the sensor of lowest water level.Magnetic valve 47 is such valves: in the time that the water level of former water 27 arrives top water-level, close and supply with shunting stream 46, in the time that the water level of former water 27 arrives lowest water level, open and supply with shunting stream 46.

Supplying with shunting stream 46 has: by the upper left quarter of water pump 16(housing 17) the connection stream 51 that is communicated with magnetic valve 47; Extend to the horizontal stream 52 of the top of container for evaporation 41 from the outlet 47a of magnetic valve 47; The vertical stream 53(bending downward with the outlet side end 52a from horizontal stream 52 is also with reference to Fig. 6).

As shown in Fig. 6, Fig. 8, horizontal stream 52 is bent into roughly U-shaped in the time overlooking observation, and engages with the lower surface 37b of masking shield 37, and horizontal arrangement is above peristome 36 thus.Under this state, horizontal stream 52 is configured in the position in the outer part than the periphery 36a of peristome 36, and configures along periphery 36a.

Vertical stream 53 bends downwards from the outlet side end 52a of horizontal stream 52, and runs through separator 35 and extend to the inside 44 of container for evaporation 41.The outlet 53a of vertical stream 53 is configured in the top of heating part 42.

As shown in Figure 4, according to supplying with shunting stream 46, in the driving process of water pump 16, can make a part of 27(that is taken into mouthful 18 former water that are taken into from Yuan Shui with reference to Fig. 8) as arrow C, be diverted to outside (, supplying with shunting stream 46).And, can shunt stream 46 by supply and will be diverted to the outlet 53a that supplies with the former water 27 of shunting in stream 46 and guide to vertical stream 53 as arrow C, the former water guiding can be supplied to as arrow C to the inside 44 of container for evaporation 41.

At this, by the vaporizer 31(shown in Fig. 8 specifically, heating part 42) steam that evaporates is directed to horizontal stream 52 through peristome 36, and top in the downside of horizontal stream 52 is directed to agglomerator 33.Therefore, can utilize the steam being evaporated by heating part 42 to heat and be imported into the former water in horizontal stream 52.Thus, can will be supplied to the inside 44 of container for evaporation 41 by the former water 27 after steam-heated cal(l)andria, be supplied to inner 44 former water 27 thereby can utilize heating part 42 to heat efficiently.

As shown in Figure 8, Figure 9, agglomerator 33 possesses: be arranged on the aggegation cover (cover) 55 on the upper end 41a of container for evaporation 41; With the condensation member 56 that utilizes aggegation cover 55 to form.

Aggegation cover 55 is to be the structure that roughly forms the housing of agglomerator 33 semiellipse shape, and its bottom 55a opening.Therefore, about the internal surface 55b of aggegation cover 55, position, the top 55c that is positioned at masking shield 37 tops is formed as mild circular-arc, is positioned at the left-hand portion 55d on masking shield 37 left sides and right side and position, right side 55e and is formed as steep circular-arc.

This aggegation cover 55 possesses: the outside gabarit 58 that forms aggegation cover 55; Be arranged on the inner side of gabarit 58 and form aggegation cover 55 inside (inside of agglomerator 33) 63 interior wide 59; Be arranged on the multiple spacer bars 61 between gabarit 58 and interior wide 59; The flange 62 stretching out laterally with the bottom (, the bottom 55a of aggegation cover 55) from gabarit 58.By between gabarit 58 and interior wide 59, multiple spacer bars 61 being set, guarantee thus the intensity/rigidity of aggegation cover 55.

The flange 62 of aggegation cover 55 overlaps with the flange 43 of container for evaporation 41, and pair of flanges 43,62 is fastening by multiple bolts 65, and container for evaporation 41 and aggegation cover 55 are assembled into one thus.Therefore, agglomerator 33(aggegation cover 55) be arranged at upper end (top of the vaporizer 31) 41a at container for evaporation 41.Under this state, aggegation cover 55(bottom 55a) opening be configured to the upper end 41a with container for evaporation 41() opening opposed.

And, between pair of flanges 43,62, clamp sealing member 66.Therefore, the inside 44 of container for evaporation 41 and the inside 63 of aggegation cover 55 are formed as enclosed space 39 by sealing member 66., formed enclosed space 39 in the inside of container for evaporation 41 and aggegation cover 55.

Enclosed space 39 is communicated with the vacuum pump shown in Fig. 2 (drawdown pump) 26.Vacuum pump 26 links through the bent axle of a pair of gear and engine 12.The rotation of bent axle to vacuum pump 26, can make enclosed space 39 be decompressed to lower than normal atmosphere through gear transmission thus.By enclosed space 39 is reduced pressure, can reduce the boiling point of enclosed space 39, thereby can make to be efficiently accumulated in former water 27(in container for evaporation 41 with reference to Fig. 8) boiling (evaporation).

As shown in Fig. 7, Fig. 9, condensation member 56 be the gabarit 58 of utilizing aggegation cover 55, interior wide 59 and multiple spacer bar 61 form, and be configured in the top of masking shield 37., condensation member 56 is bending and is formed with internal space 68 between gabarit 58 and interior wide 59, and in the time overlooking observation, internal space 68 is partitioned into Qu Luzhuan (labyrinth-like) by multiple spacer bars 61.By internal space 68 is partitioned into labyrinth-like, in condensation member 56, form thus the condensation stream 71 of Qu Luzhuan.

Specifically, condensation member 56 has: the condensation stream 71 that utilizes the Qu Luzhuan that the internal space 68 of condensation member 56 forms; The left introducing port (entrance) 72 arranging at the front left side (end) of condensation stream 71 71a; The right introducing port (another entrance) 73 arranging at the front right side (another end) of condensation stream 71 71b; Front export mouth (outlet) 74 with front centre end (central authorities) the 71c setting at condensation stream 71.

In other words, be provided with left introducing port 72 in the front left side of gabarit 58, be provided with right introducing port 73 in the front right side of gabarit 58, export mouth 74 before the front centre end of gabarit 58 is provided with.The former water of cooling use is imported the left side 71d of condensation stream 71 from left introducing port 72, and the former water of cooling use is imported the right-hand part 71e of condensation stream 71 from right introducing port 73.Export mouth 74 before the former water that imports the left side 71d of condensation stream 71 wriggles on one side and is directed on one side in the 71d of left side.In addition, export mouth 74 before the former water that imports the right-hand part 71e of condensation stream 71 wriggles on one side and is directed on one side in right-hand part 71e.

At this, gabarit 58 and interior wide 59 is formed by a sheet material respectively.Thus, can guarantee the stopping property by gabarit 58 and the interior wide 59 condensation members 56 that form, thereby the former water that can prevent from reliably importing condensation member 56 leaks to the outside of condensation member 56.

And, utilize respectively sheet material to form gabarit 58 and interior wide 59, can guarantee well thus the stopping property of agglomerator 33.

As shown in Figure 3, Figure 4, former water guiding elements 34 possesses: take out stream 76, it is communicated with water pump 16 and left introducing port 72, and water pump 16 and right introducing port 73 are communicated with; With return to stream 79, it is communicated with front export mouth 74 and water pump 16.Taking out stream 76 possesses: left taking-up stream (the 1st takes out stream) 77, and it is communicated with water pump 16 and left introducing port 72; With right taking-up stream (the 2nd takes out stream) 78, it is communicated with water pump 16 and right introducing port 73.

Left taking-up stream 77 is by water pump 16(housing 17) the stream that is communicated with left introducing port 72 of upper left quarter.According to left taking-up stream 77, as arrow D, be taken out to left taking-up stream 77 as water coolant using be taken into mouthful 18 parts that are taken into the former water of the inside of housing 17 from Yuan Shui.The former water taking out is directed to the left introducing port 72 of front left side 71a(of condensation stream 71 as arrow D).

As shown in Fig. 4, Figure 10, right taking-up stream 78 is by water pump 16(housing 17) the stream that is communicated with right introducing port 73 of upper right quarter.According to right taking-up stream 78, identical with left taking-up stream 77, as arrow D, be taken out to right taking-up stream 78 as water coolant using be taken into mouthful 18 parts that are taken into the former water of the inside of housing 17 from Yuan Shui.The former water taking out is directed to the right introducing port 73 of front right side 71b(of condensation stream 71 as arrow D).

Be directed to former water export mouth 74 before sinuous one side as arrow E, the left side of condensation stream 71 71d one side is directed to of the left introducing port 72 of condensation stream 71.Equally, be directed to former water export mouth 74 before sinuous one side as arrow E, right-hand part 71e one side of condensation stream 71 is directed to of the right introducing port 73 of condensation stream 71.Returning to stream 79 is communicated with front export mouth 74.

Returning to stream 79 is streams that front export mouth 74 is communicated with the former water relief outlet 19 of water pump 16.According to returning to stream 79, the former water that guides to front export mouth 74 can be guided to as arrow F to the downstream side of former water relief outlet 19.The former water that guides to downstream side returns to (converging) to the former water of discharge of discharging from former water relief outlet 19, and as arrow B, is expelled to outside together with discharging former water.

At this, condensation stream 71 is formed by the aggegation cover 55 of the housing that forms agglomerator 33.Therefore the former water, importing the left side 71d of condensation stream 71 from left taking-up stream 77 is guided in the inside of aggegation cover 55.In addition, the former water importing the right-hand part 71e of condensation stream 71 from right taking-up stream 78 is guided in the inside of aggegation cover 55.

In addition, as shown in Figure 7, utilize vaporizer 31(heating part 42) make former water 27 evaporate the steam forming to be imported into as arrow through peristome 36 inside 63 of aggegation cover 55.The steam of the inside 63 of aggegation cover 55 is directed to the internal surface 55b of aggegation cover 55 as arrow.Therefore the steam of internal surface 55b that, is directed to aggegation cover 55 is by being directed to the former water of cooling use of condensation stream 71 and condensation.

As shown in Figure 4, on the basis of the former water supply member 32 of using in former water supply, the former water guiding elements 34 of cooling use is set to another system.Guide to the internal space 68 of aggegation cover 55 by this former water guiding elements 34 using a part for former water as water coolant, utilize the former water of guiding to make steam (steam evaporating by heating part 42) condensation.

Therefore, without be limited in former water guiding elements 34(condensation stream 71 corresponding to the vaporization function of heating part 42) in the former water yield that flows, the former water yield can arbitrary decision flowing in condensation stream 71.Thus, can guarantee to make the former water yield of the steam condensation well evaporating by heating part 42.And, determine in the mode of the steam condensation well that can make to evaporate by heating part 42 can improve the former water yield that flows thus the formation efficiency of water purification (distilled water), thereby can fully guarantee the growing amount of water purification in condensation stream 71.

And, by making condensation stream 71 be formed as Qu Luzhuan (labyrinth-like), can make thus former water directed in condensation stream 71 wriggle.Therefore, can in the vast scope of aggegation cover 55, guide equably former water.Thus, can utilize the former water flowing in condensation stream 71 to make more efficiently steam (steam evaporating by heating part 42) condensation.

And, be provided with left introducing port 72, right introducing port 73 and front export mouth 74 at the front left side 71a of condensation stream 71, front right side 71b and front centre end 71c.Therefore, former water can be imported to the left side 71d of condensation stream 71 from left introducing port 72, and former water can be imported to the right-hand part 71e of condensation stream 71 from right introducing port 73.The former water of the left side of condensation stream 71 71d process and before the former water of the right-hand part 71e of condensation stream 71 process is directed to export mouth 74, make guiding former water return to water pump 16.

Like this, by condensation stream 71 being divided into left side 71d and right-hand part 71e, in each stream, guide respectively former water, can make thus the former water of guiding in condensation stream 71 flow swimmingly in condensation stream 71.By making former water flow swimmingly in condensation stream 71, can utilize thus the former water flowing in condensation stream 71 to make steam (steam evaporating by heating part 42) condensation more efficiently.

In addition, by utilizing condensation stream 71 that former water is guided to aggegation cover 55(also with reference to Fig. 7) internal space 68, can utilize thus former water cooling aggegation cover 55.Thus, can prevent that aggegation cover 55 is by steam-heated cal(l)andria, thereby can further improve the ease for use of motor driven operator 10.

And, by making condensation stream 71 be formed as Qu Luzhuan (labyrinth-like), former water is wriggled, can in the vast scope of aggegation cover 55, guide equably former water thus.Thus, can prevent more well that aggegation cover 55 is by steam-heated cal(l)andria.

And, as shown in Figure 7, utilize gabarit 58 and interior wide 59 to make aggegation cover 55 be formed as bilayer, can improve thus the rigidity/strength of aggegation cover 55.Thus, can be formed as steam and be difficult to the structure of leaking from aggegation cover 55, thereby can further improve the reliability of motor driven operator 10.

Return to Fig. 6, Fig. 8, the bottom 55a opening of aggegation cover 55, separator 35 is arranged near of bottom 55a.Overlooking while observing, the periphery 35a of separator 35 is formed as essentially rectangular shape, near the joint in top of the bottom 55a in the internal surface 55b of the periphery 35a of essentially rectangular shape and aggegation cover 55.

By separator 35 is engaged with the internal surface 55b of aggegation cover 55, thus, the separated device 35 of enclosed space 39 is partitioned into enclosed space 86 and lower enclosed space 87.Upper enclosed space 86 is the spaces that formed by aggegation cover 55 and separator 35.Therefore, can make by aggegation cover 55(condensation member 56) water purification that generates drips to separator 35, and utilizes separator 35 to collect (concentrating).

About this separator 35, at central 35b(also with reference to Fig. 7) be provided with peristome 36, be formed with the conveying end (following, to be called " intake ") 81 of water purification at rear portion, right side 35c.

And separator 35 tilts with the downward gradient of tiltangleθ 1 towards intake 81 from left side 35d on left and right directions.In addition, separator 35 tilts with the downward gradient of tiltangleθ 2 towards intake 81 from leading section 35e on fore-and-aft direction, and tilts with the downward gradient of tiltangleθ 3 towards intake 81 from rearward end 35f., separator 35 is inclined to and the water purification that concentrates on separator 35 can be guided towards intake 81.

As shown in Figure 7, the central authorities that peristome 36 is arranged on separator 35 (specifically, for left and right directions central authorities and be fore-and-aft direction central authorities) 35b, overlook while observation, the length dimension that its periphery 36a is formed as fore-and-aft direction is that W1(is with reference to Fig. 6), the width dimensions of the left and right directions essentially rectangular shape that is W2.By making the length dimension W1 of fore-and-aft direction, the width dimensions W2 of left and right directions form greatlyr, peristome 36 forms greatlyr thus.

Be formed as level by the upper end 36b that makes periphery 36a, thus, this peristome 36 is formed as parallel with the water surface 28a of water purification 28 concentrated in separator 35.Therefore, can utilize periphery 36a to prevent that the water purification 28 that concentrates on separator 35 from flowing out to vaporizer 31 through peristome 36.

By the central 35b at separator 35, peristome 36 is set, makes thus the inside 63 of vaporizer 31 be communicated with the inside 44 of agglomerator 33 by peristome 36.Therefore, the inside 44(that the steam evaporating by vaporizer 31 can be guided to agglomerator 33 through peristome 36 specifically, upper enclosed space 86).

At this, consider: in the case of by the steam evaporating by vaporizer 31 through stream guides to agglomerator 33, the steam guiding in stream condensation and Returning evaporimeter 31 in the wall portion of stream.

Therefore, only utilize periphery 36a to form peristome 36, and make peristome 36 form greatlyr.Therefore the steam, evaporating by vaporizer 31 can promptly pass through peristome 36.Thus, at the steam that makes to evaporate by vaporizer 31 through peristome 36(periphery 36a) while rising to agglomerator 33, can prevent steam condensation and Returning evaporimeter 31 on periphery 36a.

And, by the central 35b at separator 35, peristome 36 is set, can make thus the periphery 36a of peristome 36 away from condensation member 56, thereby can utilize steam near periphery 36a, to remain higher temperature.Therefore, in the time that peristome 36 rises to agglomerator 33, can prevent more well steam condensation and Returning evaporimeter 31 on periphery 36a at the steam that makes to evaporate by vaporizer 31.

As shown in Figure 6, above peristome 36, be provided with masking shield 37.Masking shield 37 is disposed between peristome 36 and aggegation cover 55 on above-below direction, and is formed as essentially rectangular shape in the time overlooking observation.The left bent sheet 83 of masking shield 37 and right bent sheet 84 engage with aggegation cover 55, thus masking shield 37 are installed on to aggegation cover 55.

As shown in Figure 7, masking shield 37 at the inside of aggegation cover 55 63(specifically, upper enclosed space 86) be arranged at the top of peristome 36 to cover the mode of peristome 36.Therefore, upper enclosed space 86 crested plates 37 are partitioned into superjacent air space 86a and lower side space 86b.Superjacent air space 86a is positioned at the top of masking shield 37, and lower side space 86b is positioned at the below of masking shield 37.Therefore, the lower side space 86b of masking shield 37 and condensation member 56 crested plates 37 are spaced apart.

By by spaced apart to lower side space 86b and condensation member 56, can prevent that thus the steam being guided by peristome 36 is in the lower side space 86b of masking shield 37 condensation.By preventing steam condensation in lower side space 86b, can will guide the steam coming as arrow, not guide to lavishly the top (, condensation member 56) of masking shield 37 from peristome 36 thus.

And, by utilizing masking shield 37 by spaced apart to lower side space 86b and the condensation member 56 of masking shield 37, can utilize thus steam near the periphery 36a of peristome 36, to remain higher temperature.Therefore, in the time that peristome 36 rises to agglomerator 33, can prevent more well steam condensation and Returning evaporimeter 31 on periphery 36a at the steam that makes to evaporate by vaporizer 31.

Like this, by preventing the steam Returning evaporimeter 31 through peristome 36, and by guide the steam coming not guide to lavishly condensation member 56 from peristome 36, can make thus the steam evaporating by heating part 42 not generate lavishly water purification (distilled water).Thus, the formation efficiency of water purification can be improved, thereby the growing amount of water purification can be fully guaranteed.

And on left and right directions, the central 37c of masking shield 37 is outstanding upward, thus, is formed as mountain type by the 37d of left bank portion and the 37e of right bank portion.And about masking shield 37, the periphery 37f of masking shield 37 configures than peristome 36 (foreign side) in the outer part.Therefore, by peristome 36 and aggegation cover 55(, condensation stream 71) between configure masking shield 37, thus, can make the water purification 28 generating by condensation stream 71 drip to the upper surface 37a of masking shield 37.The water purification 28 dripping on the upper surface 37a of masking shield 37 can be guided to the periphery 37f of masking shield 37 along the upper surface 37a of masking shield 37, and make described water purification 28 drip (guiding) to separator 35 from periphery 37f.

Thus, can prevent that the water purification 28 generating by condensation member 56 from dripping to the inside 44 of container for evaporation 41 through peristome 36, thereby all water purification 28 that generate can be guided to separator 35.Like this, all water purification 28 that generate by agglomerator 33 are guided to separator 35, thus can by the water purification 28 generating not lavishly from intake 81(with reference to Fig. 8) take out.

Return to Fig. 5, water storage member 38 possesses: with separator 35(intake 81) (with reference to Fig. 8) the 1st intake pipe 91 of being communicated with; The 1st water tank 92 being communicated with the outlet 91a of the 1st intake pipe 91; The 2nd intake pipe 93 being communicated with the outlet of the 1st water tank 92; With the 2nd water tank 94 being communicated with the outlet 93a of the 2nd intake pipe 93.

And water storage member 38 possesses: at the 1st magnetic valve 95 arranging of the 1st intake pipe 91 midway; At the 2nd magnetic valve 96 arranging of the 2nd intake pipe 93 midway; With the lowest water level detecting sensor 97 and the top water-level detecting sensor 98 that arrange on the 1st water tank 92.

Lowest water level detecting sensor 97 is with reference to Fig. 8 for detection of the water purification 28(accumulating in the 1st water tank 92) the sensor of lowest water level.Top water-level detecting sensor 98 is the sensors for detection of the top water-level of the water purification 28 of accumulating in the 1st intake pipe 91.

The 1st magnetic valve 95 is the valves for carrying out following actions: in the time that the water level of the water purification 28 of accumulating at the 1st water tank 92 arrives lowest water level, open the 1st intake pipe 91, in the time that the water level of water purification 28 arrives top water-level, close the 1st intake pipe 91.

The 2nd magnetic valve 96 is the valves for carrying out following actions: in the time that the water level of the water purification 28 of accumulating at the 1st water tank 92 arrives lowest water level, close the 2nd intake pipe 93, in the time that the water level of water purification 28 arrives top water-level, open the 2nd intake pipe 93.

The entrance 91b of the 1st intake pipe 91 runs through the gabarit 58 and separator 35(intake 81 of aggegation cover 55) (with reference to Fig. 8) be communicated with, and the outlet 91a of the 1st intake pipe 91 is communicated with the 1st water tank 92.Therefore, separator 35(intake 81) be communicated with the 1st water tank 92 through the 1st intake pipe 91.

The entrance of the 2nd intake pipe 93 is communicated with the 1st water tank 92, and the outlet 93a of the 2nd intake pipe 93 is communicated with the 2nd water tank 94.Therefore, the 1st water tank 92 is communicated with the 2nd water tank 94 through the 2nd intake pipe 93.

As shown in Figure 4, according to water storage member 38, can utilize the 1st intake pipe 91 by the water purification 28(generating by condensation member 56 with reference to Fig. 8) as arrow G, guide to the 1st water tank 92.And, can utilize the 2nd intake pipe 93 shown in Fig. 5 that the water purification 28 of accumulating in the 1st water tank 92 is guided to the 2nd water tank 94, and accumulate in the 2nd water tank 94.

The water purification generating by condensation member 56 is accumulated in the 1st water tank 92 temporarily, thus, even contain foreign matter in the water purification 28 generating by condensation member 56, also can be made the foreign matter containing in water purification 28 sink in the 1st water tank 92.Thus, the water purification 28 of removing the high-quality after foreign matter can be accumulated in the 2nd water tank 94.Accumulate in the water purification 28 of the high-quality of the 2nd water tank 94 and be removed (outflow) to outside from the water export 101 of the 2nd water tank 94.

Next, based on Figure 11 A and Figure 11 B～Figure 15 A and Figure 15 B, such example is described: utilize engine 12 to drive water pump 16, generate water purification 28 by water generating device 20 thus.

As shown in Figure 11 A, by utilizing engine 12(Fig. 1) drive water pump 16, thus the former water in river etc. is taken into mouthfuls 18 inside that are taken into housing 17 from Yuan Shui as arrow H.The former water that is taken into the inside of housing 17 is expelled to outside from former water relief outlet 19 as arrow I.

At this, in the driving process of water pump 16, make a part of 27(that is taken into mouthful 18 former water that are taken into from Yuan Shui with reference to Figure 12 A) as arrow J, flow to and supply with shunting stream 46 from the upper left of housing 17.

As shown in Figure 11 B, by be diverted to the former water 27 of supplying with shunting stream 46 as arrow K, guide to supply with shunt stream 46(vertical stream 53) outlet 53a.The inside 44(that the former water 27 of guiding is supplied to container for evaporation 41 from outlet 53a as arrow L is with reference to Figure 12 A).

As shown in Figure 12 A, by the inside 44 that former water 27 is supplied to container for evaporation 41 from outlet 53a, thus former water 27 is accumulated to the inside 44 in container for evaporation 41.By former water 27 is accumulated to the inside 44 in container for evaporation 41, make thus the water surface 27a of former water 27 be positioned at the top of heating part 42.

On the other hand, as shown in Figure 12 B, be taken into a part for the former water of the inside of housing 17 and as arrow M, be taken out to left taking-up stream 77 from the upper left quarter of housing 17 as water coolant be taken into mouthfuls 18 from Yuan Shui.Equally, be taken into a part for the former water of the inside of housing 17 and as arrow N, be taken out to right taking-up stream 78 from the upper right quarter of housing 17 as water coolant be taken into mouthfuls 18 from Yuan Shui.

As shown in FIG. 13A, the former water that is taken out to left taking-up stream 77 is guided to as arrow O to the left side 71d of condensation stream 71 through left taking-up stream 77.Make the former water of guiding as arrow P, wriggle while guide to front export mouth 74 by the left side 71d of condensation stream 71.Equally, the former water that is taken out to right taking-up stream 78 is guided to as arrow Q to the right-hand part 71e of condensation stream 71 through right taking-up stream 78.Make the former water of guiding as arrow R, wriggle while guide to front export mouth 74 by the right-hand part 71e of condensation stream 71.

As shown in Figure 13 B, will guide to front export mouth 74(through condensation stream 71 with reference to Figure 13 A) former water as arrow S, guide to the downstream side of former water relief outlet 19.The former water that guides to downstream side returns to the former water relief outlet 19 of water pump 16 through returning to stream 79.The former water returning returns to (converging) to the former water of discharge of discharging from former water relief outlet 19, and as arrow I, is expelled to outside together with discharging former water.

At this, as shown in Figure 14 A, the former water 27 that utilizes heating part 42 to accumulate the inside 44 at container for evaporation 41 heats, and makes thus former water 27 evaporate.The steam evaporating by heating part 42 is guided to as arrow T to the lower side space 86b of masking shield 37 through peristome 36.

At this, consider: in the case of by the steam evaporating by vaporizer 31 for example through stream guides to agglomerator 33, the steam guiding in stream condensation and Returning evaporimeter 31 in the wall portion of stream.

Therefore, at the central 35b of separator 35, peristome 36 is set, and only utilizes periphery 36a to form significantly peristome 36.Therefore, at the steam that makes to evaporate by heating part 42 via peristome 36(periphery 36a) while rising to the lower side space 86b of masking shield 37, can prevent steam condensation and Returning evaporimeter 31 on periphery 36a.Thus, can efficiently steam be guided to the lower side space 86b of masking shield 37.

Guide to steam in the lower side space 86b of masking shield 37 along the lower surface 37b of masking shield 37 towards aggegation cover 55(, condensation member 56) as arrow U, guided.The condensation stream 71 crested plates 37 of the lower side space 86b of masking shield 37 and condensation member 56 are spaced apart.Therefore, can prevent from being directed to the vapour condensation of lower side space 86b.By preventing steam aggegation, the superjacent air space 86a(that the steam that guides to side space 86b from peristome 36 is not directed to masking shield 37 lavishly, condensation stream 71).

Internal surface 55b along aggegation cover 55 guides the steam that guides to aggegation cover 55 as arrow V.In condensation stream 71, the former water of cooling use is guided as arrow P, and is guided as arrow R.Utilize the former water that imports the cooling use in condensation stream 71 to carry out condensation to the steam of the internal surface 55b that is directed to aggegation cover 55.

At this, the supply shunting stream 46(that the condensation stream 71 of cooling use is configured to use from former water supply is with reference to Figure 11 B) different systems.Therefore,, without be limited in the former water yield flowing in condensation stream 71 corresponding to the vaporization function of heating part 42, the sufficient former water yield can flow in condensation stream 71.Thus, can utilize the former water of the cooling use that imports condensation stream 71 to make efficiently vapour condensation.

As shown in Figure 14B, the former water that imports the cooling use in condensation stream 71 by utilization carries out condensation to steam, generates water purification 28 thus on the internal surface 55b of aggegation cover 55.

At this, position, the top 55c of the internal surface 55b of aggegation cover 55 is formed as mild circular-arc, and the left-hand portion 55d of the internal surface 55b of aggegation cover 55 and position, right side 55e are formed as steep circular-arc.Therefore the water purification 28 that, position 55c generates up drips to the upper surface 37a of masking shield 37.The water purification 28 of upper surface 37a that drips to masking shield 37 is directed as arrow W along the upper surface 37a of masking shield 37, and drips on separator 35.

The water purification 28 generating at left-hand portion 55d is directed to separator 35 along left-hand portion 55d.Equally, the water purification 28 generating at position, right side 55e is directed to separator 35 along position, right side 55e.All water purification 28 that the internal surface 55b at aggegation cover 55 can be generated thus, guide to separator 35 efficiently.

As shown in Figure 15 A, separator 35 is skewed formation in the mode that the water purification 28 that guides to separator 35 can be guided towards intake 81.Therefore, the water purification 28 that guides to separator 35 can be guided as arrow X so swimmingly towards intake 81.Thus, can be by the internal surface 55b(at aggegation cover 55 with reference to Figure 14 B) all water purification 28 of generating do not guide to the 1st intake pipe 91 lavishly through intake 81.

As shown in Figure 15 B, will import the water purification 28(of the 1st intake pipe 91 with reference to Figure 15 A) as arrow Y, guide to the 1st water tank 92 through the 1st intake pipe 91.And then, utilize the 2nd intake pipe 93 that the water purification 28 of accumulating in the 1st water tank 92 is guided to the 2nd water tank 94 as arrow Z, and accumulate in the 2nd water tank 94.Water purification 28 water export 101 from the 2nd water tank 94 as arrow of accumulating in the 2nd water tank 94 is taken out to outside.As an example, by take out water purification 28 for tap water.

Next, based on Figure 16 A and Figure 16 B, to preventing that the example that the former water of vaporizer is sneaked in water purification in the situation that water generating device 20 tilts from describing.

As shown in Figure 16 A, under the state of water generating device 20 horizontal arrangement, at vaporizer 31(container for evaporation 41) in the water surface 27a of the former water 27 accumulated be positioned at apart from the position of the bottom surface 41c elevation of water surface H1 of container for evaporation 41.Under this state, be guaranteed to H2 from water surface 27b to the height dimension of peristome 36.Therefore, can prevent that the former water 27 of accumulating from immersing to agglomerator 33 sides through peristome 36 in container for evaporation 41.Thus, can prevent that the former water 27 of accumulating from sneaking into the water purification 28(generating by agglomerator 33 with reference to Figure 15 A in container for evaporation 41) in.

On the other hand, as shown in Figure 16 B, under the state tilting at water generating device 20, the water surface 27b of the former water 27 of accumulating in container for evaporation 41 is positioned at apart from the position of bottom surface 41c elevation of water surface H3 at the central 41d of container for evaporation 41.The height H 3 of water surface 27b becomes with the height H 1(of water surface 27a with reference to Figure 16 A) roughly the same height.

At this, be provided with peristome 36 at the central 35b of separator 35.Therefore, under the state tilting at water generating device 20, can by remain from the water surface 27b of former water 27 to the height dimension H4 of peristome 36 with the state of water generating device 20 horizontal arrangement height dimension H2(with reference to Figure 16 A) roughly the same height.Thus, in the situation that water generating device 20 tilts, the water purification 28(that the former water 27 that can prevent from accumulating in container for evaporation 41 is sneaked into agglomerator 33 through peristome 36 is with reference to Figure 15 A) in.

Like this, by preventing sneaking into of former water 27, can prevent that thus the water purification 28 generating by water generating device 20 is because of former water 27 muddinesses, thereby can maintain well the water quality of water purification 28.

And motor driven operator of the present invention is not limited to aforesaid embodiment, can carry out suitable change, improvement etc.For example, in an embodiment, the example that motor driven operator 10 is applied to water pump is illustrated, but is not limited to this, also motor driven operator 10 can be applied to other working rigs such as machine outside.For example,, by motor driven operator 10 is applied to machine outside, thus, a part for cooling seawater for engine (former water) is taken out, utilize the waste heat of engine to make the evaporation of seawater taking out, and make the vapour condensation evaporating, can generate thus water purification (distilled water).

In addition, shape or structure that motor driven operator, engine, water pump, the Yuan Shui illustrating is in an embodiment taken into mouth, former water relief outlet, water generating device, vaporizer, agglomerator, separator, peristome, masking shield, container for evaporation, condensation member, condensation stream and intake etc. are not limited to illustrative situation, can carry out suitable change.

The present invention is applicable to possess the motor driven operator of following function: make to be taken into the part shunting of the former water in water pump, utilize waste heat to make the former water evaporation distributing, make vapour condensation and generate water purification.

Claims (7)

1. a motor driven operator, it possesses: water pump (16), described water pump (16) is driven by engine (12), is taken into mouthful (18) thus and is taken into former water (27), and the former water (27) being taken into is discharged from former water relief outlet (19) from Yuan Shui; And water generating device (20), in the driving process of this water pump (16), described water generating device (20) makes a part that is taken into the former water (27) that mouthful (18) be taken into from described former water be diverted to the outside of described water pump (16), the former water (27) distributing is guided to vaporizer (31) and utilize the waste heat of described engine (12) to make former water (27) evaporation distributing, and utilize agglomerator (33) to make the vapour condensation evaporating by described vaporizer (31) generate water purification (28)

Described motor driven operator (10) is characterised in that,

In described water generating device (20), on the top of described vaporizer (31), be provided with opposed to each other described agglomerator (33) with this vaporizer (31), thus, form enclosed space (39) by described vaporizer (31) and described agglomerator (33),

Described water generating device (20) comprising:

Separator (35), described separator (35) is arranged in this enclosed space (39), described vaporizer (31) and described agglomerator (33) are separated between the upper and lower, and be inclined to and the water purification (28) generating by described agglomerator (33) can be guided towards the conveying end (81) of this water purification (28);

Peristome (36), described peristome (36) is arranged at the central authorities (35b) of this separator (35), thus described vaporizer (31) and described agglomerator (33) are communicated with, the steam evaporating can be guided to described agglomerator (33) by described vaporizer (31); With

Masking shield (37), described masking shield (37) is arranged on the inside of described agglomerator (33) to cover the mode of top of this peristome (36), can prevent that the water purification (28) generating by described agglomerator (33) from dripping to described vaporizer (31), and the described water purification (28) generating by described agglomerator (33) can be guided to described separator (35).

2. motor driven operator according to claim 1, is characterized in that,

Described agglomerator (33) possesses condensation member (56), and described condensation member (56) is arranged on the top of described masking shield (37), makes the vapour condensation evaporating by described vaporizer (31) generate water purification (28).

3. motor driven operator according to claim 1 and 2, is characterized in that,

Mediad top at the above masking shield of left and right directions (37) is outstanding, and described masking shield (37) is formed as mountain type thus, and the periphery (37f) of described masking shield (37) configures than peristome (36) in the outer part.

4. a motor driven operator, it possesses: water pump (16), described water pump (16) is driven by engine (12), is taken into mouthful (18) thus and is taken into former water (27), and the former water (27) being taken into is discharged from former water relief outlet (19) from Yuan Shui; And water generating device (20), in the driving process of this water pump (16), described water generating device (20) makes a part that is taken into the former water (27) that mouthful (18) be taken into from described former water be diverted to the outside of described water pump (16), the former water (27) distributing is guided to vaporizer (31) and utilize the waste heat of described engine (12) to make former water (27) evaporation distributing, and utilize agglomerator (33) to make the vapour condensation evaporating by described vaporizer (31) generate water purification (28)

Described motor driven operator (10) is characterised in that,

Described water generating device (20) comprising:

Take out stream (76), described taking-up stream (76) is communicated with described water pump (16), a part that is taken into the former water (27) that is taken into of mouth (18) can be taken out as water coolant from described former water;

Condensation member (56), described condensation member (56) is communicated with this taking-up stream (76), and be arranged on the cover (55) of the housing that forms described agglomerator (33), the internal space (68) that thus the former water (27) importing from described taking-up stream (76) is guided to described cover (55), can make the vapour condensation evaporating by the waste heat of described engine (12) thus; With

Return to stream (79), described in return to stream (79) and be communicated with the outlet (74) of this condensation member (56), make the former water (27) that is directed to this outlet (74) be back to the former water (27) of discharging from described former water relief outlet (19),

Described condensation member (56) forms space by gabarit (58) and interior exterior feature (59) between described gabarit (58) and described interior exterior feature (59), and be configured to and can described in guiding to from the former water (27) of described taking-up stream (76) importing, return to stream (79), described gabarit (58) forms the outside of described cover (55), and described interior exterior feature (59) is arranged at the inner side of this gabarit (58) and forms the inside of described cover (55).

5. motor driven operator according to claim 4, is characterized in that,

The former water (27) that described condensation member (56) is formed as importing described space (68) guides sinuously.

6. according to the motor driven operator described in claim 4 or 5, it is characterized in that,

The described outlet (74) of described condensation member (56) is arranged at central authorities, and an entrance (72) of described condensation member (56) is arranged at an end, and another entrance (73) of described condensation member (56) is arranged at another end,

Described taking-up stream (76) possesses: the 1st takes out stream (77), and it is communicated with described water pump (16), and a part that is taken into the former water (27) that is taken into of mouth (18) from described former water is guided to a described entrance (72) as water coolant; With the 2nd take out stream (78), it is communicated with described water pump (16), using a part that is taken into the former water (27) that is taken into of mouth (18) from described former water as another entrance (73) described in water coolant guides to.

7. according to the motor driven operator described in any one in claim 4～6, it is characterized in that,

Described gabarit (58) and described interior exterior feature (59) are formed by a sheet material respectively.