CN113510550A - Preaction passive type dust space catching and absorbing integrated wall surface grinding machine - Google Patents

Abstract

The invention discloses a pre-acting passive type dust space capturing and absorbing integrated wall surface grinding machine which comprises an intervening type all-dimensional absorbing and circulating action unit, a pre-acting passive type space covering dust capturing unit, a self-moving load advancing unit, a lifting adjusting unit, a grinding and polishing unit and a dust capturing and rotating auxiliary unit. The invention belongs to the field of house decoration tools, in particular to a wall surface grinding machine integrating pre-acting passive dust space capture and absorption; under the condition that no traditional dust collecting equipment intervenes, the dust capture effect of the whole wall polishing area with better effect is still realized, under the condition that no water pump or motor intervenes, the conveying of liquid and the rotation of the passive conversion water wheel are also realized, under the condition that no equipment such as an air pump intervenes, the absorption of the wall polishing dust with better effect is still realized, and multiple effects such as pre-acting passive space covering dust capture, intervening type all-dimensional absorption circulation effect and the like are realized.

Description

Preaction passive type dust space catching and absorbing integrated wall surface grinding machine

Technical Field

The invention belongs to the technical field of house decoration tools, and particularly relates to a pre-acting passive type wall surface grinding machine integrating dust space capture and absorption.

Background

In indoor wall surface painting decoration, after painting is finished, polishing is carried out on the wall surface to ensure that the wall surface is smooth; most of wall polishing machines in the prior art are handheld devices, and during polishing operation, the wall polishing machines need to be controlled by the operation experience of operators, so that the wall is polished smoothly. The existing wall surface grinding and polishing device can generate a large amount of dust in the grinding process, operators can influence the health after inhaling, the operators can be in the working environment for a long time and even can cause pneumoconiosis, and the existing wall surface grinding and polishing device can be generally configured with a dust collection function but still cannot play an ideal dust adsorption effect.

The patent application with the publication number of CN112706018A discloses a wall surface polishing device for building decoration, wherein wing plates are fixedly arranged on the side wall of the end of a first support frame, adjacent wing plates on the adjacent first support frames are arranged through bolt connection, an installation seat is arranged on the first support frame in a sliding mode, sleeves are fixedly arranged on the first support frame, guide rods are movably inserted in the sleeves on the first support frames at the two ends, and fixed seats are fixedly arranged on the guide rods; the fixed seat is movably erected on the second support frame, a rotating shaft is rotatably arranged on the fixed seat through a bearing, a gear is fixedly arranged on the rotating shaft, a rack is fixedly arranged on the second support frame, and the gear is meshed with the rack; its guiding mechanism that sets up lateral shifting, the mount pad setting that will fix the machine of polishing is on transverse guide, with transverse shifting mechanism setting on vertical guide rail to set up arresting gear, and then can carry out the wall when polishing at the removal burnishing machine, guarantee burnishing machine even running, however, can not realize whole work area's dust capture and dust collection effect in the use, and the level of mechanization is lower, still can not satisfy higher requirement in the building decoration.

Disclosure of Invention

In view of the above circumstances and overcoming the drawbacks of the prior art, the present invention provides a pre-active passive dust space capturing and absorbing integrated wall surface sander, which, through the arrangement of the pre-active passive dust space covering dust capturing unit, achieves the dust capturing effect of the whole wall surface polishing area with better effect without any intervention of the conventional dust removing equipment, and also achieves the transportation of liquid and the rotation of the passive conversion water wheel without any intervention of a water pump and a motor, so that the space capturing medium generating member rotates, then introduces the intermediary principle (using an intermediary object to transmit or execute an action) into the technical field of the house finishing tool, uses the foam generated by the passive rotation of the space capturing medium generating member as the intermediary, and distributes a large amount of foam uniformly in the whole wall surface polishing space, and utilizes the good covering of the foam, The characteristics of wetting and adhesion, the dust capture is completed, and the technical problem that the dust capture is carried out on the whole wall surface polishing area under the passive condition which is difficult to solve in the prior art is solved; through the arrangement of the intervention type omnibearing absorption and circulation action unit, under the condition that no equipment such as an air pump is involved, the absorption of wall surface grinding dust with better effect is still realized, and the intervention type Venturi tube is used as an intermediary substance, and according to the Bernoulli principle, the intervention type Venturi tube generates negative pressure at the narrow part of a pipeline to cause dust to be sucked into the pipeline, so that the technical problem of omnibearing dust absorption under the condition of no pumping equipment such as an air pump and the like, which is difficult to solve in the prior art, is solved in a breakthrough manner; through the setting of the unit that advances that bears a burden from the motion, the automatic movement of whole device has been realized, the wall burnishing and polishing operation of unmanned control formula has been realized breakthroughly, catch the setting of rotatory auxiliary unit through lift adjustment unit and dust, the automatic rising and the rotation regulation of device have been realized, be convenient for carry out diversified polishing to the wall of different positions, multiple effects such as the dust is caught in the passive space of pre-action cover, the all-round absorption cycle effect of intervention formula, self-motion bears a burden and advances have been realized to this kind of method.

The technical scheme adopted by the invention is as follows: the invention discloses a pre-acting passive dust space capturing and absorbing integrated wall surface grinding machine, which consists of an intervention type all-dimensional absorbing and circulating action unit, a pre-acting passive space covering dust capturing unit, a self-moving load advancing unit, a lifting adjusting unit, a grinding and polishing unit and a dust capturing and rotating auxiliary unit, wherein the intervention type all-dimensional absorbing and circulating action unit is arranged on the self-moving load advancing unit, the lifting adjusting unit is arranged on the intervention type all-dimensional absorbing and circulating action unit, the dust capturing and rotating auxiliary unit is arranged on the lifting adjusting unit, the pre-acting passive space covering dust capturing unit is arranged on the dust capturing and rotating auxiliary unit, and the grinding and polishing unit is arranged on the lifting adjusting unit.

Preferably, the intervention type omnibearing absorption and circulation action unit consists of an intervention type Venturi tube, a circulation action negative pressure generation tube, a circulation action water pump, a circulation action input tube, a circulation action output tube, a circulation water tank, a water tank cover and a circulation action unit supporting base, wherein the circulation action unit supporting base is arranged on the self-moving load advancing unit, the circulation action negative pressure generation tube is arranged on the circulation action unit supporting base, the intervention type Venturi tube array is arranged on the circulation action negative pressure generation tube, so that the dust absorption can be conveniently carried out by utilizing the Venturi tube principle of the intervention type Venturi tube, the intervention type Venturi tube is communicated with the circulation action negative pressure generation tube, the circulation water tank is arranged on the circulation action unit supporting base, the water tank cover is arranged on the circulation water tank, the water in the circulation water tank can be conveniently replaced, the body of the circulation action water pump is arranged on the outer wall of the circulation water tank, the circulation effect input pipe is connected between the circulation effect water pump and the circulation water tank, the circulation effect output pipe is arranged between the circulation effect negative pressure generating pipe and the circulation effect water pump and is responsible for conveying water from the circulation water tank to the circulation effect negative pressure generating pipe, and one end of the circulation effect negative pressure generating pipe is communicated with and arranged on the circulation water tank, so that the water flowing through the circulation effect negative pressure generating pipe circularly enters the circulation water tank.

Wherein, the pre-acting passive space covering dust catching unit is composed of a space catching medium generating part, space catching medium generating micropores, a passive conversion water wheel, a water wheel rotating shaft, a conveying belt, a first conveying wheel, a second conveying wheel, a conversion generator, a side supporting plate, a siphon conveying pipe, a siphon fixing frame, a siphon initial container, a raising platform, a dust catching unit base, a liquid turnover tank, a turnover water pump, a turnover input pipe and a turnover output pipe, the dust catching unit base is arranged on the dust catching rotation auxiliary unit, the liquid turnover tank is arranged on the dust catching unit base, the side supporting plate is fixedly connected on the liquid turnover tank, the water wheel rotating shaft is rotatably arranged on the side supporting plate, the passive conversion water wheel is arranged on the water wheel rotating shaft, the space catching medium generating part array is arranged on the leaves of the passive conversion water wheel and synchronously rotates along with the passive conversion water wheel, the space catching medium generating micropore array is arranged on the space catching medium generating part, as a medium for subsequently generating a large amount of bubbles, a first conveying wheel is arranged on a water wheel rotating shaft, a body of a conversion generator is arranged on a dust catching unit base, a second conveying wheel is arranged on the conversion generator, a conveying belt is arranged on the first conveying wheel and the second conveying wheel, so that the rotation of a passive conversion water wheel drives the second conveying wheel to rotate, the second conveying wheel is used by the conversion generator, an elevating platform is fixedly connected to the dust catching unit base, a siphon initial container is arranged on the elevating platform, the siphon initial container is more favorable for generating a siphon effect at a high position, a siphon fixing frame is fixedly connected to the siphon initial container, a siphon conveying pipe is fixedly connected to the siphon fixing frame, one end of the siphon conveying pipe is arranged at the bottom of the siphon initial container, the other end of the siphon conveying pipe extends to the upper part of the passive conversion water wheel, and liquid flowing out of the siphon conveying pipe falls on the passive conversion water wheel through the siphon principle to cause the passive conversion water wheel to rotate, and the liquid that siphon conveyer pipe flowed out evenly attaches to on synchronous pivoted space catches medium and generate the micropore, the fuselage of turnover water pump is located on the outer wall of dust catching unit base, the turnover input tube is connected between turnover water pump and liquid turnover groove, the turnover output tube is connected between turnover water pump and the initial container of siphon for the liquid in the liquid turnover groove recycles, and the passive space of preaction covers dust catching unit and is equipped with two sets ofly.

Further, the self-moving load-bearing advancing unit comprises a triangular moving support frame, a side auxiliary support plate, an advancing unit support seat, an advancing unit operation groove, an advancing driving motor, a first bevel gear, a second bevel gear, a first bevel gear rotating shaft, a second bevel gear rotating shaft, an advancing driving swing rod, a first advancing auxiliary swing rod and a second advancing auxiliary swing rod, wherein the advancing unit support seat is fixedly connected to the circulation action unit support base, the advancing unit operation groove is arranged on the advancing unit support seat, the body of the advancing driving motor is arranged on the advancing unit operation groove, the first bevel gear rotating shaft is arranged on the output end of the advancing driving motor, the first bevel gear is arranged on the first bevel gear rotating shaft, the second bevel gear rotating shaft is rotatably arranged on the advancing unit operation groove, the second bevel gear rotating shaft is arranged on the second bevel gear rotating shaft, the advancing driving swing rod is fixedly connected to the second bevel gear rotating shaft, and the triangular moving support frame is arranged on the advancing driving swing rod, one end of the first advancing auxiliary swing rod is hinged to the first advancing unit supporting seat, the other end of the first advancing auxiliary swing rod is hinged to the triangular movement supporting seat, one end of the second advancing auxiliary swing rod is hinged to the second advancing unit supporting seat, the other end of the second advancing auxiliary swing rod is hinged to the triangular movement supporting seat, the advancing driving swing rod, the first advancing auxiliary swing rod and the second advancing auxiliary swing rod are respectively arranged on three corners of the triangular movement supporting seat, the side auxiliary supporting plate is arranged on the triangular movement supporting seat, and unmanned control type wall surface polishing operation is achieved in a breakthrough mode.

Preferably, the lifting adjusting unit is composed of an electric hydraulic push rod, a push rod base, a lifting guide rail, a lifting sliding plate, a push rod connecting transmission column, a lifting transmission member, a lifting driving slider, a sliding waist-shaped groove, a transmission member overturning seat and a lifting connecting frame, the lifting guide rail is fixedly connected to the circulation action unit supporting base, the lifting sliding plate is embedded and slidably arranged on the lifting guide rail, the push rod base is fixedly connected to the bottom of the lifting guide rail, the transmission member overturning seat is fixedly connected to the circulation action unit supporting base, the lifting transmission member is hinged to the transmission member overturning seat, the lifting connecting frame is fixedly connected to the lifting sliding plate, the sliding waist-shaped groove is arranged on two sides of the lifting connecting frame, one end of the lifting driving slider is embedded and slidably arranged on the sliding waist-shaped groove, the other end of the lifting driving slider is arranged on the lifting transmission member, the push rod connecting transmission column is fixedly connected between the lifting transmission members, and the bottom of the electric hydraulic push rod is hinged to the push rod base, the output end of the electric hydraulic push rod is arranged on the push rod connecting transmission column, the circulating action negative pressure generating pipe is arranged on the outer side of the lifting guide rail and the transmission part overturning seat, and the lifting transmission part, the lifting driving slide block, the sliding waist-shaped groove and the transmission part overturning seat are provided with two groups.

Wherein, the polishing unit comprises a wall surface polishing grinding wheel, a wall surface polishing motor, a polishing adjusting gear, a polishing adjusting rack, a rack guide rod, a polishing running groove, a polishing support shell, a polishing support frame, a polishing direction adjusting tooth, a polishing direction adjusting motor, a polishing direction changing gear, a sliding polishing guide block and a polishing sliding groove, the body of the polishing direction adjusting motor is arranged on a lifting connecting frame, the polishing direction changing gear is arranged on an output shaft of the polishing direction adjusting motor, the polishing support frame is rotatably arranged on the lifting connecting frame, the polishing direction adjusting tooth is annularly arranged on the side wall of the polishing support frame, the polishing direction adjusting tooth and the polishing direction changing gear are engaged and connected, the polishing support shell is fixedly connected on the polishing support frame, the polishing running groove is arranged on the polishing support shell, and the body of the polishing adjusting motor is arranged on the polishing running groove, the adjusting gear that polishes is located on the output shaft of the adjusting motor that polishes, the rack guide bar is located on the operation groove of polishing, the adjusting rack that polishes runs through to slide and locates on the rack guide bar, the adjusting gear that polishes is connected with the meshing between the adjusting rack that polishes, the fuselage rigid coupling of wall polishing motor is on the adjusting rack that polishes, the wall emery wheel of polishing is located on the output shaft of wall polishing motor, the supporting shell that polishes is located on the sliding tray that polishes, the guide block rigid coupling that polishes is on the support frame that polishes, the supporting shell that polishes slides through the sliding tray gomphosis that polishes and locates on the guide block that polishes.

Further, the dust catching rotary auxiliary unit comprises a rotary auxiliary motor, a rotary auxiliary driving gear, a rotary auxiliary driven gear and a rotary auxiliary rotating shaft, the body of the rotary auxiliary motor is arranged on the lifting connecting frame, the rotary auxiliary driving gear is arranged on an output shaft of the rotary auxiliary motor, one end of the rotary auxiliary rotating shaft is rotated and arranged on the lifting connecting frame, the other end of the rotary auxiliary rotating shaft is fixedly connected to the dust catching unit base, the rotary auxiliary driven gear is arranged on the rotary auxiliary rotating shaft, and the rotary auxiliary driving gear and the rotary auxiliary driven gear are connected in a meshed mode.

In order to ensure that the space capture medium generating part has a larger contact area with air, the shape of the space capture medium generating part is in a hollow waist shape, in order to realize the conversion and utilization of energy to the maximum extent, the conversion generator is electrically connected with the turnover water pump, wherein the lifting transmission part is in a V shape, and in order to cooperate with the normal operation of the pre-acting passive space covering dust capture unit, two groups of dust capture rotary auxiliary units are arranged.

The invention with the structure has the following beneficial effects: the scheme is that the pre-acting passive type dust space capturing and absorbing integrated wall surface grinding machine, through the arrangement of the pre-acting passive type space covering dust capturing unit, under the condition of no intervention of any traditional dust removing equipment, the dust capturing effect of the whole wall surface grinding area with better effect is still realized, and under the condition of no intervention of any water pump and motor, the conveying of liquid and the rotation of a passive conversion water wheel are also realized, so that a space capturing medium generating piece rotates, then an intermediary principle (transmitting or executing an action by using an intermediate object) is introduced into the technical field of house decoration tools, foam generated by the passive rotation of the space capturing medium generating piece is used as an intermediary, a large amount of foam is uniformly distributed in the whole space of the wall surface grinding, and the dust capturing is completed by utilizing the good covering, wetting and adhering characteristics of the foam, the technical problem that the prior art is difficult to solve that dust is captured in the whole wall polishing area under the passive condition is solved; through the arrangement of the intervention type omnibearing absorption and circulation action unit, under the condition that no equipment such as an air pump is involved, the absorption of wall surface grinding dust with better effect is still realized, and the intervention type Venturi tube is used as an intermediary substance, and according to the Bernoulli principle, the intervention type Venturi tube generates negative pressure at the narrow part of a pipeline to cause dust to be sucked into the pipeline, so that the technical problem of omnibearing dust absorption under the condition of no pumping equipment such as an air pump and the like, which is difficult to solve in the prior art, is solved in a breakthrough manner; through the setting of the unit that advances that bears a burden from the motion, the automatic movement of whole device has been realized, the wall burnishing and polishing operation of unmanned control formula has been realized breakthroughly, catch the setting of rotatory auxiliary unit through lift adjustment unit and dust, the automatic rising and the rotation regulation of device have been realized, be convenient for carry out diversified polishing to the wall of different positions, multiple effects such as the dust is caught in the passive space of pre-action cover, the all-round absorption cycle effect of intervention formula, self-motion bears a burden and advances have been realized to this kind of method.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a front sectional view of the present invention;

FIG. 3 is a top view of the interventional all-dimensional absorption cycle unit of the present invention;

FIG. 4 is a schematic structural diagram of a pre-action passive space coverage dust capture unit of the present invention;

FIG. 5 is a cross-sectional view of a pre-action passive space-covering dust capture unit of the present invention;

FIG. 6 is a schematic view of the self-moving load advancing unit of the present invention;

fig. 7 is a schematic structural view of the elevation adjustment unit of the present invention excluding the elevation guide rail and the elevation sliding plate;

FIG. 8 is a sectional view of the elevation adjustment unit of the present invention with the elevation guide rail and the elevation sliding plate removed;

fig. 9 is a partially enlarged view of a portion a of fig. 2;

fig. 10 is a partially enlarged view of a portion B of fig. 2;

fig. 11 is a partially enlarged view of a portion C of fig. 5.

The device comprises a pre-acting passive space covering dust capturing unit, a 2 intervening type all-dimensional absorption and circulation acting unit, a 3 self-moving load advancing unit, a 4 lifting adjusting unit, a 5 grinding and polishing unit, a 6 dust capturing rotary auxiliary unit, a 7 space capturing medium generating piece, 8 space capturing medium generating micropores, 9 passive conversion water wheels, 10 water wheel rotating shafts, 11 conveying belts, 12 conveying wheels I, 13 conveying wheels II, 14 conversion generators, 15 side supporting plates, 16 siphon conveying pipes, 17 siphon fixing frames, 18 siphon initial containers, 19 elevating tables, 20 dust capturing unit bases, 21 liquid transferring tanks, 22 transferring water pumps, 23 transferring input pipes, 24 transferring output pipes, 25 intervening type Venturi pipes, 26 circulation acting negative pressure generating pipes, 27 circulating acting negative pressure generating pipes, 27 siphon initial containers, a dust capturing unit base, 21, a liquid transferring tank, 22 transferring water pumps, 23 transferring input pipes, 24 transferring output pipes, 25, intervening type Venturi pipes, 26 circulating acting negative pressure generating pipes, 27 and a circulating type water pump, A circulation water pump 28, a circulation input pipe 29, a circulation output pipe 30, a circulation water tank 31, a water tank cover 32, a circulation unit support base 33, a triangular motion support 34, a side auxiliary support plate 35, a forward unit support base 36, a forward unit operation groove 37, a forward driving motor 38, a bevel gear I39, a bevel gear II 40, a bevel gear rotating shaft I41, a bevel gear rotating shaft II 42, a forward driving swing rod 43, a forward auxiliary swing rod I44, a forward auxiliary swing rod II 45, an electric hydraulic push rod 46, a push rod base 47, a lifting guide rail 48, a lifting sliding plate 49, a push rod connecting transmission column 50, a lifting transmission member 51, a lifting driving slide block 52, a sliding waist groove 53, a transmission member overturning seat 54, a lifting connection frame 55, a wall surface grinding wheel 56, a lifting connection frame 56, a lifting guide rail 48, a lifting sliding plate 56, a lifting transmission member connecting transmission column 50, a lifting transmission member 51, a lifting driving slide block 52, a sliding waist groove 53, a transmission member overturning seat 54, a lifting connection frame 55, a wall surface grinding wheel 56, Wall grinding motor, 57, grinding adjusting motor, 58, grinding adjusting gear, 59, grinding adjusting rack, 60, rack guide rod, 61, grinding operation groove, 62, grinding supporting shell, 63, grinding supporting frame, 64, grinding direction adjusting gear, 65, grinding direction adjusting motor, 66, grinding direction changing gear, 67, sliding grinding guide block, 68, grinding sliding groove, 69, rotating auxiliary motor, 70, rotating auxiliary driving gear, 71, rotating auxiliary driven gear, 72, rotating auxiliary rotating shaft.

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

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1-2, the pre-acting passive dust space capturing and absorbing integrated wall surface grinding machine of the present invention is composed of a self-moving load advancing unit 3, an intervening all-directional absorbing circulation unit 2, a pre-acting passive space covering dust capturing unit 1, a lifting adjusting unit 4, a grinding and polishing unit 5 and a dust capturing rotation assisting unit 6, wherein the intervening all-directional absorbing circulation unit 2 is disposed on the self-moving load advancing unit 3, the lifting adjusting unit 4 is disposed on the intervening all-directional absorbing circulation unit 2, the dust capturing rotation assisting unit 6 is disposed on the lifting adjusting unit 4, the pre-acting passive space covering dust capturing unit 1 is disposed on the dust capturing rotation assisting unit 6, and the grinding and polishing unit 5 is disposed on the lifting adjusting unit 4.

As shown in fig. 3, the intervention type omnibearing absorption and circulation action unit 2 is composed of a circulation action negative pressure generating pipe 26, an intervention type venturi tube 25, a circulation action water pump 27, a circulation action input pipe 28, a circulation action output pipe 29, a circulation water tank 30, a water tank cover 31 and a circulation action unit supporting base 32, the circulation action unit supporting base 32 is arranged on the self-moving load advancing unit 3, the circulation action negative pressure generating pipe 26 is arranged on the circulation action unit supporting base 32, the intervention type venturi tubes 25 are arranged on the circulation action negative pressure generating pipe 26 in an array manner, so as to facilitate the subsequent dust absorption by using the venturi tube principle of the intervention type venturi tube 25, the intervention type venturi tube 25 is communicated with the circulation action negative pressure generating pipe 26, the circulation water tank 30 is arranged on the circulation action unit supporting base 32, the water tank cover 31 is arranged on the circulation water tank 30, so as to facilitate the replacement of water in the circulation water tank 30, the body of the circulation action water pump 27 is arranged on the outer wall of the circulation water tank 30, the circulation action input pipe 28 is connected between the circulation action water pump 27 and the circulation water tank 30, the circulation action output pipe 29 is arranged between the circulation action negative pressure generating pipe 26 and the circulation action water pump 27 and is responsible for conveying water from the circulation water tank 30 to the circulation action negative pressure generating pipe 26, and one end of the circulation action negative pressure generating pipe 26 is communicated with the circulation water tank 30, so that the water flowing through the circulation action negative pressure generating pipe 26 circularly enters the circulation water tank 30.

As shown in fig. 4, 5 and 11, the pre-action passive space covering dust capture unit 1 is composed of a space capture medium generator 7, space capture medium generating micropores 8, a passive conversion water wheel 9, a water wheel rotating shaft 10, a conveying belt 11, a first conveying wheel 12, a second conveying wheel 13, a conversion generator 14, side supporting plates 15, a siphon conveying pipe 16, a siphon fixing frame 17, a siphon initial container 18, an elevating platform 19, a dust capture unit base 20, a liquid turnover tank 21, a turnover water pump 22, a turnover input pipe 23 and a turnover water wheel output pipe 24, the dust capture unit base 20 is arranged on the dust capture rotation auxiliary unit 6, the liquid turnover tank 21 is arranged on the dust capture unit base 20, the side supporting plates 15 are fixedly connected to the liquid turnover tank 21, the water wheel rotating shaft 10 is rotatably arranged on the side supporting plates 15, the passive conversion water wheel 9 is arranged on the rotating shaft 10, the space catching medium generating part 7 is arranged on the leaves of the passive conversion water wheel 9 in an array and rotates synchronously with the passive conversion water wheel 9, the space catching medium generating micro-holes 8 are arranged on the space catching medium generating part 7 and are used as a medium for generating a large amount of bubbles subsequently, the first transmission wheel 12 is arranged on the water wheel rotating shaft 10, the body of the conversion generator 14 is arranged on the dust catching unit base 20, the second transmission wheel 13 is arranged on the conversion generator 14, the transmission belt 11 is arranged on the first transmission wheel 12 and the second transmission wheel 13, so that the rotation of the passive conversion water wheel 9 drives the second transmission wheel 13 to rotate, for the conversion generator 14, the elevated platform 19 is fixedly connected on the dust catching unit base 20, the siphon initial container 18 is arranged on the elevated platform 19, the siphon initial container 18 is more favorable for generating siphon effect at high position, the siphon fixing frame 17 is fixedly connected on the siphon initial container 18, the siphon conveying pipe 16 is fixedly connected on the siphon fixing frame 17, one end of the siphon delivery pipe 16 is arranged at the bottom of the siphon initial container 18, the other end of the siphon delivery pipe 16 extends to the upper part of the passive conversion water wheel 9, the liquid flowing out from the siphon delivery pipe 16 through the siphon principle falls on the passive conversion water wheel 9, so that the passive conversion water wheel 9 rotates, the liquid flowing out from the siphon delivery pipe 16 is uniformly attached to the space catching medium generating part 7 and the space catching medium generating micropores 8 which rotate synchronously, the body of the turnover water pump 22 is arranged on the outer wall of the base 20 of the dust catching unit, the turnover input pipe 23 is connected between the turnover water pump 22 and the liquid turnover tank 21, the turnover output pipe 24 is connected between the turnover water pump 22 and the siphon initial container 18, so that the liquid in the liquid turnover tank 21 is recycled, two groups of the pre-acting passive space covering dust catching unit 1 are arranged, and in order to ensure a large contact area with the air, the space capture medium generating member 7 is shaped like a hollow kidney, and the conversion generator 14 and the circulating water pump 22 are electrically connected to each other in order to realize conversion and utilization of energy to the maximum extent.

As shown in FIG. 6, the self-moving load forward unit 3 comprises a triangular moving support frame 33, a side auxiliary support plate 34, a forward unit support seat 35, a forward unit operation groove 36, a forward driving motor 37, a bevel gear I38, a bevel gear II 39, a bevel gear shaft I40, a bevel gear shaft II 41, a forward driving swing link 42, a forward auxiliary swing link I43 and a forward auxiliary swing link II 44, wherein the forward unit support seat 35 is fixedly connected to the circulation action unit support base 32, the forward unit operation groove 36 is arranged on the forward unit support seat 35, the body of the forward driving motor 37 is arranged on the forward unit operation groove 36, the bevel gear shaft I40 is arranged on the output end of the forward driving motor 37, the bevel gear I38 is arranged on the bevel gear shaft I40, the bevel gear shaft II 41 is rotatably arranged on the forward unit operation groove 36, the bevel gear II 39 is arranged on the bevel gear shaft II 41, the forward driving swing rod 42 is fixedly connected to the bevel gear rotating shaft II 41, the triangular movement support frame 33 is arranged on the forward driving swing rod 42, one end of the forward auxiliary swing rod I43 is hinged to the forward unit support seat 35, the other end of the forward auxiliary swing rod I43 is hinged to the triangular movement support frame 33, one end of the forward auxiliary swing rod II 44 is hinged to the forward unit support seat 35, the other end of the forward auxiliary swing rod II 44 is hinged to the triangular movement support frame 33, the forward driving swing rod 42, the forward auxiliary swing rod I43 and the forward auxiliary swing rod II 44 are respectively arranged at three corners of the triangular movement support frame 33, the side auxiliary support plate 34 is arranged on the triangular movement support frame 33, and unmanned control type wall surface polishing operation is achieved in a breakthrough manner.

As shown in fig. 2, 7 and 8, the lifting adjusting unit 4 is composed of an electric hydraulic push rod 45, a push rod base 46, a lifting guide rail 47, a lifting sliding plate 48, a push rod connecting transmission column 49, a lifting transmission member 50, a lifting driving slider 51, a sliding waist-shaped groove 52, a transmission member overturning seat 53 and a lifting connecting frame 54, wherein the lifting guide rail 47 is fixedly connected to the circulation action unit supporting base 32, the lifting sliding plate 48 is embedded and slidably arranged on the lifting guide rail 47, the push rod base 46 is fixedly connected to the bottom of the lifting guide rail 47, the transmission member overturning seat 53 is fixedly connected to the circulation action unit supporting base 32, the lifting transmission member 50 is hinged to the transmission member overturning seat 53, the lifting connecting frame 54 is fixedly connected to the lifting sliding plate 48, the sliding waist-shaped grooves 52 are arranged on both sides of the lifting connecting frame 54, one end of the lifting driving slider 51 is embedded and slidably arranged on the sliding waist-shaped groove 52, and the other end of the lifting driving slider 51 is arranged on the lifting transmission member 50, the push rod is connected between the transmission column 49 and fixedly connected between the lifting transmission pieces 50, the bottom of the electric hydraulic push rod 45 is hinged on the push rod base 46, the output end of the electric hydraulic push rod 45 is arranged on the push rod connection transmission column 49, the circulation action negative pressure generating pipe 26 is arranged on the outer sides of the lifting guide rail 47 and the transmission piece overturning seat 53, and the lifting transmission pieces 50, the lifting driving slide block 51, the sliding waist-shaped groove 52 and the transmission piece overturning seat 53 are provided with two groups.

As shown in fig. 1 to 2, the dust capture rotation assisting unit 6 includes a rotation assisting motor 69, a rotation assisting driving gear 70, a rotation assisting driven gear 71 and a rotation assisting rotating shaft 72, the body of the rotation assisting motor 69 is disposed on the elevation connecting frame 54, the rotation assisting driving gear 70 is disposed on the output shaft of the rotation assisting motor 69, one end of the rotation assisting rotating shaft 72 is rotatably disposed on the elevation connecting frame 54, the other end of the rotation assisting rotating shaft 72 is fixedly connected to the dust capture unit base 20, the rotation assisting driven gear 71 is disposed on the rotation assisting rotating shaft 72, the rotation assisting driving gear 70 and the rotation assisting driven gear 71 are engaged and connected, and two sets of the dust capture rotation assisting unit 6 are provided to cooperate with the normal operation of the pre-active passive space covering dust capture unit 1.

As shown in fig. 9-10, the polishing unit 5 comprises a wall surface polishing wheel 55, a wall surface polishing motor 56, a polishing adjustment motor 57, a polishing adjustment gear 58, a polishing adjustment rack 59, a rack guide rod 60, a polishing operation groove 61, a polishing support housing 62, a polishing support frame 63, a polishing direction adjustment gear 64, a polishing direction adjustment motor 65, a polishing direction change gear 66, a sliding polishing guide block 67 and a polishing sliding groove 68, wherein the body of the polishing direction adjustment motor 65 is arranged on the lifting connection frame 54, the polishing direction change gear 66 is arranged on the output shaft of the polishing direction adjustment motor 65, the polishing support frame 63 is rotatably arranged on the lifting connection frame 54, the polishing direction adjustment gear 64 is arranged on the side wall of the polishing support frame 63 in a surrounding manner, the polishing direction adjustment gear 64 and the polishing direction change gear 66 are engaged and connected, the polishing support housing 62 is fixedly connected to the polishing support frame 63, the groove 61 that polishes is located on the support housing 62 that polishes, the fuselage of the adjusting motor 57 that polishes is located on the groove 61 that polishes, the adjusting gear 58 that polishes is located on the output shaft of adjusting motor 57 that polishes, rack guide bar 60 is located on the groove 61 that polishes, it locates on rack guide bar 60 to polish adjusting rack 59 and run through the slip, it connects to polish adjusting gear 58 and the meshing between the adjusting rack 59, the fuselage rigid coupling of wall grinding motor 56 is on the adjusting rack 59 that polishes, wall grinding wheel 55 is located on the output shaft of wall grinding motor 56, the sliding tray 68 that polishes is located on the support housing 62 that polishes, slip guide block 67 rigid coupling that polishes is on the support frame 63 that polishes, the support housing 62 that polishes slides through the gomphosis of sliding tray 68 that polishes and locates on the slip guide block 67.

As shown in fig. 8, the elevating transmission member 50 has a V-shape.

When the triangular-motion grinding device is used, a user firstly starts the forward driving motor 37, then the bevel gear rotating shaft I40 drives the bevel gear I38 to rotate, so that the bevel gear II 39 rotates, then the bevel gear rotating shaft II 41 rotates to drive the forward driving swing rod 42 to synchronously rotate, then the triangular-motion supporting frame 33 moves along with the forward driving swing rod I, and at the moment, the forward auxiliary swing rod I43 and the forward auxiliary swing rod II 44 rotate along with the forward driving swing rod I, so that the forward driving swing rod 42, the forward auxiliary swing rod I43 and the forward auxiliary swing rod II 44 drive the triangular-motion supporting frame 33 to move together, so that the whole device is driven to creep forwards, the side auxiliary supporting plates 34 enable the triangular-motion supporting frame 33 to be more stable when in contact with the ground, the side overturning is prevented, the self-motion load forward unit 3 drives the grinding and polishing unit 5 to synchronously move forwards, when the wall grinding wheel 55 is in contact with the wall surface, the forward driving motor 37 is closed, at this time, the wall grinding motor 56 is started to rotate the wall grinding wheel 55, so that the wall grinding wheel 55 grinds the wall, and then the grinding support housing 62 is pushed so that the grinding support housing 62 slides along the sliding grinding guide 67 through the grinding sliding groove 68, so that a row of the wall is ground, before grinding, the prepared bubble liquid is poured into the siphon initial tank 18, when the bubble liquid in the siphon initial tank 18 reaches a certain amount, a siphon phenomenon is generated through the siphon delivery pipe 16, so that the bubble liquid flows from one end of the siphon initial tank 18 to the other end of the siphon delivery pipe 16 along the siphon delivery pipe 16, the bubble liquid flows onto the passive conversion water wheel 9, so that the passive conversion water wheel 9 rotates, and during the rotation of the passive conversion water wheel 9, the space capturing medium generating member 7 synchronously rotates and automatically adheres a sufficient amount of the bubble liquid, the bubble liquid is continuously accumulated in the liquid circulation tank 21, the passive conversion water wheel 9 drives the first conveying wheel 12 to rotate and drives the second conveying wheel 13 to rotate through the conveying belt 11, so that the rotor of the conversion generator 14 rotates, the conversion generator 14 continuously supplies power to the circulation water pump 22, the bubble liquid in the initial siphon container 18 completely flows out through the siphon conveying pipe 16 quickly, the circulation water pump 22 is started in the next operation, the bubble liquid in the liquid circulation tank 21 enters the initial siphon container 18 again through the circulation input pipe 23, the circulation water pump 22 and the circulation output pipe 24, so that the phenomenon is generated again through the siphon conveying pipe 16, the operation of the next round is facilitated, and therefore, under the condition that no siphon water pump or motor is involved, the bubble liquid conveying in the initial siphon container 18 and the rotation of the passive conversion water wheel 9 are realized, so that the space medium generating piece 7 rotates, kinetic energy generated by the rotation of the passive conversion water wheel 9 is converted into electric energy through the conversion generator 14 to supply power to the turnover water pump 22, so that the conversion and utilization of energy are realized to the greatest extent; then, the rotation assisting motor 69 is started, so that the rotation assisting driving gear 70 rotates to drive the rotation assisting driven gear 71 to rotate, so that the rotation assisting rotating shaft 72 rotates, so that the whole pre-acting passive space covering dust capturing unit 1 rotates synchronously, and sufficient bubble liquid is adhered to the space capturing medium generating member 7 and the space capturing medium generating micropores 8, so that a large amount of bubbles are generated through the space capturing medium generating micropores 8 during the rotation, foam generated by the passive rotation of the space capturing medium generating member 7 is used as an intermediary, a large amount of foam uniformly floats in the whole space of the wall surface polishing, and by utilizing the good covering, wetting and adhering characteristics of the foam, after the polishing dust contacts the foam, the polishing dust becomes wet and the self-mass is increased, so that the dust does not float any more but falls, and then the capturing of the dust is completed, the technical problem that the prior art is difficult to solve that dust is captured in the whole wall polishing area under the passive condition is solved; the water pump 27 is started, so that the water in the circulating water tank 30 is pressurized and flushed into the negative pressure generating pipe 26 through the circulating action input pipe 28, the circulating action water pump 27 and the circulating action output pipe 29, negative pressure is formed above the intervention type Venturi pipe 25 when water flows through the negative pressure generating pipe 26 due to the Venturi principle, dust falling after contacting foam in the grinding environment is sucked through the intervention type Venturi pipe 25 and flows into the circulating water tank 30 through the circulating action negative pressure generating pipe 26, the dust is obviously not dispersed in the air again, when the water in the circulating water tank 30 needs to be changed, the water tank cover 31 is opened for replacement, obviously, through the setting of the intervention type omnibearing absorption and circulation action unit 2, under the condition of no intervention of any equipment such as an air pump and the like, the absorption of wall grinding dust with better effect is still realized, the intervention type Venturi tube 25 is used as an intermediary substance, and according to the Bernoulli principle, the intervention type Venturi tube 25 generates negative pressure at the narrow part of the pipeline to cause dust to be sucked into the pipeline, so that the technical problem of omnibearing dust absorption under the condition of suction equipment without an air pump and the like which is difficult to solve in the prior art is solved in a breakthrough manner; when the polishing depth of the wall surface polishing grinding wheel 55 needs to be finely adjusted, the polishing adjusting motor 57 is started, then the polishing adjusting gear 58 rotates to drive the polishing adjusting rack 59 to slide along the rack guide rod 60, and the machine body of the wall surface polishing motor 56 is driven to synchronously move, so that the wall surface polishing grinding wheel 55 synchronously and slowly moves, and the fine adjustment of the wall surface polishing grinding wheel 55 is realized, when another indoor wall surface needs to be polished, the polishing direction adjusting motor 65 is started, then the polishing direction changing gear 66 rotates, then the polishing support frame 63 is driven to rotate through the polishing direction adjusting teeth 64, the polishing direction adjusting motor 65 is controlled to rotate the polishing support frame 63 by ninety degrees, then the polishing adjusting motor 57 is adjusted to drive the polishing grinding wheel 55 to contact with the wall surface, when the wall surface with different heights needs to be polished, the electric hydraulic push rod 45 is started, and the output end of the electric hydraulic push rod 45 is controlled to extend outwards, then, the push rod is driven to connect the transmission column 49 for synchronous movement, so that the lifting transmission member 50 rotates around a hinge point with the transmission member overturning seat 53, then the lifting driving slider 51 moves synchronously, the lifting driving slider 51 is arranged in the sliding waist-shaped groove 52 in a sliding manner, then the lifting transmission member 50 drives the lifting connecting frame 54 to lift through the lifting driving slider 51 when rotating, the lifting connecting frame 54 slides along the lifting guide rail 47 by means of the lifting sliding plate 48, the lifting adjustment of the polishing unit 5 is realized, and the wall surface polishing grinding wheel 55 can be conveniently polished at different heights of the wall surface.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. Preaction passive form dust space catches and absorbs integrative wall polisher, its characterized in that: covering dust capture unit (1), the all-round absorption circulation of formula of intervention and acting on unit (2), the unit (3) that advances is born a burden from the motion to the dead in advance, lift adjustment unit (4), burnishing and polishing unit (5) and dust capture rotatory auxiliary unit (6) including the passive form space of pre-action, on the all-round absorption circulation of intervention unit (2) is located the unit (3) that advances is born a burden from the motion to the dead in advance, lift adjustment unit (4) are located on the all-round absorption circulation of intervention unit (2), on lift adjustment unit (4) is located in dust capture rotatory auxiliary unit (6), the passive form space of pre-action covers dust capture unit (1) and locates on dust capture rotatory auxiliary unit (6), burnishing and polishing unit (5) are located on lift adjustment unit (4).

2. A pre-action passive dust space capture and absorption integrated wall sander as set forth in claim 1, wherein: the pre-acting passive space coverage dust capturing unit (1) comprises a space capturing medium generating part (7), space capturing medium generating micropores (8), a passive conversion water wheel (9), a water wheel rotating shaft (10), a conveying belt (11), a first conveying wheel (12), a second conveying wheel (13), a conversion generator (14), side supporting plates (15), a siphon conveying pipe (16), a siphon fixing frame (17), a siphon initial container (18), an elevating platform (19), a dust capturing unit base (20), a liquid turnover tank (21), a turnover water pump (22), a turnover input pipe (23) and a turnover output pipe (24), wherein the dust capturing unit base (20) is arranged on the dust capturing rotary auxiliary unit (6), the liquid turnover tank (21) is arranged on the dust capturing unit base (20), and the side supporting plates (15) are fixedly connected on the liquid turnover tank (21), the utility model discloses a siphon generator, including water wheel pivot (10), passive conversion water wheels (9), transmission wheel pivot (10), transfer wheel one (12), transfer wheel two (13), set up on water wheel pivot (10), the fuselage of conversion generator (14) is located on dust capture unit base (20), transfer wheel two (13) are located on conversion generator (14), transfer belt (11) are located on transfer wheel one (12) and transfer wheel two (13), set up on elevating platform (19) rigid coupling on dust capture unit base (20), siphon initial container (18) is located on elevating platform (19), mount (17) rigid coupling on siphon initial container (18), siphon conveyer pipe (16) rigid coupling is on siphon mount (17), the bottom of the initial container of siphon (18) is located to the one end of siphon conveyer pipe (16), the other end of siphon conveyer pipe (16) extends to the top of passive conversion water wheels (9), the fuselage of turnover water pump (22) is located on the outer wall of dust capture unit base (20), turnover input tube (23) are connected between turnover water pump (22) and liquid turnover groove (21), turnover output tube (24) are connected between turnover water pump (22) and the initial container of siphon (18), the passive formula space cover dust capture unit of preaction (1) is equipped with two sets ofly.

3. A pre-action passive dust space capture and absorption integrated wall sander as set forth in claim 2, wherein: the intervention type omnibearing absorption and circulation action unit (2) comprises an intervention type Venturi tube (25), a circulation action negative pressure generating tube (26), a circulation action water pump (27), a circulation action input tube (28), a circulation action output tube (29), a circulation water tank (30), a water tank cover (31) and a circulation action unit supporting base (32), wherein the circulation action unit supporting base (32) is arranged on a self-moving load advancing unit (3), the circulation action negative pressure generating tube (26) is arranged on the circulation action unit supporting base (32), the intervention type Venturi tube (25) is arranged on the circulation action negative pressure generating tube (26) in an array manner, the intervention type Venturi tube (25) is communicated with the circulation action negative pressure generating tube (26), the circulation water tank (30) is arranged on the circulation action unit supporting base (32), and the water tank cover (31) is arranged on the circulation water tank (30), the fuselage of circulation effect water pump (27) is located on the outer wall of circulation tank (30), circulation effect input tube (28) are connected between circulation effect water pump (27) and circulation tank (30), circulation effect output tube (29) are located between circulation effect negative pressure generating pipe (26) and circulation effect water pump (27), the one end intercommunication of circulation effect negative pressure generating pipe (26) is located on circulation tank (30).

4. A pre-action passive dust space capture and absorption integrated wall sander as set forth in claim 3, wherein: the self-moving load forward unit (3) comprises a triangular moving support frame (33), a side auxiliary support plate (34), a forward unit support seat (35), a forward unit operation groove (36), a forward driving motor (37), a bevel gear I (38), a bevel gear II (39), a bevel gear rotating shaft I (40), a bevel gear rotating shaft II (41), a forward driving swing rod (42), a forward auxiliary swing rod I (43) and a forward auxiliary swing rod II (44), wherein the forward unit support seat (35) is fixedly connected to the circulation action unit support base (32), the forward unit operation groove (36) is formed in the forward unit support seat (35), a machine body of the forward driving motor (37) is arranged on the forward unit operation groove (36), the bevel gear rotating shaft I (40) is arranged at the output end of the forward driving motor (37), and the bevel gear I (38) is arranged on the bevel gear rotating shaft I (40), the bevel gear rotating shaft II (41) is rotatably arranged on the advancing unit operation groove (36), the bevel gear II (39) is arranged on the bevel gear rotating shaft II (41), the advancing driving swing rod (42) is fixedly connected to the bevel gear rotating shaft II (41), the triangular motion supporting frame (33) is arranged on the advancing driving swing rod (42), one end of the advancing auxiliary swing rod I (43) is hinged to the advancing unit supporting seat (35), the other end of the advancing auxiliary swing rod I (43) is hinged to the triangular motion supporting frame (33), one end of the advancing auxiliary swing rod II (44) is hinged to the advancing unit supporting seat (35), the other end of the advancing auxiliary swing rod II (44) is hinged to the triangular motion supporting frame (33), the advancing driving swing rod (42), the advancing auxiliary swing rod I (43) and the advancing auxiliary swing rod II (44) are respectively arranged on three corners of the triangular motion supporting frame (33), the side auxiliary supporting plate (34) is arranged on the triangular movement supporting frame (33).

5. The pre-action passive dust space capture and absorption integrated wall sander of claim 4, wherein: the lifting adjusting unit (4) comprises an electric hydraulic push rod (45), a push rod base (46), a lifting guide rail (47), a lifting sliding plate (48), a push rod connecting transmission column (49), a lifting transmission piece (50), a lifting driving sliding block (51), a sliding waist-shaped groove (52), a transmission piece overturning seat (53) and a lifting connecting frame (54), wherein the lifting guide rail (47) is fixedly connected to the circulation action unit supporting base (32), the lifting sliding plate (48) is embedded and slidably arranged on the lifting guide rail (47), the push rod base (46) is fixedly connected to the bottom of the lifting guide rail (47), the transmission piece overturning seat (53) is fixedly connected to the circulation action unit supporting base (32), the lifting transmission piece (50) is hinged to the transmission piece overturning seat (53), and the lifting connecting frame (54) is fixedly connected to the lifting sliding plate (48), the both sides of going up and down link (54) are located in slip waist type groove (52), the one end gomphosis of lift drive slider (51) slides and locates on slip waist type groove (52), the other end of lift drive slider (51) is located on lift driving medium (50), transmission post (49) rigid coupling is connected between lift driving medium (50) to the push rod, the bottom of electronic hydraulic pressure push rod (45) articulates on push rod base (46), the output of electronic hydraulic pressure push rod (45) is located on push rod connection transmission post (49), the loop action negative pressure generates pipe (26) and locates the outside of lift guide rail (47) and driving medium upset seat (53), lift driving medium (50), lift drive slider (51), slip waist type groove (52) and driving medium upset seat (53) are equipped with two sets ofly.

6. The pre-action passive dust space capture and absorption integrated wall sander of claim 5, wherein: the polishing unit (5) comprises a wall surface polishing grinding wheel (55), a wall surface polishing motor (56), a polishing adjusting motor (57), a polishing adjusting gear (58), a polishing adjusting rack (59), a rack guide rod (60), a polishing operation groove (61), a polishing support shell (62), a polishing support frame (63), a polishing direction adjusting gear (64), a polishing direction adjusting motor (65), a polishing direction changing gear (66), a sliding polishing guide block (67) and a polishing sliding groove (68), wherein the body of the polishing direction adjusting motor (65) is arranged on the lifting connecting frame (54), the polishing direction changing gear (66) is arranged on the output shaft of the polishing direction adjusting motor (65), the polishing support frame (63) is rotatably arranged on the lifting connecting frame (54), and the polishing direction adjusting gear (64) is arranged on the side wall of the polishing support frame (63) in a surrounding manner, the polishing machine is characterized in that the polishing direction adjusting teeth (64) and the polishing direction changing gears (66) are meshed and connected, the polishing supporting shell (62) is fixedly connected onto a polishing supporting frame (63), the polishing running groove (61) is formed in the polishing supporting shell (62), the machine body of the polishing adjusting motor (57) is arranged on the polishing running groove (61), the polishing adjusting gear (58) is arranged on an output shaft of the polishing adjusting motor (57), the rack guide rod (60) is arranged on the polishing running groove (61), the polishing adjusting rack (59) is arranged on the rack guide rod (60) in a penetrating and sliding mode, the polishing adjusting gear (58) is meshed and connected with the polishing adjusting rack (59), the machine body of the wall surface polishing motor (56) is fixedly connected onto the polishing adjusting rack (59), the polishing grinding wheel (55) is arranged on the output shaft of the wall surface polishing motor (56), polishing sliding groove (68) are arranged on polishing supporting shell (62), sliding polishing guide block (67) is fixedly connected to polishing supporting frame (63), and polishing supporting shell (62) is arranged on sliding polishing guide block (67) in a sliding mode through embedding of polishing sliding groove (68).

7. The pre-action passive dust space capture and absorption integrated wall sander of claim 6, wherein: rotatory auxiliary unit (6) is caught to dust includes rotatory auxiliary motor (69), rotatory auxiliary drive gear (70), rotatory auxiliary driven gear (71) and rotatory auxiliary pivot (72), the fuselage of rotatory auxiliary motor (69) is located on lift link (54), rotatory auxiliary drive gear (70) are located on the output shaft of rotatory auxiliary motor (69), the one end of rotatory auxiliary pivot (72) is rotated and is located on lift link (54), the other end rigid coupling of rotatory auxiliary pivot (72) is on unit base (20) is caught to the dust, rotatory auxiliary driven gear (71) are located on rotatory auxiliary pivot (72), meshing connection between rotatory auxiliary drive gear (70) and the rotatory auxiliary driven gear (71).

8. The pre-action passive dust space capture and absorption integrated wall sander of claim 7, wherein: the space catching medium generating piece (7) is in a hollow waist shape.

9. The pre-action passive dust space capture and absorption integrated wall sander of claim 8, wherein: the conversion generator (14) is electrically connected with the circulating water pump (22).

10. The pre-action passive dust space capture and absorption integrated wall sander of claim 9, wherein: the lifting transmission part (50) is V-shaped.

Images