CN111905948A

CN111905948A - Municipal administration is with trees device of applying paint with a brush

Info

Publication number: CN111905948A
Application number: CN202010861072.0A
Authority: CN
Inventors: 黄逸
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-11-10

Abstract

The invention relates to the municipal field, in particular to a tree brushing device for municipal administration. The technical problem of the invention is as follows: a municipal tree painting device is provided. The technical scheme is as follows: a municipal tree brushing device comprises an annular brushing mechanism, an operation control mechanism, a tree burl brushing mechanism and a pushing handspike; the lower part of the vehicle body is connected with wheels; the upper part of the vehicle body is sequentially connected with the first liquid storage tank, the opening top cover and the operation control screen; the vehicle body is connected with the pushing hand lever; the vehicle body is connected with the second liquid storage tank. The invention realizes the synchronous separated spraying of the white protection area and the red mark area on the trunk surface of the pavement tree, so that the red area and the white area can not be mutually blended, the lime water and the red paint can not be mixed together and flow down from the trunk surface, and the effect of painting the lime water on the surface of the tree tumor and the interior of the tree tumor on the trunk surface can be realized.

Description

Municipal administration is with trees device of applying paint with a brush

Technical Field

The invention relates to the municipal field, in particular to a tree brushing device for municipal administration.

Background

Municipal works refer to municipal infrastructure construction works.

The street tree is a tree which is planted at two sides of a road and in a vehicle dividing zone, shades vehicles and pedestrians and forms a street view.

At present, the aim of painting the surface of a street tree is to eliminate overwintering pests in the tree bark and prevent the pests from laying eggs on the tree, and the street tree has the effects of freezing prevention, heat preservation, deinsectization and the like, in the prior art, the surface of the street tree is often painted manually, a red marking area is also painted at the top end of a lime water protective layer, when the street tree is painted manually, due to the error of hands, the white painting area and the red painting area are overlapped when the street tree is painted manually, so that a red-white boundary line is blended, the color difference of the blended area is generated, meanwhile, the amount of paint cannot be accurately controlled when the street tree is painted manually, after part of the paint is painted on the tree, the red paint flows from top to bottom, the red paint flows to the white paint area, the color of the white area is disordered, the attractiveness of two sides of a road is damaged, and part of a trunk has a tree, there is a tree tumour hole in the tree tumour, and manual work is applied paint and is unable to carry out accurate the operation of applying paint with a brush to this type of tree tumour, and tree tumour surface and tree tumour hole can't be covered with paint with a brush, and then has led to the pest to get into the trunk through the tree tumour hole inside and have led to the fact the corruption to the trunk, and there are not uneven, the deformity scheduling problem of growing thickness of co-altitude in some trees trunks simultaneously, need carry out repeated application of paint with a brush many times to some deformity trunk surfaces when manual work is applied paint with a brush, and it.

In view of the above, we propose a tree brushing device for municipal use.

Disclosure of Invention

In order to overcome the defects that when manual painting is carried out and a brush is used for manual painting, due to the error of hands, a white painting area and a red painting area are overlapped, a red-white boundary is blended, the blending area generates color difference, meanwhile, the amount of paint cannot be accurately controlled when the brush is used for manual painting, after part of paint is brushed on a tree, the paint flows from top to bottom, the red paint flows to the white paint area, the color of the white area is disordered, the attractiveness of two sides of a highway is damaged, part of the tree trunk has burrs, a burr hole is formed in the burrs, the manual painting cannot carry out accurate painting operation on the burrs, the outer surface of the burrs and the burr hole cannot be covered and painted, further, pests can enter the tree trunk through the burr hole to corrode the tree trunk, and meanwhile, the tree trunks of some trees have different heights and uneven growth thicknesses, The technical problems of deformity and the like, the defects of large manpower consumption, long time consumption and low efficiency caused by repeated brushing on the surface of some malformed trunks during manual brushing, and the invention has the technical problems that: a municipal tree painting device is provided.

The technical scheme is as follows: a municipal tree brushing device comprises a vehicle body, wheels, an opening top cover, an operation control screen, a first liquid storage tank, a second liquid storage tank, a surrounding brushing mechanism, an operation control mechanism, a tree knot brushing mechanism and a pushing handspike; the lower part of the vehicle body is connected with wheels; the upper part of the vehicle body is sequentially connected with the first liquid storage tank, the opening top cover and the operation control screen; the vehicle body is connected with the pushing hand lever; the vehicle body is connected with the second liquid storage tank; the vehicle body is connected with the surrounding brushing mechanism; the vehicle body is connected with the operation control mechanism; the operation control mechanism is connected with the surrounding brushing mechanism; the vehicle body is connected with the tree nodule brushing mechanism; the tree stump brushing mechanism is connected with the operation control mechanism.

In a preferred embodiment of the invention, the surrounding brushing mechanism comprises a rotating disc, a first linkage rod, a first collecting slide block, a first rectangular chute plate, a second linkage rod, a first push block, a second collecting slide block, a third linkage rod, a second push block, a control cylindrical rod, a first spraying brush, a first spraying control mechanism, a second spraying control mechanism, a first limiting chute plate and a second rectangular chute plate; the rotating disc is rotatably connected with the first linkage rod; the first linkage rod is rotationally connected with the first collecting rod; one side of the first collecting rod is rotationally connected with the first collecting slide block, and the other side of the first collecting rod is rotationally connected with the second collecting slide block; the first set sliding block is in sliding connection with the first rectangular sliding groove plate; the first set sliding block is rotationally connected with the second linkage rod; the second linkage rod is inserted with the first push block; the first push block is connected with the first spraying control mechanism; the second set sliding block is rotationally connected with the third linkage rod; the second set sliding block is in sliding connection with the second rectangular sliding groove plate; the third linkage rod is inserted with the second push block; the second push block is connected with the second spraying control mechanism; the outer surface of the control cylindrical rod is sequentially connected with the first spraying brush, the first spraying control mechanism and the second spraying control mechanism; the lower part of the control cylindrical rod is in sliding connection with the first limiting sliding groove plate; the lower part of the first limiting chute plate is connected with the vehicle body; the first spraying control mechanism is connected with the vehicle body; the second spraying control mechanism is connected with the vehicle body; the first rectangular chute plate is connected with the vehicle body; the second rectangular chute plate is connected with the vehicle body; the rotating disc is connected with the vehicle body; the first spraying control mechanism is connected with the operation control mechanism; the upper part of the rotating disc is connected with the operation control mechanism; the upper part of the first rectangular chute plate is connected with the operation control mechanism.

In a preferred embodiment of the present invention, the operation control mechanism comprises a power motor, a first driving wheel, a second driving wheel, a first electric push rod, a first bevel gear, a second bevel gear, a first collecting frame plate, a third driving wheel, a first bearing frame, a first driving gear, a second electric push rod, a second collecting frame plate, a second driving gear, a third bevel gear, a fourth bevel gear and a third driving gear; an output shaft of the power motor is rotationally connected with the first driving wheel; the outer ring surface of the first driving wheel is in transmission connection with a second driving wheel and a first bevel gear in sequence through a belt; the outer ring surface of the second driving wheel is in transmission connection with the first bevel gear through a belt; the second driving wheel is connected with the first electric push rod; the lower part of the first electric push rod is connected with the first collecting frame plate; the rear side axle center of the first bevel gear is connected with the first collecting frame plate; the first bevel gear is meshed with the second bevel gear; the lower part of the power motor is connected with the first collecting frame plate; the lower part of the second bevel gear is connected with the first collecting frame plate; the outer ring surface of the first driving wheel is in transmission connection with a third driving wheel through a belt; the third driving wheel is connected with the first bearing frame; the outer ring surface of the third driving wheel is in transmission connection with the first driving gear through a belt; the first transmission gear is connected with the second electric push rod; the second electric push rod is connected with the first collecting frame plate; the first collecting frame plate is connected with the second collecting frame plate; a third transmission gear is arranged below the second electric push rod; the third transmission gear is connected with the first collecting frame plate; the second collecting frame plate is connected with a second transmission gear; the rear side of the outer ring surface of the second transmission gear is in transmission connection with a third bevel gear through a belt; the third bevel gear is connected with the first collecting frame plate; the third bevel gear is meshed with the fourth bevel gear; the left side of the outer surface of the fourth bevel gear is connected with the first collecting frame plate; the second collective frame plate is connected with the first rectangular chute plate; the first collective frame plate is connected with the vehicle body; the axis of the fourth bevel gear is connected with the first spraying control mechanism; the lower part of the third transmission gear is connected with the rotating disc; the lower axis of the second bevel gear is connected with a tree knot brushing mechanism; the lower part of the first collective frame plate is connected with the tree nodule brushing mechanism.

In a preferred embodiment of the invention, the tree nodule brushing mechanism comprises a first limiting slide bar, a first screw rod, a positioning spraying mechanism and a collecting bearing seat; the lower part of the first limiting slide bar is inserted into the integrated bearing seat; the upper part of the integrated bearing seat is rotationally connected with the first screw rod; the outer surface of the first screw rod is in sliding connection with the positioning spraying mechanism; the inner side of the positioning spraying mechanism is connected with a first limiting slide rod in a sliding manner; the lower part of the integrated bearing seat is connected with the vehicle body; the upper part of the first limiting slide bar is connected with the first collecting frame plate; the upper part of the first screw rod is connected with a first collecting frame plate; the upper part of the first screw rod is connected with a second bevel gear.

In a preferred embodiment of the present invention, the first spraying control mechanism comprises a first rotating shaft rod, a fourth driving wheel, a fifth driving wheel, a sixth driving wheel, a first connecting frame, a second screw rod, a second limiting sliding column, a first internal thread sliding block, a first arc-shaped partition plate, a seventh driving wheel, a second connecting frame, a third limiting sliding column, a third screw rod, a second internal thread sliding block, a second arc-shaped partition plate, a penetrating arc-shaped sliding rail, a penetrating sliding block, a first elastic telescopic rod and a second spraying brush; the outer surface of the first rotating shaft rod is sequentially sleeved with the fourth driving wheel and the fifth driving wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the right side of the outer surface of the sixth driving wheel is connected with the first connecting frame; the axis of the sixth transmission wheel is rotationally connected with the second screw rod; the outer surface of the second screw rod is in sliding connection with the first internal thread sliding block; the first connecting frame is inserted with the second limiting sliding column; the first internal thread sliding block is connected with the first arc-shaped partition plate; the outer ring surface of the fourth driving wheel is in transmission connection with the seventh driving wheel through a belt; the left side of the outer surface of the seventh transmission wheel is connected with the second connecting frame; the axle center of the seventh transmission wheel is rotationally connected with the third screw rod; the second connecting frame is spliced with a third limiting sliding column; the outer surface of the third screw rod is in sliding connection with the second internal thread sliding block; the second internal thread sliding block is connected with the second arc-shaped partition plate; the second arc-shaped partition plate is connected with the penetrating arc-shaped sliding rail; the penetrating arc-shaped sliding rail is connected with the first connecting frame; the inner side of the penetrating arc-shaped slide rail is in sliding connection with the penetrating slide block; a second spraying brush is arranged above the penetrating sliding block; the inserting sliding block is connected with the first elastic telescopic rod; the first elastic telescopic rod is connected with the first push block; the outer surface of the first rotating shaft rod is connected with the vehicle body; the first rotating shaft rod is connected with the fourth bevel gear; the penetrating arc-shaped slide rail is connected with the vehicle body; the inner side of the inserting slide block is connected with the control cylindrical rod; the inner side of the second spray brush is connected with the control cylindrical rod.

In a preferred embodiment of the invention, the positioning spraying mechanism comprises a collection control disc, an internal thread sliding seat, a third electric push rod, a sponge ball, a propulsion control sliding plate, a first arc-shaped connection liquid storage box, a fan-shaped spray head, a connection sliding rod and an inclined sliding rail groove plate; the integrated control disc is connected with the internal thread sliding seat through a bolt; the integrated control disc is inserted with a third electric push rod; the third electric push rod is connected with the sponge ball; the outer surface of the third electric push rod is connected with the propulsion control sliding plate; the propulsion control sliding plate is in sliding connection with the first arc-shaped connection liquid storage box; the first arc-shaped connection liquid storage box is spliced with the fan-shaped spray head; the first arc-shaped connecting liquid storage box is connected with the connecting slide rod; the connecting slide rod is connected with the inclined slide rail groove plate in a sliding manner; the inclined slide rail groove plate is connected with the integrated control disc; the inner side of the internal thread sliding seat is connected with a first limiting sliding rod; the inner side of the internal thread sliding seat is connected with the first screw rod.

In a preferred embodiment of the invention, the first spraying control mechanism comprises an outer sleeve fixing block, a brush body liquid storage box, a liquid feeding pipe, flexible brush bristles and a liquid spraying pipe head; the outer sleeve fixing block is connected with the brush body liquid storage box; the brush body liquid storage box is inserted with the liquid feeding pipe; the brush body liquid storage box is connected with the flexible brush bristles; the brush body liquid storage box is connected with the liquid spraying pipe head; the inner side of the outer sleeve fixing block is connected with the control cylindrical rod.

In a preferred embodiment of the present invention, the front side surfaces of the first arc-shaped partition plate and the second arc-shaped partition plate are provided with absorbent pads capable of absorbing liquid.

In a preferred embodiment of the invention, a T-shaped sliding block is arranged at one side of the sliding connection between the connecting sliding rod and the inclined sliding rail groove plate.

In a preferred embodiment of the present invention, the first and second spray control mechanisms have the same internal structure.

The invention has the following advantages: firstly, in order to solve the problems that when manual painting is carried out, when a brush is manually used for painting, due to errors of hands, a white painting area and a red painting area can be overlapped, red and white boundary lines are blended, the blending area generates color difference, meanwhile, when the brush is manually used for painting, the amount of paint can not be accurately controlled, after part of the paint is brushed on a tree, the paint flows from top to bottom, the red paint flows to the white paint area, the color of the white area is disordered, the attractiveness of two sides of a road is damaged, part of the tree trunk has burrs, one burr hole exists in the burrs, the manual painting can not accurately paint the burrs, the outer surface of the burrs and the burr hole can not be covered and painted, further, pests can enter the tree trunk through the burr hole to corrode the tree trunk, and meanwhile, some tree trunks have different heights and uneven thicknesses, The problems of deformity and the like, the problems of large manpower consumption, long time consumption and low efficiency are caused by repeated brushing on the surface of some deformed trunks during manual brushing;

when the spraying device is used, the operation control mechanism drives the surrounding brushing mechanism to spray the outer surface of the street tree, the white protection area and the red mark area are synchronously sprayed in a separated mode, one third of the circumference of the outer surface of the street tree, namely one hundred and twenty degrees, is sprayed for three times to finish the spraying of the surface of the tree, and then the operation control mechanism can be controlled to drive the tree ridge brushing mechanism to spray the tree ridges on the surface of the trunk;

and thirdly, synchronous separated spraying of the white protection area and the red mark area on the trunk surface of the pavement tree is realized, so that the red area and the white area are prevented from mutually blending, lime water and red paint are prevented from being mixed together and flowing down from the trunk surface, and the lime water is coated on the surface of the tree tumor on the trunk surface and the interior of the tree tumor.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic structural view of a circular brushing mechanism of the present invention;

FIG. 4 is a schematic view of the operational control mechanism of the present invention;

FIG. 5 is a schematic structural view of a knurl brushing mechanism of the present invention;

FIG. 6 is a schematic structural view of a first spray control mechanism according to the present invention;

FIG. 7 is a schematic perspective view of a positioning and spraying mechanism according to the present invention;

FIG. 8 is a perspective view of a second spray brush according to the present invention;

fig. 9 is a schematic perspective view of the penetrating arc-shaped slide rail according to the present invention.

The meaning of the reference symbols in the figures: 1: vehicle body, 2: wheel, 3: opening the top cover, 4: operation control screen, 5: a first reservoir, 6: a second reservoir, 7: surrounding brushing mechanism, 8: operation control mechanism, 9: knub coating mechanism, 10: push handle, 701: rotating disk, 702: first linkage rod, 703: first collector bar, 704: first set slider, 705: first rectangular chute plate, 706: second linkage rod, 707: first push block, 708: second set slider, 709: third link rod, 7010: second push block, 7011: control cylinder rod, 7012: first spray brush, 7013: first spray control mechanism, 7014: second spray control mechanism, 7015: first limit runner plate, 7016: second rectangular chute plate, 801: power motor, 802: first drive wheel, 803: second drive wheel, 804: first electric putter, 805: first bevel gear, 806: second bevel gear, 807: first manifold plate, 808: third transmission wheel, 809: first bearing holder, 8010: first transmission gear, 8011: second electric putter, 8012: second manifold plate, 8013: second transmission gear, 8014: third bevel gear, 8015: fourth bevel gear, 8016: third transmission gear, 901: first limit slide bar, 902: first lead screw, 903: positioning spraying mechanism, 904: collective bearing seat, 701301: first spindle shaft, 701302: fourth transmission wheel, 701303: fifth transmission wheel, 701304: sixth drive wheel, 701305: first link frame, 701306: second lead screw, 701307: second limit spool, 701308: first internally threaded slider, 701309: first arc-shaped partition plate, 701310: seventh drive wheel, 701311: second link, 701312: third limit spool, 701313: third lead screw, 701314: second internally threaded slider, 701315: second arc-shaped partition plate, 701316: through type arc slide rail, 701317: penetration slider, 701318: first elastic telescopic rod, 701319: second spray brush, 90301: collective control disk, 90302: internal thread sliding seat, 90303: third electric putter, 90304: sponge ball, 90305: propulsion control slide, 90306: first arc connection stock solution box, 90307: fan spray, 90308: connecting slide bar, 90309: inclined slide rail groove plate, 70131901: jacket fixation block, 70131902: brush body reservoir, 70131903: filling tube, 70131904: flexible bristles, 70131905: a liquid spraying pipe head.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example 1

A municipal tree brushing device is shown in figures 1-9 and comprises a vehicle body 1, wheels 2, an opening top cover 3, an operation control screen 4, a first liquid storage tank 5, a second liquid storage tank 6, a surrounding brushing mechanism 7, an operation control mechanism 8, a tree knot brushing mechanism 9 and a pushing handspike 10; the lower part of the vehicle body 1 is connected with wheels 2; the upper part of the vehicle body 1 is sequentially connected with a first liquid storage tank 5, an opening top cover 3 and an operation control screen 4; the vehicle body 1 is connected with a pushing hand lever 10; the vehicle body 1 is connected with a second liquid storage tank 6; the vehicle body 1 is connected with a surrounding brushing mechanism 7; the vehicle body 1 is connected with an operation control mechanism 8; the operation control mechanism 8 is connected with the surrounding brushing mechanism 7; the vehicle body 1 is connected with a tree ridge brushing mechanism 9; the tree knot brushing mechanism 9 is connected with the operation control mechanism 8.

When the municipal tree painting device is used, firstly, the device pushes the whole device, namely a vehicle body 1 to move to the side of a street tree to be painted by pushing a hand lever 10 and wheels 2, the device is moved and fixed to the street tree painting position, then a storage battery is connected externally, then a power supply of a power system in the device is switched on, an operation control screen 4 is manually opened, a top cover 3 is opened, lime water and red paint are respectively added into a second liquid storage tank 6 and a first liquid storage tank 5, the second liquid storage tank 6 and the first liquid storage tank 5 are connected to the appointed position of a surrounding painting mechanism 7 through a connecting hose, then a power supply of the operation control mechanism 8 is switched on, and then the surrounding painting mechanism 7 is driven by the operation control mechanism 8 to paint the outer surface of the street tree, a white protection area and a red marking area are synchronously sprayed and one third of the outer surface of the street tree is sprayed each time, the spraying is carried out for three times at one hundred twenty degrees to finish the spraying on the surface of the tree, then the operation control mechanism 8 can be controlled to drive the knurl brushing mechanism 9 to spray the knurls on the surface of the trunk, the synchronous separated spraying of the white protection area and the red mark area on the surface of the trunk of the pavement tree is realized, the red area and the white area can not be mutually blended, the lime water and the red paint can not be mixed together to flow down from the surface of the trunk, and the effect of brushing the lime water on the surface of the knurl and the inside of the knurl can be realized.

The surrounding brushing mechanism 7 comprises a rotating disc 701, a first linkage rod 702, a first collecting rod 703, a first collecting slide block 704, a first rectangular chute plate 705, a second linkage rod 706, a first push block 707, a second collecting slide block 708, a third linkage rod 709, a second push block 7010, a control cylindrical rod 7011, a first spraying brush 7012, a first spraying control mechanism 7013, a second spraying control mechanism 7014, a first limiting chute plate 7015 and a second rectangular chute plate 7016; the rotating disc 701 is rotatably connected with the first linkage rod 702; the first linkage rod 702 is rotatably connected with the first collecting rod 703; one side of the first aggregation rod 703 is rotationally connected with the first aggregation slider 704, and the other side of the first aggregation rod 703 is rotationally connected with the second aggregation slider 708; the first set sliding block 704 is connected with the first rectangular sliding groove plate 705 in a sliding manner; the first set sliding block 704 is rotationally connected with the second linkage rod 706; the second linkage rod 706 is inserted into the first pushing block 707; the first push block 707 is connected with a first spraying control mechanism 7013; the second aggregate slider 708 is rotatably connected to the third link 709; the second set of sliders 708 is slidably connected to the second rectangular chute plate 7016; the third linkage rod 709 is inserted into the second pushing block 7010; the second pushing block 7010 is connected with a second spraying control mechanism 7014; the outer surface of the control cylindrical rod 7011 is sequentially connected with a first spray brush 7012, a first spray control mechanism 7013 and a second spray control mechanism 7014; the lower part of the control cylindrical rod 7011 is in sliding connection with a first limiting sliding groove plate 7015; the lower part of the first limit chute plate 7015 is connected with the vehicle body 1; the first spraying control mechanism 7013 is connected with the vehicle body 1; the second spraying control mechanism 7014 is connected with the vehicle body 1; the first rectangular chute plate 705 is connected with the vehicle body 1; the second rectangular chute plate 7016 is connected to the vehicle body 1; the rotating disc 701 is connected with the vehicle body 1; the first spraying control mechanism 7013 is connected with the operation control mechanism 8; the upper part of the rotating disc 701 is connected with an operation control mechanism 8; the upper side of the first rectangular chute plate 705 is connected with the operation control mechanism 8.

Firstly, the first liquid storage tank 5 is communicated with the first spraying brush 7012 through a connecting hose, the second liquid storage tank 6 is communicated with the first spraying control mechanism 7013 and the second spraying control mechanism 7014, firstly, the fourth bevel gear 8015 is controlled to drive the first spraying control mechanism 7013 to operate, then the first spraying control mechanism 7013 operates to separate red and white coating areas, then the third transmission gear 8016 is controlled to drive the rotating disc 701 to rotate, then the rotating disc 701 drives the first linkage rod 702 to rotate, then the first linkage rod 702 drives the first gathering rod 703 to realize left-right reciprocating motion, further the first gathering rod 703 simultaneously drives the first gathering slider 704 and the second gathering slider 708 to respectively realize left-right sliding on the inner sides of the first rectangular chute plate 7016 and the second rectangular chute plate 7016, further the first gathering slider 705 and the second gathering slider 705 respectively drive the second linkage rod 706 and the third linkage rod 709 to realize left-right motion, and then the second linkage rod 706 and the third linkage rod 709 drive the first pushing block 707 and the second pushing block 7010 to do left-right reciprocating motion respectively, then the first pushing block 707 and the second pushing block 7010 drive the first spraying control mechanism 7013 and the second spraying control mechanism 7014 to operate respectively, after finishing spraying for one time, the vehicle body 1 is rotated by one hundred twenty degrees around the trunk by pushing the hand lever 10 and the wheels 2 manually, spraying is performed for three times continuously, then one circle of trunk outer ring of three hundred sixty degrees is coated, and then the coating of the white protection area and the red mark area on the trunk surface is finished.

The operation control mechanism 8 comprises a power motor 801, a first transmission wheel 802, a second transmission wheel 803, a first electric push rod 804, a first bevel gear 805, a second bevel gear 806, a first aggregate frame plate 807, a third transmission wheel 808, a first bearing frame 809, a first transmission gear 8010, a second electric push rod 8011, a second aggregate frame plate 8012, a second transmission gear 8013, a third bevel gear 8014, a fourth bevel gear 8015 and a third transmission gear 8016; an output shaft of the power motor 801 is rotatably connected with the first transmission wheel 802; the outer annular surface of the first driving wheel 802 is in transmission connection with a second driving wheel 803 and a first bevel gear 805 in sequence through a belt; the outer annular surface of the second driving wheel 803 is in transmission connection with a first bevel gear 805 through a belt; the second driving wheel 803 is connected with the first electric push rod 804; the lower part of the first electric push rod 804 is connected with a first collective frame plate 807; the rear axle center of the first bevel gear 805 is connected with a first collective frame plate 807; first bevel gear 805 meshes with second bevel gear 806; the lower part of the power motor 801 is connected with a first collective frame plate 807; a first manifold plate 807 is connected below the second bevel gear 806; the outer ring surface of the first driving wheel 802 is in transmission connection with a third driving wheel 808 through a belt; the third driving wheel 808 is connected with the first bearing frame 809; the outer annular surface of the third driving wheel 808 is in driving connection with the first driving gear 8010 through a belt; the first transmission gear 8010 is connected with the second electric push rod 8011; a second electric push rod 8011 is connected with the first manifold plate 807; the first manifold plate 807 is connected to the second manifold plate 8012; a third transmission gear 8016 is arranged below the second electric push rod 8011; third transfer gear 8016 is coupled to first manifold plate 807; the second manifold plate 8012 is coupled to the second drive gear 8013; the rear side of the outer ring surface of the second transmission gear 8013 is in transmission connection with a third bevel gear 8014 through a belt; a third bevel gear 8014 is connected to the first manifold plate 807; third bevel gear 8014 meshes with fourth bevel gear 8015; the left side of the outer surface of the fourth bevel gear 8015 is connected with the first manifold plate 807; the second manifold plate 8012 is coupled to the first rectangular chute plate 705; the first collective frame plate 807 is connected to the vehicle body 1; the axis of the fourth bevel gear 8015 is connected with the first spraying control mechanism 7013; the lower part of the third transmission gear 8016 is connected with the rotating disc 701; the axle center below the second bevel gear 806 is connected with the tree stump brushing mechanism 9; the lower part of the first collective frame plate 807 is connected with the tree stump brushing mechanism 9.

Firstly, after the device is externally connected with a storage battery, a power supply of a power motor 801 is switched on under the control of an operation control screen 4, then the power motor 801 drives a first driving wheel 802 to rotate, then the first driving wheel 802 simultaneously drives a second driving wheel 803 and a third driving wheel 808 to rotate, then a second electric push rod 8011 is controlled by the operation control screen 4 to push out and drive the first driving gear 8010 to move to a position where the first driving gear 8010 is meshed with a second driving gear 8013, then a belt connected between the third driving wheel 808 and the first driving gear 8010 is tightened, then the third driving wheel 808 drives a first driving gear 8010 to rotate, then the first driving gear 8010 drives a second driving gear 8013 to rotate, then the first driving gear 8010 drives a third bevel gear 8014 to rotate, then the third bevel gear 8014 drives a fourth bevel gear 8015 to rotate, then the fourth bevel gear 8015 drives a surrounding brushing mechanism 7 to perform a fixing operation, after the fixing is finished, the second electric push rod 8011 is controlled to contract to drive the first transmission gear 8010 to move to a position where the first transmission gear 8016 is meshed with the second transmission gear 8016, then the first transmission gear 8010 and the third transmission gear 8016 rotate, at this time, the third transmission gear 8016 drives the surrounding brushing mechanism 7 to brush the trunk in a surrounding manner, then the operation control panel 4 controls the first electric push rod 804 to push out upwards, so that the first electric push rod 804 drives the second transmission wheel 803 to move upwards, the second transmission wheel 803 tightens the belt connected between the first transmission wheel 802 and the first bevel gear 805, so that the first transmission wheel 802 drives the first bevel gear 805 to rotate, then the first bevel gear 805 drives the second bevel gear 806 to rotate, and the second bevel gear 806 drives the tree ridge brushing mechanism 9 to brush the tree ridge part on the trunk, thereby completing the operation control of the whole device.

The tree knot painting mechanism 9 comprises a first limiting slide bar 901, a first screw rod 902, a positioning painting mechanism 903 and an aggregate bearing seat 904; the lower part of the first limit sliding rod 901 is inserted into the integrated bearing seat 904; the upper part of the collection bearing seat 904 is rotationally connected with the first screw rod 902; the outer surface of the first screw rod 902 is in sliding connection with a positioning spraying mechanism 903; the inner side of the positioning spraying mechanism 903 is in sliding connection with a first limiting slide bar 901; the lower part of the integrated bearing seat 904 is connected with the vehicle body 1; the upper part of the first limiting slide bar 901 is connected with a first collective frame plate 807; the upper part of the first screw rod 902 is connected with a first collective frame plate 807; the second bevel gear 806 is connected above the first lead screw 902.

Firstly, lime water in the second liquid storage tank 6 is added into the positioning and spraying mechanism 903, then the hand lever 10 is pushed manually to control the vehicle body 1 to move through the wheel 2 driving device, then the second bevel gear 806 drives the first lead screw 902 to rotate, and then the first lead screw 902 drives the positioning and spraying mechanism 903 to slide up and down on the surface of the first limiting slide bar 901, so that the tree ridge brushing mechanism 9 is aligned to the tree ridge on the trunk, the tree ridge is brushed, and then the lime water brushing on the tree trunk surface tree ridge in the street is completed.

The first spraying control mechanism 7013 includes a first pivot rod 701301, a fourth driving wheel 701302, a fifth driving wheel 701303, a sixth driving wheel 701304, a first connecting frame 701305, a second lead screw 701306, a second limiting sliding column 701307, a first internal thread sliding block 701308, a first arc-shaped partition plate 701309, a seventh driving wheel 701310, a second connecting frame 701311, a third limiting sliding column 701312, a third lead screw 701313, a second internal thread sliding block 701314, a second arc-shaped partition plate 701315, a penetrating arc-shaped sliding rail 701316, a penetrating sliding block 701317, a first elastic expansion rod 701318 and a second spraying brush 701319; the outer surface of the first rotating shaft rod 701301 is sequentially sleeved with a fourth driving wheel 701302 and a fifth driving wheel 701303; the outer annular surface of the fifth driving wheel 701303 is in driving connection with a sixth driving wheel 701304 through a belt; the right side of the outer surface of the sixth driving wheel 701304 is connected with a first connecting frame 701305; the axle center of the sixth driving wheel 701304 is rotationally connected with the second screw rod 701306; the outer surface of the second lead screw 701306 is in sliding connection with the first internal thread slider 701308; the first connecting frame 701305 is spliced with the second limiting sliding column 701307; the first internal thread slider 701308 is connected with the first arc-shaped partition plate 701309; the outer annular surface of the fourth driving wheel 701302 is in driving connection with a seventh driving wheel 701310 through a belt; the left side of the outer surface of the seventh driving wheel 701310 is connected with a second connecting frame 701311; the axle center of the seventh driving wheel 701310 is rotationally connected with the third screw rod 701313; the second connecting frame 701311 is spliced with the third limiting sliding column 701312; the outer surface of the third lead screw 701313 is in sliding connection with a second internal thread slider 701314; the second internal thread slider 701314 is connected with the second arc-shaped partition plate 701315; the second arc-shaped partition plate 701315 is connected with the through arc-shaped slide rail 701316; the penetrating arc-shaped slide rail 701316 is connected with the first connecting frame 701305; the inner side of the penetrating arc-shaped slide rail 701316 is in sliding connection with the penetrating slide block 701317; a second spraying brush 701319 is arranged above the penetrating sliding block 701317; the penetrating slide block 701317 is connected with the first elastic expansion link 701318; the first elastic telescopic rod 701318 is connected with the first push block 707; the outer surface of the first pivot shaft 701301 is connected with the vehicle body 1; the first pivot lever 701301 is connected to the fourth bevel gear 8015; the penetrating arc-shaped slide rail 701316 is connected with the vehicle body 1; the inner side of the penetrating slide block 701317 is connected with the control cylindrical rod 7011; the inside of the second scrubber 701319 is attached to a control cylinder 7011.

After the positioning and fixing of the whole device are completed, first, the fourth bevel gear 8015 drives the first rotating shaft lever 701301 to rotate, then the first rotating shaft lever 701301 drives the fourth driving wheel 701302 and the fifth driving wheel 701303 to rotate, then the fifth driving wheel 701303 drives the sixth driving wheel 701304 to rotate, further the sixth driving wheel 701304 drives the second lead screw 701306 to rotate, then the second lead screw 701306 rotates to drive the first female screw slider 701308 to slide leftwards on the surfaces of the second lead screw 701306 and the second limiting sliding column 701307, further the first female screw slider 701308 drives the first arc-shaped partition plate 701309 to move leftwards, meanwhile, the fourth driving wheel 701302 drives the third lead screw 701313 to rotate, then the third lead screw 701313 rotates to drive the second female screw slider 701314 to move rightwards, namely, the second female screw slider 701314 slides rightwards on the surfaces of the third limiting sliding column 701312 and the third lead screw 701313, further the second female screw slider 701314 drives the second arc-shaped partition plate 701315 to move rightwards, then, the trunk is located between the first arc-shaped partition plate 701309 and the second arc-shaped partition plate 701315, then the motor is controlled to rotate reversely, and further the first arc-shaped partition plate 701309 is driven to move rightwards again, and simultaneously the second arc-shaped partition plate 701315 moves leftwards, and further the first arc-shaped partition plate 701309 and the second arc-shaped partition plate 701315 are clamped by the trunk, at this time, the position above the first arc-shaped partition plate 701309 and the second arc-shaped partition plate 701315 is a red region to be painted, the region below the first arc-shaped partition plate 701309 and the second arc-shaped partition plate 701315 is a white region to be painted, then the first arc-shaped partition plate 701309 and the second arc-shaped partition plate 701315 are controlled to be stationary and fixed, then the first push block 707 drives the first elastic expansion link 701318 to reciprocate leftwards and rightwards, and then the first elastic expansion link 701318 drives the insertion slider 701317 to reciprocate left, when the penetrating slider 701317 slides in the penetrating arc-shaped slide rail 701316, since the track of the penetrating arc-shaped slide rail 701316 is arc-shaped, the first elastic telescopic rod 701318 extends, and the penetrating slider 701317 is attached to the inner arc surface of the penetrating arc-shaped slide rail 701316 to rotate, the penetrating slider 701317 drives the second spraying brush 701319 and the first spraying brush 7012 to rotate around the trunk as a rotation center through the control cylindrical rod 7011 to perform spraying and painting, then the areas above the first arc-shaped partition plate 701309 and the second arc-shaped partition plate 701315 are painted red by the first spraying brush 7012, the areas below the first arc-shaped partition plate 701309 and the second arc-shaped partition plate 701315 are painted white by the second spraying brush 701319 and the second spraying control mechanism 7014, and painting of the trunk surface is completed.

The positioning spraying mechanism 903 comprises a collection control disc 90301, an internal thread sliding seat 90302, a third electric push rod 90303, a sponge ball 90304, a propulsion control sliding plate 90305, a first arc-shaped connection liquid storage box 90306, a fan-shaped spray head 90307, a connection sliding rod 90308 and an inclined sliding rail slot plate 90309; the integrated control disc 90301 is in bolted connection with the internal thread sliding seat 90302; the integrated control disc 90301 is inserted into a third electric push rod 90303; the third electric push rod 90303 is connected with the sponge ball 90304; the outer surface of the third electric push rod 90303 is connected with a propulsion control slide plate 90305; the propulsion control slide 90305 is in sliding connection with the first arc-shaped connection liquid storage box 90306; the first arc-shaped connection liquid storage box 90306 is spliced with the fan-shaped spray head 90307; the first arc-shaped connecting liquid storage box 90306 is connected with the connecting slide bar 90308; the connecting slide bar 90308 is in sliding connection with the inclined slide rail groove plate 90309; the inclined slide rail trough plate 90309 is connected with the integrated control disc 90301; the inner side of the internal thread sliding seat 90302 is connected with the first limiting sliding rod 901; the inner side of the internal thread sliding seat 90302 is connected with the first lead screw 902.

Firstly, enough lime water is added into the four groups of first arc-shaped connected liquid storage boxes 90306, the sponge balls 90304 absorb enough lime water, then the vehicle body 1 is moved manually, the sponge balls 90304 are aligned with tree nodule pits on the surface of tree nodules, then the third electric push rod 90303 is controlled to be slowly pushed out through the operation control screen 4, then the third electric push rod 90303 drives the sponge balls 90304 to go deep into the tree nodule pits, meanwhile, the third electric push rod 90303 drives the first arc-shaped connected liquid storage box 90306 to move forwards through the pushing control sliding plate 90305, further, the first arc-shaped connected liquid storage box 90306 drives the connecting sliding rod 90308 to slide forwards on the inner side of the inclined sliding rail slot 90309, as the inclined sliding rail slot 90309 is inclined, the process that the connecting sliding rod 90308 slides forwards inside the inclined sliding rail slot 90309 drives the first arc-shaped connected liquid storage box 90306 to slide outwards above the pushing control sliding plate 90305, further, and the four groups of first arc-shaped connected liquid storage boxes 90306 move, the inner diameters of the four groups of first arc-shaped connection liquid storage boxes 90306 are enlarged, and then the four groups of fan-shaped spray heads 90307 spray lime water on the surface of the tree knots, so that the lime water spraying on the surface of the tree knots and the inner parts of the tree knot pits is completed.

The first spraying control mechanism 7013 comprises a jacket fixing block 70131901, a brush body liquid storage box 70131902, a liquid feeding pipe 70131903, flexible bristles 70131904 and a liquid spraying pipe head 70131905; the jacket fixing block 70131901 is connected with the brush body liquid storage box 70131902; the brush body liquid storage box 70131902 is inserted into the liquid feeding pipe 70131903; the brush body liquid storage box 70131902 is connected with the flexible brush bristles 70131904; the brush body liquid storage box 70131902 is connected with the liquid spraying pipe head 70131905; the inner side of the outer sleeve fixing block 70131901 is connected with the control cylinder 7011.

The liquid adding pipe 70131903 is connected to the second liquid storage tank 6 through a hose, then the lime water in the second liquid storage tank 6 enters the brush body liquid storage box 70131902 from the liquid adding pipe 70131903, then the lime water is sprayed out to the surface of the trunk from the liquid spraying pipe head 70131905, meanwhile, the control cylindrical rod 7011 drives the brush body liquid storage box 70131902 and the flexible brush bristles 70131904 to brush around the surface of the trunk through the outer sleeve fixing block 70131901, and then the lime water sprayed out to the surface of the trunk from the liquid spraying pipe head 70131905 is uniformly brushed.

The front side surfaces of the first and second

arc partition plates

701309 and 701315 are provided with absorbent pads that can absorb liquid.

So that the absorbent pad prevents paint from flowing down and mixing with the white lime water.

One side of the connecting slide bar 90308, which is slidably connected with the inclined slide rail groove plate 90309, is provided with a T-shaped slide block.

So that the connecting slide bar 90308 can not be separated from the inner part of the inclined slide rail groove plate 90309, and stable sliding is ensured.

The first spray control mechanism 7013 and the second spray control mechanism 7014 have the same internal structure.

So that to there are not uniform, the deformity scheduling problem of the not co-altitude growth of some trees trunks, set up two spraying equipment that can independently install the regulation, meet after the above-mentioned condition only need replace some mechanism can, improve the flexibility of device.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. The utility model provides a device is applied paint with a brush to trees for municipal administration, including automobile body (1), wheel (2) and open top cap (3), characterized by: the device also comprises an operation control screen (4), a first liquid storage tank (5), a second liquid storage tank (6), a surrounding brushing mechanism (7), an operation control mechanism (8), a tree knot brushing mechanism (9) and a pushing handspike (10); the lower part of the vehicle body (1) is connected with wheels (2); the upper part of the vehicle body (1) is sequentially connected with a first liquid storage tank (5), an opening top cover (3) and an operation control screen (4); the vehicle body (1) is connected with a pushing hand lever (10); the vehicle body (1) is connected with a second liquid storage tank (6); the vehicle body (1) is connected with the surrounding brushing mechanism (7); the vehicle body (1) is connected with the operation control mechanism (8); the operation control mechanism (8) is connected with the surrounding brushing mechanism (7); the vehicle body (1) is connected with the tree stump brushing mechanism (9); the tree knot brushing mechanism (9) is connected with the operation control mechanism (8).

2. A municipal tree brushing device according to claim 1, wherein the surrounding brushing mechanism (7) comprises a rotating disc (701), a first linkage rod (702), a first gathering rod (703), a first gathering slider (704), a first rectangular chute plate (705), a second linkage rod (706), a first push block (707), a second gathering slider (708), a third linkage rod (709), a second push block (7010), a control cylinder rod (7011), a first spray brush (7012), a first spray control mechanism (7013), a second spray control mechanism (7014), a first limiting chute plate (7015) and a second rectangular chute plate (7016); the rotating disc (701) is rotatably connected with the first linkage rod (702); the first linkage rod (702) is rotationally connected with the first collecting rod (703); one side of the first aggregation rod (703) is rotationally connected with the first aggregation sliding block (704), and the other side of the first aggregation rod (703) is rotationally connected with the second aggregation sliding block (708); the first set sliding block (704) is in sliding connection with the first rectangular sliding groove plate (705); the first set sliding block (704) is rotationally connected with the second linkage rod (706); the second linkage rod (706) is inserted into the first pushing block (707); the first push block (707) is connected with a first spraying control mechanism (7013); the second set sliding block (708) is rotationally connected with the third linkage rod (709); the second set sliding block (708) is in sliding connection with the second rectangular sliding groove plate (7016); the third linkage rod (709) is inserted into the second pushing block (7010); the second push block (7010) is connected with a second spraying control mechanism (7014); the outer surface of the control cylindrical rod (7011) is sequentially connected with a first spraying brush (7012), a first spraying control mechanism (7013) and a second spraying control mechanism (7014); the lower part of the control cylindrical rod (7011) is in sliding connection with a first limiting sliding groove plate (7015); the lower part of the first limiting sliding chute plate (7015) is connected with the vehicle body (1); the first spraying control mechanism (7013) is connected with the vehicle body (1); the second spraying control mechanism (7014) is connected with the vehicle body (1); the first rectangular chute plate (705) is connected with the vehicle body (1); the second rectangular chute plate (7016) is connected with the vehicle body (1); the rotating disc (701) is connected with the vehicle body (1); the first spraying control mechanism (7013) is connected with the operation control mechanism (8); the upper part of the rotating disc (701) is connected with an operation control mechanism (8); the upper part of the first rectangular chute plate (705) is connected with an operation control mechanism (8).

3. A municipal tree brushing device according to claim 2, wherein the operation control means (8) comprises a power motor (801), a first transmission wheel (802), a second transmission wheel (803), a first electric push rod (804), a first bevel gear (805), a second bevel gear (806), a first aggregate plate (807), a third transmission wheel (808), a first bearing frame (809), a first transmission gear (8010), a second electric push rod (8011), a second aggregate plate (8012), a second transmission gear (8013), a third bevel gear (8014), a fourth bevel gear (8015) and a third transmission gear (8016); an output shaft of the power motor (801) is rotationally connected with the first transmission wheel (802); the outer annular surface of the first transmission wheel (802) is in transmission connection with a second transmission wheel (803) and a first bevel gear (805) in sequence through a belt; the outer annular surface of the second driving wheel (803) is in transmission connection with the first bevel gear (805) through a belt; the second driving wheel (803) is connected with the first electric push rod (804); the lower part of the first electric push rod (804) is connected with a first collective plate (807); the rear shaft center of the first bevel gear (805) is connected with a first collective frame plate (807); the first bevel gear (805) is meshed with the second bevel gear (806); the lower part of the power motor (801) is connected with a first collective frame plate (807); the lower part of the second bevel gear (806) is connected with a first manifold plate (807); the outer ring surface of the first driving wheel (802) is in transmission connection with a third driving wheel (808) through a belt; the third driving wheel (808) is connected with the first bearing frame (809); the outer ring surface of the third driving wheel (808) is in transmission connection with the first driving gear (8010) through a belt; the first transmission gear (8010) is connected with the second electric push rod (8011); the second electric push rod (8011) is connected with the first manifold plate (807); the first collecting frame plate (807) is connected with the second collecting frame plate (8012); a third transmission gear (8016) is arranged below the second electric push rod (8011); a third transmission gear (8016) is connected with the first manifold plate (807); the second manifold plate (8012) is connected with the second transmission gear (8013); the rear side of the outer ring surface of the second transmission gear (8013) is in transmission connection with a third bevel gear (8014) through a belt; the third bevel gear (8014) is connected with the first manifold plate (807); the third bevel gear (8014) is meshed with the fourth bevel gear (8015); the left side of the outer surface of the fourth bevel gear (8015) is connected with a first manifold plate (807); the second manifold plate (8012) is connected with the first rectangular chute plate (705); the first collective frame plate (807) is connected with the vehicle body (1); the axis of the fourth bevel gear (8015) is connected with a first spraying control mechanism (7013); the lower part of the third transmission gear (8016) is connected with the rotating disc (701); the lower axis of the second bevel gear (806) is connected with the tree knot brushing mechanism (9); the lower part of the first collective frame plate (807) is connected with a tree knot brushing mechanism (9).

4. A municipal tree brushing device according to claim 3, wherein the tree ridge brushing mechanism (9) comprises a first limit slide bar (901), a first lead screw (902), a positioning spraying mechanism (903) and a collection bearing seat (904); the lower part of the first limiting sliding rod (901) is inserted into the integrated bearing seat (904); the upper part of the integrated bearing seat (904) is rotationally connected with a first screw rod (902); the outer surface of the first screw rod (902) is in sliding connection with a positioning spraying mechanism (903); the inner side of the positioning spraying mechanism (903) is in sliding connection with a first limiting slide bar (901); the lower part of the integrated bearing seat (904) is connected with the vehicle body (1); the upper part of the first limiting slide bar (901) is connected with a first collective frame plate (807); the upper part of the first screw rod (902) is connected with a first collective plate (807); the upper part of the first screw rod (902) is connected with a second bevel gear (806).

5. A municipal tree brushing device according to claim 4, wherein the first spraying control mechanism (7013) comprises a first rotating shaft rod (701301), a fourth driving wheel (701302), a fifth driving wheel (701303), a sixth driving wheel (701304), a first connecting frame (701305), a second lead screw (701306), a second limiting sliding column (701307), a first internal thread slider (701308), a first arc-shaped partition plate (701309), a seventh driving wheel (701310), a second connecting frame (701311), a third limiting sliding column (701312), a third lead screw (701313), a second internal thread slider (701314), a second arc-shaped partition plate (701315), a penetrating arc-shaped sliding rail (701316), a penetrating slider (701317), a first elastic telescopic rod (701318) and a second spraying brush (701319); the outer surface of the first rotating shaft rod (701301) is sequentially sleeved with a fourth driving wheel (701302) and a fifth driving wheel (701303); the outer ring surface of the fifth driving wheel (701303) is in transmission connection with a sixth driving wheel (701304) through a belt; the right side of the outer surface of the sixth driving wheel (701304) is connected with the first connecting frame (701305); the axle center of the sixth driving wheel (701304) is rotationally connected with the second screw rod (701306); the outer surface of the second screw rod (701306) is in sliding connection with the first internal thread slider (701308); the first connecting frame (701305) is spliced with the second limiting sliding column (701307); the first internal thread slider (701308) is connected with the first arc-shaped partition plate (701309); the outer ring surface of the fourth driving wheel (701302) is in transmission connection with a seventh driving wheel (701310) through a belt; the left side of the outer surface of the seventh driving wheel (701310) is connected with a second connecting frame (701311); the axle center of the seventh driving wheel (701310) is rotationally connected with the third screw rod (701313); the second connecting frame (701311) is spliced with the third limiting sliding column (701312); the outer surface of the third screw rod (701313) is in sliding connection with a second internal thread slider (701314); the second internal thread slider (701314) is connected with the second arc-shaped partition plate (701315); the second arc-shaped partition plate (701315) is connected with the penetrating arc-shaped slide rail (701316); the penetrating arc-shaped slide rail (701316) is connected with the first connecting frame (701305); the inner side of the penetrating arc-shaped slide rail (701316) is in sliding connection with the penetrating slide block (701317); a second spraying brush (701319) is arranged above the penetrating sliding block (701317); the penetrating sliding block (701317) is connected with the first elastic telescopic rod (701318); the first elastic telescopic rod (701318) is connected with the first push block (707); the outer surface of the first rotating shaft rod (701301) is connected with the vehicle body (1); the first rotating shaft rod (701301) is connected with the fourth bevel gear (8015); the penetrating arc-shaped slide rail (701316) is connected with the vehicle body (1); the inner side of the penetrating sliding block (701317) is connected with the control cylindrical rod (7011); the inner side of the second spray brush (701319) is connected with a control cylindrical rod (7011).

6. A municipal tree brushing device according to claim 5, characterized in that the positioning spraying mechanism (903) comprises a collective control disc (90301), an internal thread sliding seat (90302), a third electric push rod (90303), a sponge ball (90304), a propulsion control sliding plate (90305), a first arc-shaped connecting liquid storage box (90306), a fan-shaped spray head (90307), a connecting sliding rod (90308) and an inclined sliding rail trough plate (90309); the integrated control disc (90301) is in bolted connection with the internal thread sliding seat (90302); the collection control disc (90301) is inserted into a third electric push rod (90303); the third electric push rod (90303) is connected with the sponge ball (90304); the outer surface of the third electric push rod (90303) is connected with a propulsion control sliding plate (90305); the propulsion control slide plate (90305) is in sliding connection with the first arc-shaped connection liquid storage box (90306); the first arc-shaped connection liquid storage box (90306) is spliced with the fan-shaped spray head (90307); the first arc-shaped connection liquid storage box (90306) is connected with the connection sliding rod (90308); the connecting slide bar (90308) is in sliding connection with the inclined slide rail groove plate (90309); the inclined slide rail slot plate (90309) is connected with the collection control disc (90301); the inner side of the internal thread sliding seat (90302) is connected with a first limiting sliding rod (901); the inner side of the internal thread sliding seat (90302) is connected with a first screw rod (902).

7. A municipal tree brushing device according to claim 6, wherein the first spraying control mechanism (7013) comprises a jacket fixing block (70131901), a brush body liquid storage box (70131902), a liquid feeding pipe (70131903), flexible bristles (70131904) and a liquid spraying pipe head (70131905); the jacket fixing block (70131901) is connected with the brush body liquid storage box (70131902); the brush body liquid storage box (70131902) is inserted into the liquid feeding pipe (70131903); the brush body liquid storage box (70131902) is connected with the flexible brush bristles (70131904); the brush body liquid storage box (70131902) is connected with the liquid spraying pipe head (70131905); the inner side of the outer sleeve fixing block (70131901) is connected with the control cylindrical rod (7011).

8. A municipal tree brushing device according to claim 7, wherein the front side surfaces of the first arcuate divider plate (701309) and the second arcuate divider plate (701315) are provided with absorbent pads capable of absorbing liquid.

9. A municipal tree brushing device according to claim 8, wherein one side of the connecting slide bar (90308) slidably connected to the inclined slide rail channel plate (90309) is provided with a T-shaped slider.

10. A municipal tree brushing device according to claim 9, wherein the first spray control means (7013) and the second spray control means (7014) have the same internal structure.