CN114411514A - Concrete road surface crack fills and rolls polishing all-in-one - Google Patents

Abstract

The invention relates to the related field of pavement repair, in particular to a concrete pavement crack filling, rolling and polishing integrated machine which comprises a movable base, a rotary platform and four groups of two-shaft translation mechanisms, wherein the output ends of the four groups of two-shaft translation mechanisms are sequentially connected with a cutting machine, a crusher, a cleaning mechanism and a leveling mechanism; the cleaning mechanism comprises a vertical lifter and a rotating cylinder, and a plurality of shovel hoppers are fixedly connected to the outer cylindrical wall of the rotating cylinder; the floating mechanism comprises an elastic lifting piece and a rotary floating piece. Firstly, the pressure of the rotary plastering piece on the surface of the concrete can be controlled to be slowly increased through the elastic lifting piece, so that larger pressure cannot be generated on the surface of the concrete instantly, and the compacting and plastering effects on the concrete are better; secondly, the concrete raw materials are manually put in through the cooperation of the cutting machine, the crusher, the cleaning mechanism and the trowelling mechanism, one-time filling of cracks on the concrete pavement can be achieved, and the portability and the moving performance are excellent.

Description

Concrete road surface crack fills and rolls polishing all-in-one

Technical Field

The invention relates to the field of pavement repairing, in particular to a concrete pavement crack filling, rolling and polishing integrated machine.

Background

Concrete pavement refers to a pavement that is surfaced with a slab of cement concrete. The concrete pavement structure is a pavement structure which is formed by taking a concrete slab as a surface course and arranging a base course and a cushion course under the concrete slab, and is also called as a rigid pavement. The concrete pavement is generally composed of four parts, namely a roadbed, a base layer, a cushion layer and a surface layer, wherein the main material of the surface layer is concrete, and the surface layer is generally required to be wear-resistant, smooth, anti-skid, high in strength and the like. The cushion layer is arranged on a road with uncomfortable temperature and humidity, the aim is to change the structure of the road surface, and the base layer has the characteristics of strong deformation resistance, compression resistance, scouring resistance, firmness and the like. Most concrete pavements are easy to crack on the surface after being rolled for a long time to form cracks.

The traditional concrete pavement repairing device has the following defects: firstly, the most traditional concrete road surface patching device is to the large-scale repair car of large-scale pothole, or is mostly for consuming a large amount of manpowers to repair the road surface crack, the former cost is too high and be unfavorable for repairing small-size crack, the latter then relies on manual operation too much, the human cost is higher and efficiency is not high, consequently it is necessary to design a neotype concrete road surface crack to fill and roll and polish all-in-one in order to solve this type of problem.

Disclosure of Invention

Based on this, it is necessary to provide a concrete pavement crack filling, rolling and polishing all-in-one machine aiming at the problems in the prior art.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a concrete pavement crack filling, rolling and polishing integrated machine comprises a movable base, a rotary platform which is fixedly arranged at the front end of the top of the movable base in a horizontal state, and four groups of two-shaft translation mechanisms which are distributed along the axis of the rotary platform at equal angles, wherein the output ends of the four groups of two-shaft translation mechanisms are sequentially connected with a cutting machine, a crusher, a cleaning mechanism and a leveling mechanism;

the cleaning mechanism comprises a vertical lifting machine fixedly connected to the output end of the corresponding two-axis translation mechanism and a rotating cylinder which is connected with a feeding port at the bottom of the vertical lifting machine in a horizontal state in a shaft mode, and a plurality of shoveling hoppers which are distributed at equal angles relative to the axis of the rotating cylinder and are used for moving crushed aggregates into the feeding port of the vertical lifting machine are fixedly connected to the outer cylindrical wall of the rotating cylinder;

the floating mechanism comprises an elastic lifting piece fixedly arranged on the output end of the corresponding two-axis translation mechanism and a rotary floating piece fixedly arranged on the elastic lifting piece.

Preferably, the fixed frame that two-axis translation mechanism output bottom fixedly connected with of the floating mechanism of fixed connection is vertical state, fixed frame is including top diaphragm, middle part diaphragm and the mutual fixed connection of bottom diaphragm and three that from top to bottom interval set up, the top diaphragm is the fixed output bottom that sets up in corresponding two-axis translation mechanism of horizontality, elasticity lifter is including the top lifter plate and the bottom lifter plate and the two fixed connection that are the interval setting about the horizontality, the top lifter plate set up between middle part diaphragm and bottom diaphragm and with the two equal elastic sliding connection, rotatory floating piece is fixed to be set up on the bottom lifter plate.

Preferably, the rotary troweling member includes:

the driving motor is vertically downwards fixedly arranged at the center of the top of the bottom lifting plate, and an output shaft of the driving motor vertically downwards penetrates out of the bottom lifting plate;

the rotating disc is coaxially and fixedly arranged on an output shaft of the driving motor in a horizontal state and is positioned below the bottom lifting plate;

a plurality of troweling blades distributed around the axis of the rotating disk at equal angles, wherein each troweling blade is horizontally arranged below the outer side of the rotating disk and is fixedly connected with the rotating disk.

Preferably, the vertical lifting machine is a bucket type lifting machine, the vertical lifting machine is in a vertical state and is fixedly arranged at the bottom of the output end of the corresponding two-axis translation mechanism, the feed inlet of the vertical lifting machine is positioned at the bottom of one side, away from the rotating platform, of the vertical lifting machine, the bottom of the vertical lifting machine is provided with a fixed bottom plate for sealing, the fixed bottom plate extends and protrudes out of the vertical lifting machine towards one side close to the discharge outlet, the fixed bottom plate is further fixedly connected with a side shielding cover for sealing the feed inlet, the two ends of the rotating cylinder are connected onto the side walls of the side shielding cover in a shaft-to-shaft mode, one side of the vertical lifting machine protrudes out of a bottom driving shaft and a top driving shaft which are used for driving the hopper to move, and the bottom driving shaft is in a transmission mode and is connected with the bottom driving shaft, and one end of the rotating cylinder protrudes out of the side shielding cover and is in a transmission mode.

Preferably, the bottom of the output end of the two-axis translation mechanism of the fixedly connected cutting machine is fixedly connected with a first fixed frame and the bottom of the first fixed frame is also fixedly connected with a second fixed frame, the cutting machine is horizontally and fixedly arranged in the second fixed frame, and the cutting blade of the cutting machine is vertically and downwardly protruded at the bottom of the second fixed frame.

Preferably, the top transverse plate and the bottom transverse plate are fixedly connected through four connecting vertical posts which are symmetrically distributed between the top transverse plate and the bottom transverse plate, every two connecting transverse posts used for fixing the middle transverse plate are fixedly connected between every two connecting vertical posts at the same height in the middle of the connecting vertical posts, two groups of side connecting pieces which are symmetrically distributed and used for connecting corresponding side connecting transverse posts are fixedly connected on each side wall of the middle transverse plate, each group of the side connecting pieces comprises an L-shaped bottom connecting plate and an L-shaped top connecting plate, a vertical plate of the bottom connecting plate is fixedly connected with the corresponding side wall of the middle transverse plate, a transverse plate of the bottom connecting plate is fixedly connected with the bottom of the corresponding side connecting transverse post, a vertical plate of the top connecting plate is fixedly connected with the top end of the vertical plate, two vertical waist grooves which are symmetrically distributed and used for fixedly connecting with the top connecting plate are arranged at the top connecting plate, and a plurality of protective cover plates are fixedly connected among the four connecting vertical columns.

Preferably, four fixed upstands of symmetric distribution are fixedly connected with all around the top of bottom lifter plate, and the top fixedly connected with of four fixed upstands is located the connection diaphragm of driving motor top, connects between diaphragm and the jacking and falls the board through four symmetric distribution's connection vertical axis fixed connection and every connection vertical axis all through a fixed first linear bearing and the bottom diaphragm sliding connection that sets up on the bottom diaphragm, still four symmetric distribution's fixed vertical axis of fixedly connected with between middle part diaphragm and the bottom diaphragm, the top lifter plate slides through four second linear bearing that correspond to four fixed vertical axes one by one and sets up on four fixed vertical axes, every the lower extreme of fixed vertical axis all overlaps the bottom and the bottom diaphragm top fixed connection that are located first spring and first spring of top lifter plate below, every the upper end of fixed vertical axis all overlaps and is equipped with the top and the diaphragm bottom of the middle part diaphragm that are located second spring and second spring of top lifter plate top and second spring The fixed connection of portion, four still fixedly connected with a plurality of protection side cap and every protection side cap between the fixed upstand have all seted up a plurality of louvre.

Preferably, a plurality of one-to-one is corresponding to the connecting cross rod of a plurality of troweling blades on the bottom outer cylindrical wall of the rotating disc, every the top of each troweling blade is fixedly connected with a strip connecting piece fixedly connected with the corresponding connecting cross rod, and the top of each strip connecting piece and the bottom of the connecting cross rod bottom fixedly connected with the troweling blades are lower than the bottom of the rotating disc.

Preferably, the bottom of the bottom lifting plate is fixedly connected with a protective top cover used for shielding the periphery and the upper part of the plurality of troweling blades.

Preferably, all weld on the both ends lateral wall of rotatory drum and have a plurality of one-to-one to shovel the first engaging lug of hopper, every all weld on the both ends lateral wall of shovel hopper be used for with correspond first engaging lug fixed connection's second engaging lug, through a rectangle connecting plate fixed connection between first engaging lug and the second engaging lug.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the pressure of the rotary plastering piece on the surface of the concrete can be controlled to be slowly increased through the elastic lifting piece, so that larger pressure cannot be generated on the surface of the concrete instantly, and the compacting and plastering effects on the concrete are better;

secondly, the concrete raw materials are manually put in through the cooperation of the cutting machine, the crusher, the cleaning mechanism and the trowelling mechanism, one-time filling of cracks on the concrete pavement can be achieved, and the portability and the moving performance are excellent.

Drawings

Fig. 1 is a schematic perspective view of the embodiment.

Fig. 2 is a partial perspective view of the embodiment.

Fig. 3 is an enlarged view of a portion of a structure in fig. 2.

Fig. 4 is an enlarged view of a portion of the structure at B in fig. 2.

Fig. 5 is an exploded perspective view of the troweling mechanism of the embodiment.

Fig. 6 is an enlarged view of a portion of the structure at C in fig. 5.

Fig. 7 is a partial perspective exploded view of the troweling mechanism of the embodiment.

Fig. 8 is an enlarged view of a portion of the structure at D in fig. 7.

Fig. 9 is an enlarged view of a portion of the structure at E in fig. 7.

Fig. 10 is an exploded perspective view of the cleaning mechanism of the embodiment.

The reference numbers in the figures are:

1-moving the base; 2-a rotating platform; 3-a two-axis translation mechanism; 4-a cutter; 5-a crusher; 6-vertical hoisting machine; 7-rotating the cylinder; 8-shoveling the hopper; 9-a handle; 10-a control box; 11-top transverse plate; 12-a middle transverse plate; 13-bottom transverse plate; 14-jacking a descending plate; 15-bottom lifter plate; 16-a drive motor; 17-a rotating disc; 18-smoothing the leaves; 19-fixing the bottom plate; 20-side shielding cover; 21-bottom drive shaft; 22-top drive shaft; 23-a first fixed frame; 24-a second fixed frame; 25-connecting vertical columns; 26-connecting the transverse columns; 27-bottom connection plate; 28-top connection plate; 29-protective cover plate; 30-fixing the vertical column; 31-connecting the transverse plates; 32-connecting the vertical shaft; 33-a first linear bearing; 34-fixed vertical axis; 35-a second linear bearing; 36-a first spring; 37-a second spring; 38-protective side cover; 39-connecting the cross bar; 40-a strip connection; 41-protective top cover; 42-first connection lug; 43-a second engaging lug; 44-a rectangular connecting plate; 45-arc limiting plate.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 10, the concrete pavement crack filling, rolling and polishing integrated machine comprises a moving base 1, a rotating platform 2 which is fixedly arranged at the front end of the top of the moving base 1 in a horizontal state, and four groups of two-axis translation mechanisms 3 which are distributed along the axis of the rotating platform 2 at equal angles, wherein the output ends of the four groups of two-axis translation mechanisms 3 are sequentially connected with a cutting machine 4, a crushing machine 5, a cleaning mechanism and a leveling mechanism;

the cleaning mechanism comprises a vertical lifting machine 6 fixedly connected to the output end of the corresponding two-axis translation mechanism 3 and a rotating cylinder 7 which is connected with a feeding port at the bottom of the vertical lifting machine 6 in a horizontal state in a shaft mode, and a plurality of shoveling hoppers 8 which are distributed at equal angles relative to the axis of the rotating cylinder 7 and used for moving crushed aggregates into the feeding port of the vertical lifting machine 6 are fixedly connected to the outer cylindrical wall of the rotating cylinder 7;

the floating mechanism comprises an elastic lifting piece fixedly arranged on the output end of the corresponding two-axis translation mechanism 3 and a rotary floating piece fixedly arranged on the elastic lifting piece.

The crusher 5 is a hydraulic impact crusher 5, the crusher 5 is vertically and downwards fixedly arranged at the bottom of the output end of the corresponding two-axis translation mechanism 3, the moving base 1 is an electric or oil-driven trolley, one end of the moving base 1, which is far away from the rotating platform 2, is provided with a handle 9, the handle 9 is provided with a control box 10, the control box 10 can control the rotating platform 2 to rotate ninety degrees accurately through a built-in controller (not shown in the figure), the two-axis translation mechanism 3 comprises a vertical lifting mechanism fixedly arranged at a corresponding position outside the top of the rotating platform 2 and a translation mechanism fixedly arranged on the output end of the vertical lifting mechanism, the translation mechanism is arranged at one side of the vertical lifting mechanism, which is far away from the axis of the rotating platform 2, the output end of the two-axis translation mechanism 3 is the output end of the corresponding translation mechanism, and the control box 10 can also control the translation of each vertical lifting mechanism and the output end of the translation mechanism through the controller, the controller is also electrically connected with the cutting machine 4, the crusher 5, the cleaning mechanism and the trowelling mechanism, a waste material barrel (not shown in the figure), a concrete raw material (not shown in the figure) and a concrete manufacturing device (not shown in the figure) are arranged at one end, close to the handle 9, of the top of the movable base 1, a discharge port of the vertical elevator 6 is located on one side of the top of the movable base, a collecting bag (not shown in the figure) used for containing waste materials is detachably sleeved at the discharge port, when the road surface is repaired, the concrete condition of a road surface crack needs to be observed firstly, then the rotary platform 2 is rotated if necessary so that the cutting machine 4 can be matched with the movable base 1 to better cut the road surface, the crusher 5, the cleaning mechanism and the trowelling mechanism are used for matching with the rotary platform 2, the subsequent description is omitted, then the movable base 1 is used for matching with the corresponding two-shaft translation mechanism 3 and the cutting machine 4 to cut the contour of the corresponding shape around the crack, if a long-strip-shaped crack is cut into a slender rectangular outline along the periphery of the crack, then the inner pavement of the cut outline is crushed by using a movable base 1 matched with a corresponding two-axis translation mechanism 3 and a crusher 5, after the crushing is finished, the movable base 1 matched with a corresponding two-axis translation mechanism 3, a rotary cylinder 7 and a plurality of shovel hoppers 8 are used, waste materials in the cut outline are moved into a vertical lifting machine 6 through the rotation of the shovel hoppers 8, the waste materials are conveyed into a collecting bag by the vertical lifting machine 6, the waste materials in the collecting bag are conveyed into a waste material barrel for collection, the waste materials in the cut outline are treated, then a concrete manufacturing device is manually used to manufacture concrete with corresponding amount by matching with concrete raw materials and place the concrete in the cut outline, related tools are firstly used for carrying out uniform compaction operation on the concrete, so that the surface of the concrete can be in a roughly flat state, and finally, carrying out fine compaction and floating operation on the concrete in the cut outline by using the movable base 1 to match with the corresponding elastic lifting piece and the rotary floating piece.

Fixed connection trowels's 3 output end bottom fixedly connected with of diaxon translation mechanism is the fixed frame of vertical state, fixed frame is including top diaphragm 11, middle part diaphragm 12 and bottom diaphragm 13 and the mutual fixed connection of three that from top to bottom interval set up, top diaphragm 11 is the fixed output bottom that sets up in corresponding diaxon translation mechanism 3 of horizontality, elasticity lifter is including being the top lifter plate 14 and the bottom lifter plate 15 and the two fixed connection of interval setting about the horizontality, top lifter plate 14 set up between middle part diaphragm 12 and bottom diaphragm 13 and with the equal elastic sliding connection of the two, rotatory trowels is fixed to be set up on bottom lifter plate 15. Because removal base 1 and rotary platform 2 are higher than the road surface take the altitude, can suitably reduce the height of rotatory piece of smearing light through top diaphragm 11 cooperation middle part diaphragm 12 to make and correspond vertical elevating system and can fall the bottom of rotatory piece of smearing light below the ground height.

The rotatory piece of smoothing includes:

the driving motor 16 is vertically downwards fixedly arranged at the center of the top of the bottom lifting plate 15, and an output shaft of the driving motor 16 vertically downwards penetrates through the bottom lifting plate 15;

a rotating disc 17 coaxially and fixedly arranged on an output shaft of the driving motor 16 in a horizontal state and positioned below the bottom lifting plate 15;

a plurality of troweling blades 18 distributed around the axis of the rotating disk 17 at equal angles, wherein each troweling blade 18 is arranged below the outer side of the rotating disk 17 in a horizontal state, and the troweling blades 18 are fixedly connected with the rotating disk 17.

Driving motor 16 is connected with the controller electricity, can drive a plurality of troweling blade 18 and rotate round rotating disk 17 through rotating disk 17 after driving motor 16's the output shaft is rotatory to make a plurality of troweling blade 18 rotate at a high speed again and push down concrete surface after certain pressure with concrete surface pressure to the levelling state.

The vertical hoisting machine 6 is a bucket hoisting machine, the vertical hoisting machine 6 is fixedly arranged at the bottom of the output end of the corresponding two-shaft translation mechanism 3 in a vertical state, a feed inlet of the vertical hoisting machine 6 is positioned at the bottom of one side of the vertical hoisting machine 6 far away from the rotary platform 2, a fixed bottom plate 19 for sealing is arranged at the bottom of the vertical lifter 6, the fixed bottom plate 19 extends to one side close to the discharge hole and protrudes out of the vertical lifter 6, a side shielding cover 20 for sealing the feed hole is fixedly connected on the fixed bottom plate 19, two ends of the rotating cylinder 7 are axially arranged on the side walls at two sides of the side shielding cover 20, a bottom driving shaft 21 and a top driving shaft 22 for driving the hopper to operate protrude from one side of the vertical lifter 6, the bottom driving shaft 21 is in transmission connection with the top driving shaft 22, and one end of the rotating cylinder 7 protrudes from the side shielding cover 20 and is in transmission connection with the bottom driving shaft 21. The inside of side shielding cover 20 is fixedly connected with still is used for shoveling out the waste material to a plurality of shovel hopper 8 and blocks and spacing arc limiting plate 45, be equipped with in the feed inlet of vertical lifting machine 6 equally and be used for guaranteeing that the waste material is got rid of corresponding spacing part (not shown in the figure) in the hopper of vertical lifting machine 6, end drive shaft 21 can drive a drive shaft 22 and rotatory drum 7 rotation after rotatory, thereby make in a plurality of shovel hopper 8 rotatory back with the waste material shovel play and get rid of the hopper in vertical lifting machine 6, at last send the waste material to the collection bag of the 6 discharge gate department of vertical lifting machine by a plurality of hopper of vertical lifting machine 6 in.

The bottom of the output end of the two-axis translation mechanism 3 fixedly connected with the cutting machine 4 is fixedly connected with a first fixing frame 23, the bottom of the first fixing frame 23 is also fixedly connected with a second fixing frame 24, the cutting machine 4 is horizontally and fixedly arranged in the second fixing frame 24, and a cutting blade of the cutting machine 4 is vertically and downwardly protruded at the bottom of the second fixing frame 24. The first fixed frame 23 is convenient for being fixedly connected with the output end of the corresponding two-axis translation mechanism 3, the second fixed frame 24 is convenient for being connected with the first fixed frame 23 and the cutting machine 4, the first fixed frame 23 is matched with the second fixed frame 24 to properly reduce the height of the cutting machine 4, so that the corresponding two-axis translation mechanism 3 can drive the cutting machine 4 to reduce the height below the ground, and the cutting machine 4 is used for cutting the corresponding position of the road surface.

The top transverse plate 11 and the bottom transverse plate 13 are fixedly connected through four connecting vertical posts 25 symmetrically distributed between the two vertical posts, every two middle parts at the same height of the connecting vertical posts 25 are fixedly connected with a connecting transverse post 26 for fixing the middle transverse plate 12, each side wall of the middle transverse plate 12 is fixedly connected with two groups of side connecting pieces symmetrically distributed and used for connecting the corresponding side connecting transverse post 26, each group of side connecting pieces comprises an L-shaped bottom connecting plate 27 and an L-shaped top connecting plate 28, the vertical plate of the bottom connecting plate 27 is fixedly connected with the corresponding side wall of the middle transverse plate 12, the transverse plate of the bottom connecting plate 27 is fixedly connected with the bottom of the corresponding side connecting transverse post 26, the transverse plate of the top connecting plate 28 is fixedly connected with the top of the corresponding side connecting transverse post 26, and the vertical plate of the top connecting plate 28 is fixedly connected with the top end of the bottom connecting plate 27, two vertical waist grooves which are symmetrically distributed and are fixedly connected with the top connecting plate 28 are formed in the top end of the top connecting plate 28, and a plurality of protective cover plates 29 are fixedly connected among the four connecting vertical columns 25. The bottom connector is connected to the middle cross plate 12 and the corresponding connecting cross post 26, and then the corresponding top connector is used to fix the bottom connector on the corresponding connecting cross post 26, so that the vertical waist groove can be accurately connected with the bottom connector after the top connector is installed on the connecting cross post 26.

Four fixed vertical posts 30 which are symmetrically distributed are fixedly connected around the top of the bottom lifting plate 15, the top of the four fixed vertical posts 30 is fixedly connected with a connecting transverse plate 31 which is positioned above the driving motor 16, the connecting transverse plate 31 and the top lifting plate 14 are fixedly connected through four connecting vertical shafts 32 which are symmetrically distributed, each connecting vertical shaft 32 is in sliding connection with the bottom transverse plate 13 through a first linear bearing 33 which is fixedly arranged on the bottom transverse plate 13, four fixed vertical shafts 34 which are symmetrically distributed are also fixedly connected between the middle transverse plate 12 and the bottom transverse plate 13, the top lifting plate 14 is in sliding connection with the four fixed vertical shafts 34 through four second linear bearings 35 which are one-to-one corresponding to the four fixed vertical shafts 34, the lower end of each fixed vertical shaft 34 is sleeved with a first spring 36 which is positioned below the top lifting plate 14, and the bottom of the first spring 36 is fixedly connected with the top of the bottom transverse plate 13, every the upper end of fixed vertical axis 34 all overlaps and is equipped with the top and middle part diaphragm 12 bottom fixed connection, four of second spring 37 and second spring 37 that are located top lifter plate 14 top fixed vertical column 30 is gone back the protection side cap 38 of fixedly connected with a plurality of and all has seted up a plurality of louvre on every protection side cap 38. Because the rotary troweling member has a certain dead weight, in order to subsequently control the downward pressure degree of the rotary troweling member pressed on the concrete surface, a plurality of first springs 36 are used for bearing the dead weight of the rotary troweling member, when the rotary troweling member is lowered to the concrete surface, the pressure of the rotary troweling member on the concrete surface is gradually increased along with the continuous lowering of the output end of the corresponding vertical lifting mechanism, when the jacking falling plate 14 is completely separated from the top of the first springs 36, the dead weight of the rotary troweling member and the corresponding parts are completely pressed on the concrete surface, at the moment, the bottom of the second spring 37 is not contacted with the jacking falling plate 14, and after the output end of the corresponding vertical lifting mechanism is lowered, the second spring 37 is contacted with the jacking falling plate 14 and exerts a certain elastic force on the jacking falling plate 14, so that the pressure of the rotary troweling member below on the concrete surface is continuously increased, and the pressure of the rotary troweling member on the concrete surface can be controlled to be gradually increased from being close to zero, thereby better carrying out compaction and finishing operation on the concrete surface according to the actual situation.

Fixedly connected with a plurality of one-to-one on the outer cylinder wall in bottom of rotating disc 17 is connected the horizontal pole 39 of connecting of a plurality of troweling blade 18, every the equal fixedly connected with in top of troweling blade 18 is used for and corresponds rectangular connecting piece 40 that connects horizontal pole 39 and link firmly, the top of rectangular connecting piece 40 and the bottom of connecting horizontal pole 39 bottom fixed connection and troweling blade 18 are less than rotating disc 17 bottom. After the output shaft of the driving motor 16 drives the rotating disc 17 to rotate, the rotating disc 17 drives the plurality of connecting cross rods 39 to rotate, and then drives the plurality of troweling blades 18 to rotate through the plurality of strip-shaped connecting pieces 40.

The bottom of the bottom lifting plate 15 is fixedly connected with a protective top cover 41 for shielding the periphery and the upper part of the plurality of troweling blades 18.

All weld on the both ends lateral wall of rotatory drum 7 have a plurality of one-to-one to shovel the first engaging lug 42 of hopper 8, every shovel all weld on the both ends lateral wall of hopper 8 have be used for with correspond first engaging lug 42 fixed connection's second engaging lug 43, through a rectangle connecting plate 44 fixed connection between first engaging lug 42 and the second engaging lug 43. Still set up a plurality of one-to-one on the outer cylinder wall of rotatory drum 7 and shovel the heavy groove of dodging of hopper 8 a plurality of, be convenient for dodge and spacing shovel hopper 8 when installation shovel hopper 8.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The concrete pavement crack filling, rolling and polishing integrated machine is characterized by comprising a movable base (1), a rotary platform (2) which is fixedly arranged at the front end of the top of the movable base (1) in a horizontal state, and four groups of two-axis translation mechanisms (3) which are distributed along the axis of the rotary platform (2) at equal angles, wherein the output ends of the four groups of two-axis translation mechanisms (3) are sequentially connected with a cutting machine (4), a crusher (5), a cleaning mechanism and a floating mechanism;

the cleaning mechanism comprises a vertical lifting machine (6) fixedly connected to the output end of the corresponding two-axis translation mechanism (3) and a rotating cylinder (7) which is horizontally connected to a feeding port at the bottom of the vertical lifting machine (6) in a shaft connection mode, and a plurality of shoveling hoppers (8) which are distributed at equal angles relative to the axis of the rotating cylinder (7) and used for moving crushed aggregates into the feeding port of the vertical lifting machine (6) are fixedly connected to the outer cylindrical wall of the rotating cylinder (7);

the floating mechanism comprises an elastic lifting piece fixedly arranged on the output end of the corresponding two-axis translation mechanism (3) and a rotary floating piece fixedly arranged on the elastic lifting piece.

2. The concrete pavement crack filling, rolling and polishing integrated machine as claimed in claim 1, it is characterized in that the bottom of the output end of a two-shaft translation mechanism (3) fixedly connected with a floating mechanism is fixedly connected with a vertical fixing frame, the fixing frame comprises a top transverse plate (11), a middle transverse plate (12) and a bottom transverse plate (13) which are arranged from top to bottom at intervals and are fixedly connected with each other, the top transverse plate (11) is fixedly arranged at the bottom of the output end of the corresponding two-axis translation mechanism (3) in a horizontal state, the elastic lifting piece comprises a top lifting plate (14) and a bottom lifting plate (15) which are arranged in a horizontal state at intervals up and down and are fixedly connected with each other, the top lifting plate (14) is arranged between the middle transverse plate (12) and the bottom transverse plate (13) and is in elastic sliding connection with the middle transverse plate and the bottom transverse plate, and the rotary polishing piece is fixedly arranged on the bottom lifting plate (15).

3. The machine of claim 2, wherein the rotary troweling member comprises:

the driving motor (16) is vertically downwards fixedly arranged at the center of the top of the bottom lifting plate (15), and an output shaft of the driving motor (16) vertically downwards penetrates through the bottom lifting plate (15);

the rotating disc (17) is coaxially and fixedly arranged on an output shaft of the driving motor (16) in a horizontal state and is positioned below the bottom lifting plate (15);

a plurality of troweling blades (18) which are distributed around the axis of the rotating disc (17) at equal angles, wherein each troweling blade (18) is arranged below the outer side of the rotating disc (17) in a horizontal state, and the troweling blades (18) are fixedly connected with the rotating disc (17).

4. The concrete pavement crack filling, rolling and polishing all-in-one machine as claimed in claim 1, wherein the vertical hoist (6) is a bucket hoist, the vertical hoist (6) is vertically and fixedly arranged at the bottom of the output end of the corresponding two-axis translation mechanism (3) and the feed inlet of the vertical hoist (6) is positioned at the bottom of one side of the vertical hoist (6) far away from the rotating platform (2), the bottom of the vertical hoist (6) is provided with a fixed bottom plate (19) for sealing, the fixed bottom plate (19) extends to one side close to the discharge port to protrude out of the vertical hoist (6), the fixed bottom plate (19) is further fixedly connected with a side shielding cover (20) for sealing the feed inlet, two ends of the rotating cylinder (7) are axially connected to the side wall of the side shielding cover (20), and one side of the vertical hoist (6) protrudes with a bottom driving shaft (21) and a top driving shaft (22) for driving the bucket to operate The bottom driving shaft (21) is connected with the top driving shaft (22) in a transmission way, and one end of the rotating cylinder (7) protrudes out of the side shielding cover (20) and is connected with the bottom driving shaft (21) in a transmission way.

5. The concrete pavement crack filling, rolling and polishing all-in-one machine is characterized in that a first fixing frame (23) is fixedly connected to the bottom of the output end of a two-axis translation mechanism (3) fixedly connected with a cutting machine (4), a second fixing frame (24) is further fixedly connected to the bottom of the first fixing frame (23), the cutting machine (4) is fixedly arranged in the second fixing frame (24) in a horizontal state, and a cutting blade of the cutting machine (4) protrudes downwards from the bottom of the second fixing frame (24) in a vertical state.

6. The concrete pavement crack filling, rolling and polishing all-in-one machine is characterized in that the top transverse plate (11) and the bottom transverse plate (13) are fixedly connected through four connecting vertical posts (25) symmetrically distributed between the top transverse plate and the bottom transverse plate, a connecting horizontal post (26) used for fixing the middle transverse plate (12) is fixedly connected between every two connecting vertical posts (25) at the same height in the middle of the connecting vertical posts, two groups of side connecting pieces symmetrically distributed and used for connecting the corresponding side connecting horizontal posts (26) are fixedly connected on each side wall of the middle transverse plate (12), each group of the side connecting pieces comprises an L-shaped bottom connecting plate (27) and an L-shaped top connecting plate (28), the vertical plate of the bottom connecting plate (27) is fixedly connected with the corresponding side wall of the transverse plate middle part (12), and the transverse plate of the bottom connecting plate (27) is fixedly connected with the bottom of the corresponding side connecting horizontal post (26), the diaphragm of top connecting plate (28) with correspond the top fixed connection of side connection spreader (26) and the riser top fixed connection of the riser of top connecting plate (28) and bottom connection board (27), two symmetric distributions and be used for with the vertical waist groove of top connecting plate (28) fixed connection are seted up on the top of top connecting plate (28), four are connected still fixedly connected with a plurality of protection apron (29) between upstand (25).

7. The concrete pavement crack filling, rolling and polishing all-in-one machine is characterized in that four symmetrically distributed fixed vertical columns (30) are fixedly connected to the periphery of the top of the bottom lifting plate (15), connecting transverse plates (31) positioned above a driving motor (16) are fixedly connected to the tops of the four fixed vertical columns (30), the connecting transverse plates (31) and the jacking and lowering plates (14) are fixedly connected through four symmetrically distributed connecting vertical shafts (32), each connecting vertical shaft (32) is in sliding connection with the bottom transverse plate (13) through a first linear bearing (33) fixedly arranged on the bottom transverse plate (13), four symmetrically distributed fixed vertical shafts (34) are further fixedly connected between the middle transverse plate (12) and the bottom transverse plate (13), the top lifting plate (14) is arranged on the four fixed vertical shafts (34) in a sliding mode through four second linear bearings (35) corresponding to the four fixed vertical shafts (34), every the lower extreme of fixed vertical axis (34) all overlaps and is equipped with the bottom and bottom diaphragm (13) top fixed connection that are located first spring (36) and first spring (36) of top lifter plate (14) below, every the upper end of fixed vertical axis (34) all overlaps and is equipped with the top and middle part diaphragm (12) bottom fixed connection, four of second spring (37) and second spring (37) that are located top lifter plate (14) top still fixedly connected with a plurality of between fixed upstand (30) all seted up a plurality of louvre on protection side cap (38) and every protection side cap (38).

8. The concrete pavement crack filling, rolling and polishing all-in-one machine as claimed in claim 3, wherein a plurality of connecting cross rods (39) corresponding to a plurality of polishing blades (18) one by one are fixedly connected to the outer cylindrical wall at the bottom of the rotating disc (17), the top of each polishing blade (18) is fixedly connected with a strip connecting piece (40) fixedly connected with the corresponding connecting cross rod (39), the top of each strip connecting piece (40) is fixedly connected with the bottom of the connecting cross rod (39), and the bottom of each polishing blade (18) is lower than the bottom of the rotating disc (17).

9. The machine for filling, rolling and polishing concrete pavement cracks according to claim 3, wherein a protective top cover (41) for shielding the periphery and the upper part of a plurality of polishing blades (18) is fixedly connected to the bottom of the bottom lifting plate (15).

10. The concrete pavement crack filling, rolling and polishing all-in-one machine as claimed in claim 1, wherein a plurality of first connecting lugs (42) corresponding to a plurality of shoveling hoppers (8) one by one are welded on the side walls of two ends of the rotating cylinder (7), a second connecting lug (43) used for being fixedly connected with the corresponding first connecting lug (42) is welded on the side wall of two ends of each shoveling hopper (8), and the first connecting lug (42) and the second connecting lug (43) are fixedly connected through a rectangular connecting plate (44).

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