CN111873136B - A evenly pave equipment for concrete form - Google Patents

Abstract

The invention relates to uniform paving equipment, in particular to uniform paving equipment for a concrete template. The uniform paving equipment for the concrete formwork is high in working efficiency, capable of improving yield, improving product quality and achieving automatic operation process. An even paving apparatus for a concrete form, comprising: the bottom of the first long plate is uniformly connected with support columns, and the bottom ends of the support columns are connected with rectangular foot pads; the top of the first long plate is provided with a first rectangular groove, and two sides of the inner wall of the first rectangular groove are connected with the first sliding block in a sliding manner; and a second long plate is connected between the tops of the first sliding blocks. Through the cooperation of the cam, the third long plate and the discharging box, the concrete can fall onto the concrete template, and the concrete template is discharged, so that the subsequent operation can be conveniently carried out; through the cooperation of first disc, first branch and fifth long board to the realization is carried out the purpose of laying the concrete, improves work efficiency.

Description

A evenly pave equipment for concrete form

Technical Field

The invention relates to uniform paving equipment, in particular to uniform paving equipment for a concrete template.

Background

The leveling device for concrete paving is used for obtaining a concrete slab with uniform texture after concrete is paved in the concrete paving process, and the surface of the concrete slab is flat and smooth. The concrete precast element is often used for paving some road surfaces and the ground inside buildings, and the concrete precast element is used more and more in the building industry along with the improvement of the production efficiency. At present, various fixing modes are mainly adopted to fix the template into a required shape, and after concrete is solidified, the fixed object is dismantled. Most of the existing adopted fixtures are wood templates which are discarded after being used for many times, so that not only is the resource wasted, but also the production cost is increased, and more people use the steel templates.

Traditional concrete form's even operation of paving is earlier with the reinforcing bar place on concrete form, on the workman holds the concrete shovel that the shovel will mix afterwards and shovels into concrete form, the workman then paves the compaction with the shovel, the even operation of paving of this kind of concrete form not only wastes time and energy, long-time work can lead to workman's fatigue degree constantly to increase, traditional operating mode is inefficient, leads to the yield not high.

With the rapid development of the construction industry, the innovation of some construction machines is also changing day by day, and some novel construction machines have also gained wide attention and use, for example, some concrete formwork leveling devices have poor leveling effect in the working process, which can cause the surface of the concrete after being solidified to be uneven, and reduce the use value of the leveling device.

Disclosure of Invention

In order to overcome the defects of low efficiency, low yield and uneven surface of concrete after setting in the traditional operation mode, the invention has the technical problems that: the uniform paving equipment for the concrete formwork improves the yield, improves the product quality and is used for the automatic operation process.

The technical scheme is as follows: an even paving apparatus for a concrete form, comprising:

the bottom of the first long plate is uniformly connected with support columns, and the bottom ends of the support columns are connected with rectangular foot pads;

the top of the first long plate is provided with a first rectangular groove, and two sides of the inner wall of the first rectangular groove are connected with the first sliding block in a sliding manner;

the second long plate is connected between the tops of the first sliding blocks;

the top of one first sliding block is connected with a rack;

the servo motor is connected to the first long plate on one side close to the rack;

the two sides of the top of the first long plate, which are close to one side of the servo motor, are respectively provided with a first bearing seat, a first rotating shaft is rotatably connected between the first bearing seats, and one end of the first rotating shaft is connected with an output shaft of the servo motor;

the first straight gear is connected to the first rotating shaft on one side, close to the servo motor, and meshed with the rack;

the rear side of the top of the first long plate is connected with a second bearing seat, and the second bearing seat is rotatably connected with a second rotating shaft;

the first transmission assembly is rotatably connected between one side of the second rotating shaft and the first rotating shaft close to one side of the servo motor;

a second straight gear is arranged at one end of the second rotating shaft, which is far away from one side of the first transmission assembly, and the second straight gear is meshed with the rack;

the top of the first long plate is connected with the blanking mechanism, and the position of the second rotating shaft on the top of the first long plate is connected with the paving mechanism;

and the right rear side of the top of the first long plate is connected with a floating mechanism.

Further, unloading mechanism includes:

two cams are connected to two sides of the upper part of the first rotating shaft;

the middle part of the first long plate is connected with the placing table;

the two sides of the top of the placing table are both provided with second rectangular grooves, and the second rectangular grooves are connected with second sliding blocks in a sliding manner;

the spring is connected between the inner wall of the second sliding block and the inner wall of the placing table;

the third long plate is connected to the placing table on one side close to the first rotating shaft, and a third rectangular groove is formed in the third long plate;

the blanking box is connected between the tops of the second sliding blocks, and a fourth rectangular groove is formed in the bottom of the blanking box.

Further, the paving mechanism comprises:

the second rotating shaft on one side of the second straight gear is connected with the first disc;

the eccentric position of the first disc is connected with a first connecting rod;

the top of the first long plate, which is close to one side of the second bearing seat, is provided with a fourth long plate; a fifth rectangular groove is formed in the upper portion of the fourth long plate;

the first support rod is connected in the fifth rectangular groove in a sliding mode, and the tail end of the first connecting rod is connected with one end of the first support rod;

the fixed plate, the first bracing piece one end of keeping away from first connecting rod one side is equipped with the fixed plate, and the fixed plate bottom is equipped with the connecting plate, and the connecting plate bottom is equipped with the fifth long board.

Further, the troweling mechanism includes:

one end of the first rotating shaft, which is far away from the servo motor, is connected with a first bevel gear;

the third bearing seat is arranged at the top of the first long plate close to one side of the first bevel gear and is connected with a third rotating shaft in a rotating mode;

the upper part of the third rotating shaft is provided with a second bevel gear which is meshed with the first bevel gear;

the top of the first long plate is provided with an L-shaped plate at the rear side of the third bearing seat, and one side of the upper part of the L-shaped plate is provided with a sixth rectangular groove;

the fourth bearing seat is arranged at the top of the L-shaped plate on one side, far away from the sixth rectangular groove, of the fourth bearing seat;

the fourth rotating shaft is rotatably connected to the fourth bearing seat; a second transmission assembly is connected between the fourth rotating shaft and the third rotating shaft;

the upper end of the fourth rotating shaft is provided with a second disc;

the eccentric position of the top of the second disc is connected with a second connecting rod;

the bottom of the second connecting rod at one side far away from the second disc is provided with a second supporting rod;

the bottom of the second supporting rod is provided with a wedge-shaped plate.

Further, the method also comprises the following steps:

the two sides of the top of the first long plate are both connected with the supporting frames, the storage box is connected between the upper parts of the supporting frames, the left side and the right side of the lower part of the storage box are both provided with seventh rectangular grooves, the left side and the right side of the lower part of the storage box are both provided with eighth rectangular grooves, and the seventh rectangular grooves are positioned above the eighth rectangular grooves;

the top of the first long plate is provided with fifth bearing seats on two sides of the storage box, the fifth bearing seats are positioned in front of the supporting frame, and fifth rotating shafts are rotatably connected on the fifth bearing seats;

the top end of the fifth rotating shaft is connected with the first half disc, and the eccentric positions of the top of the first half disc are connected with handles;

the fifth rotating shaft positioned below the first semicircular disc is connected with the second semicircular disc;

the bottom of the fifth rotating shaft is provided with a third bevel gear;

the front side of the bottom of the first long plate is provided with a sixth bearing seat, and a sixth rotating shaft is rotatably connected onto the sixth bearing seat;

and the fourth bevel gear is arranged at both ends of the sixth rotating shaft and meshed with the third bevel gear.

The invention has the following advantages: 1. through the cooperation of cam, spring, third long board and workbin down, can make the concrete fall to the concrete form on, carry out the blowing to the concrete form to the going on of follow-up operation.

2. Through the cooperation of first disc, first branch and fifth long board to the realization is carried out the purpose of laying the concrete, improves work efficiency.

3. Through the cooperation of first bevel gear, second transmission assembly, second disc and wedge-shaped plate to the realization carries out the purpose of floating to the concrete, makes concrete form's surfacing.

4. Through the cooperation of fifth pivot, first semicircle dish, second semicircle dish and handle, realize the purpose that the concrete form falls piece by piece, reduce workman's fatigue degree.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 3 is a schematic diagram of the explosion structure of the blanking mechanism of the present invention.

FIG. 4 is a schematic view of a first partial body structure according to the present invention.

Fig. 5 is a schematic perspective view of the troweling mechanism of the present invention.

FIG. 6 is a schematic view of a second partial body structure according to the present invention.

Fig. 7 is a perspective view of a third embodiment of the present invention.

Reference numerals: 1 a first long plate, 2 supporting columns, 3 rectangular pad feet, 4 a first rectangular groove, 5 a second long plate, 6 racks, 7 a first sliding block, 8 a servo motor, 9 a first bearing seat, 10 a first rotating shaft, 11 a first straight gear, 12 a second bearing seat, 13 a second rotating shaft, 14 a first transmission component, 15 a second straight gear, 16 a blanking mechanism, 161 a cam, 162 a placing platform, 163 a second rectangular groove, 164 a spring, 165 a second sliding block, 166 a third long plate, 167 a third rectangular groove, 168 a blanking box, 169 a fourth rectangular groove, 17 a paving mechanism, 171 a first disc, 172 a first connecting rod, 173 a first supporting rod, 174 a fourth long plate, 175 a fifth rectangular groove, 176 a fixing plate, 177 a connecting plate, 178 a fifth long plate, 18 a floating mechanism, 181 a first bevel gear, a third shaft, 183 a third rotating shaft, 184 a second bevel gear 185, L, 186 a sixth rectangular groove, a fourth shaft, 187, 188 a fourth rotating shaft, 189 a second transmission component, 1810 a second disk, 1811 a second connecting rod, 1812 a second supporting rod, 1813 a wedge-shaped plate, 19 a supporting frame, 20 a storage box, 21 a seventh rectangular groove, 22 an eighth rectangular groove, 23 a fifth bearing seat, 24 a fifth rotating shaft, 25 a first half disk, 26 a second half disk, 27 a third bevel gear, 28 a sixth bearing seat, 29 a sixth rotating shaft, 30 a fourth bevel gear and 31 a handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1

An even paving device for a concrete template is disclosed, as shown in figure 1, figure 2 and figure 4, and comprises a first long plate 1, a support column 2, a rectangular pad 3, a second long plate 5, a rack 6, a first slide block 7, a servo motor 8, a first bearing seat 9, a first rotating shaft 10, a first straight gear 11, a second bearing seat 12, a second rotating shaft 13, a first transmission component 14, a second straight gear 15, a blanking mechanism 16, a paving mechanism 17 and a troweling mechanism 18, wherein the support column 2 is arranged at the front, the rear, the left and the right of the bottom of the first long plate 1, the rectangular pad 3 is connected at the bottom of the support column 2, a first rectangular groove 4 is arranged at the upper side of the first long plate 1, the first slide block 7 is connected at the left and the right of the inner wall of the first rectangular groove 4 in a sliding manner, the second long plate 5 is connected between the upper parts of the first slide blocks 7, the rack 6 is connected at the upper side of the first slide block 7 at the left part, the servo motor 8 is connected at the left part of the first long plate 1, two first bearing seats 9 are connected to the left side of the top of a first long plate 1, a first rotating shaft 10 is rotatably connected between the upper portions of the first bearing seats 9, the left end of the first rotating shaft 10 is connected with an output shaft of a servo motor 8, a first straight gear 11 is connected to the left side of the first rotating shaft 10, the first straight gear 11 is meshed with a rack 6, a second bearing seat 12 is connected to the rear side of the left portion of the first long plate 1, a second rotating shaft 13 is rotatably connected to the upper portion of the second bearing seat 12, a first transmission assembly 14 is wound between the left portion of the second rotating shaft 13 and the left portion of the first rotating shaft 10, a second straight gear 15 is connected to the right end of the second rotating shaft 13, the second straight gear 15 is meshed with the rack 6, a blanking mechanism 16 is connected to the top of the first long plate 1, a leveling mechanism 17 is connected to the top of the first long plate 1 at the position of the second rotating shaft 13, and a leveling mechanism 18 is connected to the right side of the top of the first long plate 1.

When a worker needs to evenly pave the concrete formwork, the concrete formwork can be firstly placed on the second long plate 5, the worker pours the concrete into the blanking mechanism 16, the servo motor 8 is started to work, the servo motor 8 rotates to drive the first rotating shaft 10 to rotate, the first rotating shaft 10 rotates to drive the first straight gear 11 to rotate, the first straight gear 11 rotates to drive the rack 6 to move backwards, the rack 6 moves backwards to drive the first sliding block 7 to slide backwards in the first rectangular groove 4, the first sliding block 7 slides backwards to drive the second long plate 5 and the concrete formwork to move backwards, meanwhile, the first rotating shaft 10 rotates to drive the second rotating shaft 13 to rotate through the first transmission assembly 14, the second rotating shaft 13 rotates to drive the second straight gear 15 to rotate, when the rack 6 moves backwards to be in contact with the second straight gear 15, the rack 6 is further driven to move backwards, so as to drive the second long plate 5 and the concrete formwork to move backwards, realize the purpose of automatic transmission concrete form, the concrete falls to the long board of second 5 on through unloading mechanism 16, second pivot 13 rotates and drives simultaneously and paves mechanism 17 downstream, pave the concrete, first pivot 10 rotates and drives simultaneously and trowels 18 and move right, trowels the concrete, the workman will pave the concrete form take away afterwards can, after the operation, the workman closes servo motor 8, servo motor 8 stall makes second straight-teeth gear 15 and first drive assembly 14 stall, make rack 6 stall, and then make unloading mechanism 16, pave mechanism 17 and trowels 18 stall movement.

As shown in fig. 2 and 3, the blanking mechanism 16 includes a cam 161, a placing table 162, a spring 164, a second slider 165, a third long plate 166 and a blanking box 168, the two cams 161 are connected to the first rotating shaft 10, the cam 161 is located at the right side of the first straight gear 11, the placing table 162 is connected to the middle of the top of the first long plate 1, the second rectangular grooves 163 are formed in the left and right portions of the placing table 162, the second slider 165 is connected to the inside of the second rectangular groove 163 in a sliding manner, the spring 164 is connected between the inner wall of the second slider 165 and the inner wall of the placing table 162, the blanking box 168 is connected to the top of the second slider 165, the fourth rectangular groove 169 is formed in the bottom of the blanking box 168, the third long plate 166 is connected to the front side of the placing table 162, the third rectangular groove 167 is formed in the third long plate 166, and the blanking box 168 is in contact with the third long plate 166.

When a worker pours concrete into the blanking box 168, the first rotating shaft 10 rotates to drive the cam 161 to rotate, when the protruding part of the cam 161 rotates to be in contact with the blanking box 168 and pushes the blanking box 168 to move backwards, the blanking box 168 moves backwards to drive the second sliding block 165 to slide backwards, the spring 164 is compressed, the rack 6 moves backwards to drive the second long plate 5 and the concrete formwork to move backwards, the concrete falls onto the concrete formwork on the second long plate 5 through the third rectangular groove 167 and the fourth rectangular groove 169, when the protruding part of the cam 161 rotates to be not in contact with the blanking box 168, the blanking box 168 is driven to reset through the second sliding block 165 under the reset action of the spring 164, and the concrete cannot fall onto the concrete formwork on the second long plate 5.

As shown in fig. 4, the paving mechanism 17 includes a first disc 171, a first connecting rod 172, a first supporting rod 173, a fourth long plate 174, a fixing plate 176, a connecting plate 177, and a fifth long plate 178, the rear side of the left portion of the first long plate 1 is connected with the fourth long plate 174, the second rotating shaft 13 passes through the fourth long plate 174, the left end of the second rotating shaft 13 is connected with the first disc 171, the first disc 171 is located on the left side of the fourth long plate 174, the first connecting rod 172 is connected to the left eccentric position of the first disc 171, a fifth rectangular groove 175 is formed in the upper portion of the first supporting rod 173, the first supporting rod 173 is connected to the fifth rectangular groove 175 in a sliding manner, the left end of the first supporting rod 173 is connected with the upper end of the first connecting rod 172, the right end of the first supporting rod 173 is provided with the fixing plate 176, the bottom of the fixing plate 176 is provided with the connecting plate 177, and the bottom of the connecting plate 177 is provided with the fifth long plate 178.

The second rotating shaft 13 rotates to drive the first disc 171 to rotate, the first disc 171 rotates to drive the first supporting rod 173 to move downwards in the fifth rectangular groove 175 through the first connecting rod 172, the first supporting rod 173 moves downwards to drive the fixing plate 176 to move downwards, the fixing plate 176 moves downwards to drive the fifth long plate 178 through the connecting plate 177 to move downwards, so that the concrete is flattened, and along with the continuous rotation of the first disc 171, the fifth long plate 178 is driven to move upwards and downwards to flatten the concrete.

As shown in fig. 4 and 5, the troweling mechanism 18 includes a first bevel gear 181, a third bearing seat 182, a third rotating shaft 183, a second bevel gear 184, an L-shaped plate 185, a fourth bearing seat 187, a fourth rotating shaft 188, a second transmission assembly 189, a second disc 1810, a second connecting rod 1811, a second supporting rod 1812 and a wedge 1813, the right end of the first rotating shaft 10 is connected with the first bevel gear 181, the right side of the top of the first long plate 1 is provided with the third bearing seat 182, the third bearing seat 182 is rotatably connected with the third rotating shaft 183, the upper portion of the third rotating shaft 183 is connected with the second bevel gear 184, the second bevel gear 184 is engaged with the first bevel gear 181, the top of the first long plate 1 is provided with the L-shaped plate 185 on the rear side of the third bearing seat 182, the left portion of the L-shaped plate 185 is provided with a sixth rectangular groove 186, the right side of the top of the L-shaped plate 185 is connected with the fourth bearing seat 187, the fourth bearing seat 187 is rotatably connected with the fourth rotating shaft 188, a second transmission assembly 189 is wound between the upper end of the third rotating shaft 183 and the upper portion of the fourth rotating shaft 188, the upper end of the fourth rotating shaft 188 is connected with a second disc 1810, a second connecting rod 1811 is connected at an eccentric position of the top of the second disc 1810, the left end of the second connecting rod 1811 is connected with a second supporting rod 1812, the lower portion of the second supporting rod 1812 passes through the sixth rectangular groove 186, the lower end of the second supporting rod 1812 is connected with a wedge plate 1813, and the wedge plate 1813 is located behind the fifth long plate 178.

The first rotating shaft 10 rotates to drive the first bevel gear 181 to rotate, the first bevel gear 181 rotates to drive the second bevel gear 184 to rotate, the second bevel gear 184 rotates to drive the second transmission assembly 189 to rotate through the third rotating shaft 183, the second transmission assembly 189 rotates to drive the fourth rotating shaft 188 to rotate in the fourth bearing seat 187, the fourth rotating shaft 188 rotates to drive the second disc 1810 to rotate, the second disc 1810 rotates to drive the second connecting rod 1811 to move rightwards, the second connecting rod 1811 moves rightwards to drive the second supporting rod 1812 to move rightwards in the sixth rectangular groove 186, the second supporting rod 1812 moves rightwards to drive the wedge plate 1813 to move rightwards, when the second connecting rod 1811 moves rightwards to the rightmost end and continues to move, the second supporting rod 1812 and the wedge plate 1813 are driven to move leftwards, so that concrete is leveled, and the leveling work is performed on the concrete along with the continuous left and right movement of the wedge plate 1813.

As shown in fig. 6 and 7, the multifunctional storage case further comprises a support frame 19, a storage case 20, a fifth bearing seat 23, a fifth rotating shaft 24, a first semicircular disc 25, a second semicircular disc 26, a third bevel gear 27, a sixth bearing seat 28, a sixth rotating shaft 29, a fourth bevel gear 30 and a handle 31, wherein the support frame 19 is connected to the left and right sides of the top of the first long plate 1, the storage case 20 is connected between the support frames 19, seventh rectangular grooves 21 are formed in the left and right sides of the lower portion of the storage case 20, eighth rectangular grooves 22 are formed in the left and right sides of the lower portion of the storage case 20, the seventh rectangular grooves 21 are located above the eighth rectangular grooves 22, the fifth bearing seat 23 is connected to the left and right sides of the storage case 20 at the top of the first long plate 1, the fifth bearing seat 23 is located in front of the support frame 19, the fifth rotating shaft 24 is connected in the fifth bearing seat 23, the upper portion of the fifth shaft 24 is connected to the second semicircular disc 26, the upper end of the fifth shaft 24 is connected to the first semicircular disc 25, first half disc 25 is located second half disc 26 top, and the eccentric position at first half disc 25 top all is connected with handle 31, and first half disc 25 one side is located seventh rectangular channel 21, and fifth pivot 24 lower extreme all is connected with third bevel gear 27, and first rectangular plate 1 bottom front side is connected with sixth bearing frame 28, and sixth bearing frame 28 lower part rotary type is connected with sixth pivot 29, and both ends all are connected with fourth bevel gear 30 about sixth pivot 29, third bevel gear 27 and fourth bevel gear 30 intermeshing.

The workman can pile up the concrete form that needs to pave and put in depositing case 20, the handle 31 of rotatory one side rotates afterwards, handle 31 rotates and drives the first half disc 25 of one side and rotate, the first half disc 25 of one side rotates and drives the fifth pivot 24 through one side and drive one side second semicircle dish 26 and rotate, fifth pivot 24 rotates and drives the third bevel gear 27 of one side simultaneously and rotates, it rotates to drive sixth pivot 29 through fourth bevel gear 30, thereby it rotates to drive the third bevel gear 27 of opposite side, and then drive the first half disc 25 of opposite side and rotate, make the concrete form of bottommost can fall to on the long board 5 of second, second semicircle dish 26 keeps off other concrete form whereabouts, repeat above operation, can realize dropping of concrete form intermittent type formula.

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

Claims (1)

1. An even paving apparatus for a concrete form, comprising:

the bottom of the first long plate (1) is uniformly connected with supporting columns (2), and the bottom ends of the supporting columns (2) are connected with rectangular foot pads (3);

the top of the first long plate (1) is provided with a first rectangular groove (4), and two sides of the inner wall of the first rectangular groove (4) are both connected with the first sliding block (7) in a sliding manner;

the second long plate (5) is connected between the tops of the first sliding blocks (7);

the top of one first sliding block (7) is connected with the rack (6);

the servo motor (8) is connected to the first long plate (1) close to one side of the rack (6);

the two sides of the top of the first long plate (1) close to one side of the servo motor (8) are respectively provided with a first bearing seat (9), a first rotating shaft (10) is rotatably connected between the first bearing seats (9), and one end of the first rotating shaft (10) is connected with an output shaft of the servo motor (8);

the first straight gear (11) is connected to the first rotating shaft (10) on one side close to the servo motor (8), and the first straight gear (11) is meshed with the rack (6);

the rear side of the top of the first long plate (1) is connected with a second bearing seat (12), and the second bearing seat (12) is rotatably connected with a second rotating shaft (13);

the first transmission component (14) is rotatably connected between one side of the second rotating shaft (13) and the first rotating shaft (10) close to one side of the servo motor (8);

one end of a second rotating shaft (13) on one side of the second straight gear (15), which is far away from the first transmission component (14), is provided with the second straight gear (15), and the second straight gear (15) is meshed with the rack (6);

the blanking mechanism (16) is connected to the top of the first long plate (1), and the paving mechanism (17) is connected to the position, on the second rotating shaft (13), of the top of the first long plate (1);

the right rear side of the top of the first long plate (1) is connected with a floating mechanism (18);

the blanking mechanism (16) comprises:

two cams (161) are connected to two sides of the upper part of the first rotating shaft (10);

the middle part of the first long plate (1) is connected with the placing table (162);

the two sides of the top of the placing table (162) are both provided with second rectangular grooves (163), and the second rectangular grooves (163) are connected with second sliding blocks (165) in an inward sliding manner;

the spring (164) is connected between the inner wall of the second sliding block (165) and the inner wall of the placing table (162);

the third long plate (166) is connected to the placing table (162) close to one side of the first rotating shaft (10), and a third rectangular groove (167) is formed in the third long plate (166);

the blanking box (168) is connected between the tops of the second sliding blocks (165), and a fourth rectangular groove (169) is formed in the bottom of the blanking box (168);

the paving mechanism (17) comprises:

the first disc (171) is connected to the second rotating shaft (13) on the side, far away from the second straight gear (15), of the first disc (171);

a first link (172), the eccentric position of the first disc (171) is connected with the first link (172);

the top of the first long plate (1) close to one side of the second bearing seat (12) is provided with a fourth long plate (174); a fifth rectangular groove (175) is formed in the upper portion of the fourth long plate (174);

the first supporting rod (173) is connected with the fifth rectangular groove (175) in a sliding manner, and the tail end of the first connecting rod (172) is connected with one end of the first supporting rod (173);

the fixing plate (176), one end of the first support rod (173) far away from one side of the first connecting rod (172) is provided with the fixing plate (176), the bottom of the fixing plate (176) is provided with a connecting plate (177), and the bottom of the connecting plate (177) is provided with a fifth long plate (178);

the troweling mechanism (18) includes:

one end, far away from the servo motor (8), of the first rotating shaft (10) is connected with a first bevel gear (181);

the third bearing seat (182), the top of the first long plate (1) close to one side of the first bevel gear (181) is provided with the third bearing seat (182), and the third bearing seat (182) is rotatably connected with a third rotating shaft (183);

the upper part of the third rotating shaft (183) is provided with a second bevel gear (184), and the second bevel gear (184) is meshed with the first bevel gear (181);

the top of the first long plate (1) is provided with an L-shaped plate (185) at the rear side of the third bearing seat (182), and one side of the upper part of the L-shaped plate (185) is provided with a sixth rectangular groove (186);

the top of the L-shaped plate (185) on one side, far away from the sixth rectangular groove (186), of the fourth bearing seat (187) is provided with the fourth bearing seat (187);

the fourth rotating shaft (188) is rotatably connected to the fourth bearing seat (187), and a second transmission assembly (189) is connected between the fourth rotating shaft (188) and the third rotating shaft (183);

the upper end of the fourth rotating shaft (188) is provided with a second disc (1810);

the second connecting rod (1811) is connected with the eccentric position at the top of the second disc (1810) at the second connecting rod (1811);

the bottom of the second connecting rod (1811) at one side of the second supporting rod (1812) far away from the second disc (1810) is provided with a second supporting rod (1812);

the bottom of the second support rod (1812) is provided with a wedge-shaped plate (1813);

further comprising:

the supporting frames (19) are connected to two sides of the top of the first long plate (1), a storage box (20) is connected between the upper portions of the supporting frames (19), seventh rectangular grooves (21) are formed in the left side and the right side of the lower portion of the storage box (20), eighth rectangular grooves (22) are formed in the left side and the right side of the lower portion of the storage box (20), and the seventh rectangular grooves (21) are located above the eighth rectangular grooves (22);

the top of the first long plate (1) is provided with fifth bearing seats (23) on two sides of the storage box (20), the fifth bearing seats (23) are positioned in front of the support frame (19), and the fifth bearing seats (23) are rotatably connected with fifth rotating shafts (24);

the top end of the fifth rotating shaft (24) is connected with the first half disc (25), and the eccentric positions of the top of the first half disc (25) are connected with handles (31);

the fifth rotating shaft (24) positioned below the first semicircular disc (25) is connected with a second semicircular disc (26);

the bottom of each third bevel gear (27) and the bottom of each fifth rotating shaft (24) are provided with the third bevel gear (27);

the front side of the bottom of the first long plate (1) is provided with a sixth bearing seat (28), and the sixth bearing seat (28) is rotatably connected with a sixth rotating shaft (29);

the two ends of the fourth bevel gear (30) and the sixth rotating shaft (29) are both provided with the fourth bevel gear (30), and the fourth bevel gear (30) is meshed with the third bevel gear (27).

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