CN113445394A

CN113445394A - Paving method for sidewalk bricks for municipal administration

Info

Publication number: CN113445394A
Application number: CN202110917708.3A
Authority: CN
Inventors: 孙斌
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-11
Filing date: 2021-08-11
Publication date: 2021-09-28

Abstract

The invention belongs to the field of municipal construction, and particularly relates to a paving method of sidewalk bricks for municipal administration. The method is carried out by matching with a municipal sidewalk brick laying device, the municipal sidewalk brick laying device comprises a frame, a plough rotating shaft is arranged on the frame, the plough rotating shaft is provided with a plough adjusting rod, the plough adjusting rod is provided with an adjusting and fastening mechanism, a plough fixing plate is arranged on the plough adjusting rod, a plough mechanism is arranged on the plough fixing plate, a curve detection frame is arranged on the frame, a detection mechanism is arranged on the curve detection frame, a motor is arranged on the frame, an output end of the motor is provided with a brick placing mechanism, a sand storage box is arranged on the frame, a stone storage box is arranged in the sand storage box, a sand passing plate is arranged between the stone storage box and the sand storage box, a plurality of sand plate holes are uniformly formed in the sand passing plate, a material overturning mechanism is arranged in the stone storage box, a sand outlet pipe is arranged at the lower part of the sand outlet pipe, a control sand outlet mechanism is arranged at the lower part of the sand outlet pipe, a flat pressing hydraulic cylinder is arranged on the frame, and a compaction mechanism is arranged on the flat pressing hydraulic cylinder.

Description

Paving method for sidewalk bricks for municipal administration

Technical Field

The invention belongs to the field of municipal construction, and particularly relates to a paving method of sidewalk bricks for municipal administration.

Background

Pavement laying is an important work in municipal engineering, but in the laying process, a large amount of labor is needed, and the labor intensity is high. Among the current supplementary laying equipment, have the fragment of brick laying machine that can satisfy the straight line and lay, but this type of machine once meet the ground laying environment that has the radian or height drop, lay the fragment of brick and will squint, cause the fragment of brick to lay the unevenness. The existing brick laying machine lacks equipment for correspondingly laying a curve part, and the method for laying the sidewalk bricks for municipal administration is designed based on the equipment.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a method for paving sidewalk bricks for municipal administration.

In order to achieve the purpose, the invention adopts the following technical scheme: a municipal sidewalk brick laying method is carried out by matching with a municipal sidewalk brick laying device, and comprises a frame, wherein a wheel frame is arranged on the frame, the wheel frame is provided with a wheel rotating shaft, wheels are arranged on the wheel rotating shaft, a turning plow rotating shaft is arranged on the frame, a turning plow adjusting rod is arranged on the turning plow rotating shaft, the turning plow adjusting rod is provided with an adjusting and fastening mechanism, a flat floor is arranged on the turning plow rotating shaft, a turning plow fixing plate is arranged on the turning plow adjusting rod, a turning plow mechanism is arranged on the turning plow fixing plate, a curve detection frame is arranged on the frame, a detection mechanism is arranged on the curve detection frame, a brick is arranged on the frame, an output end of the motor is provided with a placing mechanism, a sand storage box is arranged on the frame, and a stone storage box is arranged in the sand storage box, store up the stone case with store up and be equipped with the sand board between the sand box, it has evenly seted up a plurality of sand plate holes on the sand board to cross, it is equipped with stirring mechanism to store up the stone incasement portion, it is equipped with out the sand pipe to store up the sand box lower part, it is equipped with control sand mechanism to go out the sand pipe lower part, be equipped with the concora crush pneumatic cylinder in the frame, the inside concora crush piston that can reciprocate to slide that is equipped with of concora crush pneumatic cylinder, be equipped with the concora crush hydraulic stem on the concora crush piston, the concora crush hydraulic stem end is equipped with concora crush bearing, the concora crush bearing is equipped with the concora crush pivot, the concora crush pivot is equipped with the concora crush cylinder.

Preferably, a turning plow sliding groove is formed in the turning plow adjusting rod and provided with a turning plow sliding rod capable of sliding in a reciprocating mode, a turning plow spring is arranged between the turning plow sliding rod and the turning plow adjusting rod, a turning plow ball is arranged at the tail end of the turning plow sliding rod, a turning plow slideway is arranged on the frame and evenly provided with six turning plow limiting blocks, and the turning plow ball can be clamped between the two adjacent turning plow limiting blocks during working.

Preferably, a turning plow rotating shaft is arranged on the turning plow fixing plate, a turning plow drum is arranged on the turning plow rotating shaft, eight turning plow rotating plates are uniformly arranged on the turning plow drum in the circumferential direction, a turning plow reinforcing plate is arranged at the base of each turning plow rotating plate, a turning plow rotating shaft is arranged at the tail end of each turning plow reinforcing plate, a turning plow pointed end is arranged on each turning plow rotating shaft, and a turning plow fastening bolt is arranged on each turning plow rotating shaft.

Preferably, the detection frame is internally provided with a detection transverse groove, the detection transverse groove is internally provided with a curve detection sliding block capable of sliding back and forth, a second detection spring is arranged between the curve detection sliding block and the detection transverse groove, the curve detection sliding block is provided with a conductive layer, the curve detection frame is provided with a conductive loop, the curve detection frame is provided with a detection vertical groove, the detection vertical groove and the curve detection sliding block are provided with a first detection spring, the curve detection sliding block is symmetrically provided with detection bearings, two detection rotating shafts are arranged between the detection bearings, and curve detection wheels are arranged on the detection rotating shafts.

Preferably, the symmetry is equipped with the motor in the frame, every the output of motor is equipped with initiative pivot, every be equipped with the driving gear in the initiative pivot, it is equipped with middle pivot between brick case and the frame to store up, be equipped with intermediate gear in the middle pivot, the frame symmetry is equipped with the arc slide, the symmetry is equipped with the slide axle between the arc slide, every the epaxial driven gear that is equipped with of slide, driven gear is respectively in it is close intermediate gear or driving gear meshing transmission, the epaxial link that is equipped with of slide, be equipped with the clamp fragment of brick on the link.

Preferably, a material turning rotating shaft is arranged on the sand storage box, a material turning roller is arranged on the material turning rotating shaft, six material turning rods are uniformly arranged on the material turning roller in the circumferential direction, a material turning groove is formed in each material turning rod, a material turning extension rod capable of sliding in a reciprocating mode is arranged in each material turning groove, a material turning spring is arranged between each material turning extension rod and each material turning groove, and a material turning ball is arranged at the tail end of each material turning extension rod.

Preferably, the end of the sand outlet pipe is provided with a sand outlet cavity, the inner end of the sand outlet pipe is symmetrically provided with a sand outlet rotating shaft, each sand outlet rotating shaft is provided with a sand outlet plate, each sand outlet plate is provided with a sand outlet convex block, each sand outlet convex block is provided with a sand outlet spring between the sand outlet cavities, each sand outlet plate is provided with a sand outlet open block, the sand outlet cavity is symmetrically provided with electromagnets, and each electromagnet is wound with an electromagnet winding.

Has the advantages that:

the invention provides a method for paving sidewalk bricks for municipal administration by improvement, and compared with the prior art, the method has the following improvements and advantages:

1. through the mutual matching of the turning plow tip, the turning plow rotating shaft, the turning plow fastening bolt, the turning plow rotating rod and the flat floor, the leveling of pre-paved sandy soil is realized, and a good foundation is provided for the subsequent pavement of pavement bricks.

2. Utilize first detection spring, inspection bearing, detection pivot, conductive loop, detect the cross slot, the second detects mutually supporting of spring, conducting layer, realized the detection to the bend, made things convenient for and place the pavement fragment of brick.

3. The flat pressing roller replaces a rear wheel of a vehicle, the self weight of the equipment is utilized for compaction treatment, and the laying efficiency is improved.

Drawings

FIG. 1 is a front sectional view of the design;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken at B-B of FIG. 1;

FIG. 4 is a cross-sectional view taken at C-C of FIG. 2;

FIG. 5 is an enlarged view of a portion of FIG. 1 at D;

FIG. 6 is an enlarged view of a portion E of FIG. 1;

FIG. 7 is an enlarged view of a portion of FIG. 1 at F;

FIG. 8 is an enlarged view of a portion of FIG. 1 at G;

in the figure, a frame 10, a plough limiting block 11, a plough slideway 12, a wheel frame 13, a wheel rotating shaft 14, wheels 15, a plough adjusting rod 16, a plough fixing plate 17, a flat ground plate 18, a plough rotating shaft 19, a brick storage box 20, a sand storage box 21, a sand passing plate 22, a sand plate hole 23, a stone storage box 24, a flat pressing hydraulic cylinder 25, a flat pressing piston 26, a flat pressing hydraulic rod 27, a flat pressing roller 28, a flat pressing bearing 29, a flat pressing rotating shaft 30, a material turning rotating shaft 31, a sand discharging pipe 32, a plough rotating shaft 33, a curve detection wheel 34, a curve detection slide block 35, a curve detection frame 36, a brick clamping block 37, a connecting frame 38, a slideway shaft 39, an arc slideway 40, a driving gear 41, a driving rotating shaft 42, a motor 43, a driven gear 44, a detection vertical groove 45, a first detection spring 46, a detection bearing 47, a detection rotating shaft 48, a conductive loop 49, a detection horizontal groove 50, a second detection spring 51, a conductive layer 52, a sand storage box, a, The device comprises a plough sliding rod 53, a plough sliding groove 54, a plough spring 55, a plough ball 57, a plough roller 58, a plough tip 59, a plough rotating shaft 60, a plough fastening bolt 61, a plough rotating rod 62, a plough reinforcing plate 63, a material turning roller 64, a material turning rod 65, a material turning spring 66, a material turning ball 67, a material turning extension rod 68, a material turning groove 69, a sand outlet rotating shaft 70, a sand outlet plate 71, a sand outlet spring 72, an electromagnet 73, an electromagnet winding 74, a sand outlet opening block 75, a sand outlet convex block 76, a sand outlet cavity 77, an intermediate gear 78 and an intermediate rotating shaft 79.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in figure 1, the method for laying the municipal sidewalk bricks is carried out by matching with a municipal sidewalk brick laying device, the municipal sidewalk brick laying device comprises a frame 10, a wheel frame 13 is arranged on the frame 10, the wheel frame 13 is provided with a wheel rotating shaft 14, wheels 15 are arranged on the wheel rotating shaft 14, a turning plow rotating shaft 19 is arranged on the frame 10, a turning plow adjusting rod 16 is arranged on the turning plow rotating shaft 19, an adjusting fastening mechanism is arranged on the turning plow adjusting rod 16, a flat floor 18 is arranged on the turning plow rotating shaft 19, a turning plow fixing plate 17 is arranged on the turning plow adjusting rod 16, a turning plow mechanism is arranged on the turning plow fixing plate 17, a curve detection frame 36 is arranged on the curve detection frame 36, a motor 43 is arranged on the frame 10, a brick placing mechanism is arranged at the output end of the motor 43, a sand storage box 21 is arranged on the frame 10, a stone storage box 24 is arranged in the sand storage box 21, be equipped with between stone storage box 24 and the sand storage box 21 and cross sand board 22, cross and evenly seted up a plurality of sand board holes 23 on the sand board 22, store up the inside stirring mechanism that is equipped with of stone storage box 24, sand storage box 21 lower part is equipped with sand outlet pipe 32, sand outlet pipe 32 lower part is equipped with control sand outlet mechanism, be equipped with concora crush pneumatic cylinder 25 on the frame 10, concora crush piston 26 that can reciprocate to slide is equipped with to concora crush pneumatic cylinder 25 inside, be equipped with concora crush hydraulic stem 27 on the concora crush piston 26, concora crush hydraulic stem 27 end is equipped with concora crush bearing 29, concora crush bearing 29 is equipped with concora crush pivot 30, concora crush pivot 30 is equipped with concora crush cylinder 28.

As shown in fig. 5, a plough sliding groove 54 is formed in the plough adjusting lever 16, a plough sliding rod 53 capable of sliding back and forth is arranged on the plough sliding groove 54, a plough spring 55 is arranged between the plough sliding rod 53 and the plough adjusting lever 16, a plough ball 57 is arranged at the tail end of the plough sliding rod 53, a plough slideway 12 is arranged on the frame 10, six plough limiting blocks 11 are uniformly arranged on the plough slideway 12, and the plough ball 57 can be clamped between two adjacent plough limiting blocks 11 during working.

As shown in fig. 1 and 6, the turning-plow fixing plate 17 is provided with a turning-plow rotating shaft 33, the turning-plow rotating shaft 33 is provided with a turning-plow drum 58, the turning-plow drum 58 is uniformly provided with eight turning-plow rotating plates 62 in the circumferential direction, the base of each turning-plow rotating plate 62 is provided with a turning-plow reinforcing plate 63, the tail end of each turning-plow reinforcing plate 63 is provided with a turning-plow rotating shaft 60, each turning-plow rotating shaft 60 is provided with a turning-plow tip 59, and each turning-plow rotating shaft 60 is provided with a turning-plow fastening bolt 61.

As shown in fig. 3, a detection transverse groove 50 is formed in the detection frame 36, a curve detection slider 35 capable of sliding back and forth is arranged in the detection transverse groove 50, a second detection spring 51 is arranged between the curve detection slider 35 and the detection transverse groove 50, a conductive layer 52 is arranged on the curve detection slider 35, a conductive loop 49 is arranged on the curve detection frame 36, a detection vertical groove 45 is formed in the curve detection frame 36, a first detection spring 46 is arranged between the detection vertical groove 45 and the curve detection slider 35, detection bearings 47 are symmetrically arranged on the curve detection slider 35, a detection rotating shaft 48 is arranged between the two detection bearings 47, and a curve detection wheel 34 is arranged on the detection rotating shaft 48.

As shown in fig. 2 and 4, the rack 10 is symmetrically provided with motors 43, an output end of each motor 43 is provided with a driving rotating shaft 42, each driving rotating shaft 42 is provided with a driving gear 41, an intermediate rotating shaft 79 is arranged between the brick storage box 20 and the rack 10, the intermediate rotating shaft 79 is provided with an intermediate gear 78, the rack 10 is symmetrically provided with arc slideways 40, the arc slideways 40 are symmetrically provided with slideway shafts 39, each slideway shaft 39 is provided with a driven gear 44, the driven gears 44 are respectively in meshing transmission with the adjacent intermediate gear 78 or the driving gear 41, the slideway shafts 39 are provided with connecting frames 38, and the connecting frames 38 are provided with brick clamping blocks 37.

As shown in fig. 1 and 7, the sand storage box 21 is provided with a material turning rotating shaft 31, the material turning rotating shaft 31 is provided with a material turning roller 64, six material turning rods 65 are uniformly arranged on the material turning roller 64 in the circumferential direction, a material turning groove 69 is formed in the material turning rods 65, a material turning extension rod 68 capable of sliding back and forth is arranged in the material turning groove 69, a material turning spring 66 is arranged between the material turning extension rod 68 and the material turning groove 69, and a material turning ball 67 is arranged at the tail end of the material turning extension rod 68.

As shown in fig. 8, a sand outlet cavity 77 is disposed at the end of the sand outlet pipe 32, sand outlet rotating shafts 70 are symmetrically disposed at the end of the inside of the sand outlet pipe 32, a sand outlet plate 71 is disposed on each sand outlet rotating shaft 70, a sand outlet bump 76 is disposed on each sand outlet plate 71, a sand outlet spring 72 is disposed between each sand outlet bump 76 and the sand outlet cavity 77, a sand outlet block 75 is disposed on each sand outlet plate 71, electromagnets 73 are symmetrically disposed in the sand outlet cavity 77, and an electromagnet winding 74 is wound around each electromagnet 73.

Initial position: the turning plow ball 57 is located between the two turning plow limiting blocks 11 at the uppermost end, and drives the turning plow adjusting rod 16 and the mechanism thereof to lift off the ground. The brick clamping blocks 37 are in a clamping state under the driving of the intermediate gear 78, the driving gear 41 and the driven gear 44. The electromagnet winding 74 is not energized and the sanding plate 71 is in the closed position under the action of the sanding spring 72. The curve detection slide block 35 is in a balanced state under the combined action of the first detection spring 46 and the second detection spring 51, and the curve detection wheel 34 clamps curbstones beside the sidewalk.

The paving method of the sidewalk brick for municipal administration comprises the following specific steps:

the first step is as follows: setting the position of the plough. After the pavement brick laying device for municipal administration is placed on a working face, the position of the turning plow can be adjusted and set according to the height and the condition of a specific road surface. Firstly, the turning ball 57 is pulled, and the turning ball 57 drives the turning slide bar 53 to overcome the resistance of the turning spring 55 and pull away the turning chute 54. After the plough adjusting rod 16, the plough fixing plate 17, the flat plate 18, the plough roller 58, the plough tip 59, the plough rotating shaft 60, the plough fastening bolt 61, the plough rotating rod 62 and the plough reinforcing plate 63 are adjusted to proper positions, the plough ball 57 is clamped between the plough limiting blocks 11.

The second step is that: a curve is detected. When the municipal sidewalk brick laying device travels to a curve part, the curve detection wheel 34 drives the curve detection slider 35 to generate relative displacement through the detection bearing 47 and the detection rotating shaft 48, overcomes the acting force of the first detection spring 46 and the second detection spring 51 on the curve detection slider 35, communicates the conductive layer 52 with the conductive loop 49, and triggers an electric signal.

And thirdly, paving sidewalk bricks. After the information processing system obtains the electric signal, the starting motor 43 drives the driving rotating shaft 42 and the driving gear 41 to rotate, the driving gear 41 directly drives the driven gear 44 on one side to rotate, the driven gear 44 on the other side rotates through the intermediate gear 78, and the gears are in meshing transmission, so that synchronous starting can be achieved. As the driven gear 44 is driven by the engagement of the driving shaft 42 and the intermediate gear 78, the driven gear 44 also drives the slide shaft 39 to slide in the arc-shaped slide 40 and lower the bricks to finish laying.

The fourth step: pouring and scattering joint filling sand. Pouring the joint filling sand into the sand storage box 21, wherein the joint filling sand enters the cavity of the sand storage box 21 through the sand plate holes 23 on the sand passing plate 22 under the action of gravity, and the large stone particles mixed with the joint filling sand enter the stone storage box 24. The turnover roller 64, the turnover rod 65, the turnover spring 66, the turnover ball 67 and the turnover extension rod 68 turn over the joint sand according to the running laying speed of the equipment. The electromagnet 73 can be powered on or off according to the electric signal so as to control the opening angle and the opening size of the sand discharge plate 71 against the resistance of the sand discharge spring 72.

The fifth step: and (6) compacting and finishing. The vertical positions of the platen roller 28, the platen bearing 29 and the platen rotating shaft 30 are adjusted by adjusting the extending states of the platen piston 26 and the platen hydraulic rod 27. The flat-pressing roller 28 is pressed against the paved sidewalk, and the compaction operation is completed by the weight of the equipment.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The municipal sidewalk brick laying method is carried out by matching with a municipal sidewalk brick laying device, the municipal sidewalk brick laying device comprises a rack (10), a wheel frame (13) is arranged on the rack (10), the wheel frame (13) is provided with a wheel rotating shaft (14), wheels (15) are arranged on the wheel rotating shaft (14), a turning plow rotating shaft (19) is arranged on the rack (10), the turning plow rotating shaft (19) is provided with a turning plow adjusting rod (16), the turning plow adjusting rod (16) is provided with an adjusting fastening mechanism, a flat floor (18) is arranged on the turning plow rotating shaft (19), a turning plow fixing plate (17) is arranged on the turning plow adjusting rod (16), a turning plow mechanism is arranged on the turning plow fixing plate (17), a detection frame (36) is arranged on the rack (10), and a detection mechanism is arranged on the detection frame (36), the sand storage device is characterized in that a motor (43) is arranged on the rack (10), a brick placing mechanism is arranged at the output end of the motor (43), a sand storage box (21) is arranged on the rack (10), a stone storage box (24) is arranged in the sand storage box (21), a sand passing plate (22) is arranged between the stone storage box (24) and the sand storage box (21), a plurality of sand plate holes (23) are uniformly formed in the sand passing plate (22), a material turning mechanism is arranged in the stone storage box (24), a sand outlet pipe (32) is arranged at the lower part of the sand storage box (21), a sand outlet control mechanism is arranged at the lower part of the sand outlet pipe (32), a flat pressing hydraulic cylinder (25) is arranged on the rack (10), a flat pressing piston (26) capable of sliding back and forth is arranged in the flat pressing hydraulic cylinder (25), a flat pressing hydraulic rod (27) is arranged on the flat pressing piston (26), a flat pressing bearing (29) is arranged at the tail end of the flat pressing hydraulic rod (27), the flat pressing bearing (29) is provided with a flat pressing rotating shaft (30), and the flat pressing rotating shaft (30) is provided with a flat pressing roller (28).

2. The adjusting and fastening mechanism for the municipal sidewalk brick laying method according to claim 1, wherein: a plough turning sliding groove (54) is formed in the plough turning adjusting rod (16), a plough turning sliding rod (53) capable of sliding in a reciprocating mode is arranged on the plough turning sliding groove (54), a plough turning spring (55) is arranged between the plough turning sliding rod (53) and the plough turning adjusting rod (16), a plough turning ball (57) is arranged at the tail end of the plough turning sliding rod (53), a plough turning slideway (12) is arranged on the frame (10), six plough turning limiting blocks (11) are uniformly arranged on the plough turning slideway (12), and the plough turning ball (57) can be clamped between the two adjacent plough turning limiting blocks (11) during working.

3. The plowing mechanism for the municipal sidewalk brick laying method according to claim 1, characterized in that: be equipped with turning plow pivot (33) on turning plow fixed plate (17), be equipped with turning plow cylinder (58) on turning plow pivot (33), turning plow cylinder (58) evenly are equipped with eight turning plow rotating plates (62) according to the circumferencial direction, every the basal portion of turning plow rotating plate (62) is equipped with turning plow reinforcing plate (63), every the end of turning plow reinforcing plate (63) is equipped with turning plow pivot (60), every be equipped with turning plow pointed end (59) on turning plow pivot (60), every be equipped with turning plow fastening bolt (61) on turning plow pivot (60).

4. The inspection mechanism for the paving method of municipal sidewalk bricks according to claim 1, wherein: it detects cross slot (50) to have seted up in test rack (36), but be equipped with reciprocating sliding's bend detection slider (35) in detection cross slot (50), the bend detects slider (35) and detects and be equipped with second detection spring (51) between cross slot (50), bend detection slider (35) are equipped with conducting layer (52), bend detection rack (36) are equipped with conducting circuit (49), bend detection rack (36) have been seted up and have been detected perpendicular groove (45), it is equipped with first detection spring (46) to detect between perpendicular groove (45) and bend detection slider (35), bend detection slider (35) symmetry is equipped with inspection bearing (47), two be equipped with between inspection bearing (47) and detect pivot (48), it detects wheel (34) to be equipped with on the bend to detect pivot (48).

5. The brick placing mechanism for the municipal sidewalk brick laying method according to claim 1, wherein: the symmetry is equipped with motor (43) on frame (10), every the output of motor (43) is equipped with initiative pivot (42), every be equipped with driving gear (41) on initiative pivot (42), it is equipped with middle pivot (79) to store up between brick case (20) and frame (10), be equipped with intermediate gear (78) on middle pivot (79), frame (10) symmetry is equipped with arc slide (40), the symmetry is equipped with slide axle (39) between arc slide (40), every be equipped with driven gear (44) on slide axle (39), driven gear (44) are close respectively in it intermediate gear (78) or driving gear (41) meshing transmission, be equipped with link (38) on slide axle (39), be equipped with on link (38) and press from both sides fragment of brick (37).

6. The upender mechanism for the municipal sidewalk brick laying method according to claim 1, wherein: the sand storage box is characterized in that a material turning rotating shaft (31) is arranged on the sand storage box (21), a material turning roller (64) is arranged on the material turning rotating shaft (31), six material turning rods (65) are uniformly arranged on the material turning roller (64) in the circumferential direction, a material turning groove (69) is formed in each material turning rod (65), a material turning extension rod (68) capable of sliding in a reciprocating mode is arranged in each material turning groove (69), a material turning spring (66) is arranged between each material turning extension rod (68) and each material turning groove (69), and a material turning ball (67) is arranged at the tail end of each material turning extension rod (68).

7. The controlled sanding mechanism for municipal sidewalk brick laying methods according to claim 1, wherein: go out sand pipe (32) end and be equipped with sand cavity (77), the inside end symmetry of sand pipe (32) is equipped with sand pivot (70), every be equipped with sand outlet plate (71) on sand outlet pivot (70), every be equipped with sand outlet convex block (76), every on sand outlet plate (71) sand outlet convex block (76) with be equipped with sand outlet spring (72) between sand outlet cavity (77), every be equipped with sand outlet opening block (75) on sand outlet plate (71), sand outlet cavity (77) symmetry is equipped with electro-magnet (73), every electro-magnet (73) are outer around having electromagnet winding (74).