CN112576051A

CN112576051A - Civil engineering device of laying bricks

Info

Publication number: CN112576051A
Application number: CN202110113113.2A
Authority: CN
Inventors: 路喜
Original assignee: Shenzhen Wenliye Trade Co ltd
Current assignee: Shenzhen Wenliye Trade Co ltd
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2021-03-30

Abstract

The civil engineering bricklaying device comprises a box body, wherein a mud scraping cavity with a leftward opening and a downward opening is arranged in the box body, the upper end wall of the mud scraping cavity can be provided with compression side plates which are symmetrical front and back relative to the symmetrical center of the mud scraping cavity in a front and back sliding manner, a collecting cavity with an opening close to one side of the symmetrical center of the mud scraping cavity is arranged in the pressing side plate, a transmission clamping block cavity is arranged on one side of the collecting cavity far away from the symmetrical center of the mud scraping cavity, the upper side of the cavity of the transmission clamping block is communicated with a switching cavity, the collecting cavity is internally provided with a mud scraping device, the invention adjusts the direction of the brick coated with mortar, thereby ensuring that the bricks can be at the same height, ensuring the stability of the built wall body and the life safety of workers during construction, and scraping and recovering the excessive mortar between the upper and lower brick joints, thereby reducing the scraping of workers on the mortar.

Description

Civil engineering device of laying bricks

Technical Field

The invention relates to the relevant field of civil engineering, in particular to a civil engineering brick laying device.

Background

When building engineering is built, the most basic is brick laying engineering, and when workers lay bricks, mortar smears on the surfaces of the bricks cannot be uniformly distributed, and the pressure applied to the bricks cannot be unified, so that the built bricks have a height fluctuation condition in height, the stress of a built wall body is uneven and the built wall body is easy to collapse, the life safety of constructors is threatened, the construction efficiency is reduced, the construction period is prolonged, and the workers also need to scrape away excessive mortar among brick joints, so that the workload of the workers is increased.

Disclosure of Invention

In order to solve the problems, the civil engineering brick laying device comprises a box body, a left and downward mud scraping cavity is arranged in the box body, a pressing side plate which is symmetrical front and back relative to the symmetrical center of the mud scraping cavity is arranged on the upper end wall of the mud scraping cavity in a front-back sliding mode, a collecting cavity with an opening close to one side of the symmetrical center of the mud scraping cavity is arranged in the pressing side plate, a transmission clamping block cavity is arranged on one side of the collecting cavity far away from the symmetrical center of the mud scraping cavity, a switching cavity is communicated with the upper side of the transmission clamping block cavity, a mud scraping device is arranged in the collecting cavity and comprises a mud scraping spline sleeve rotatably arranged in the end wall of the collecting cavity far away from the symmetrical center of the mud scraping cavity, and a mud scraping threaded shaft extending into the collecting cavity is connected with an inner circular spline of the mud scraping spline sleeve, the outer circular surface of the mud scraping threaded shaft can be arranged on the mud scraping plates of the left end wall and the right end wall of the collection cavity in a front-back sliding manner, an input clamping block extending into the cavity of the transmission clamping block can be arranged in the end wall of one side of the collection cavity far away from the symmetrical center of the mud scraping cavity in a front-back sliding manner, a switching expansion spring is fixedly arranged between one end of the input clamping block close to the symmetrical center of the mud scraping cavity and the end wall of one side of the collection cavity far away from the symmetrical center of the mud scraping cavity, the inner wall of the cavity of the transmission clamping block can be provided with the transmission clamping block in a vertical sliding manner, an input clamping groove is arranged in the transmission clamping block, the input clamping block can move into the input clamping groove, a movable plate can be arranged in a front-back sliding manner on the upper, the utility model discloses a mud scraping cavity, including switching cavity, collecting cavity, adjusting cavity center, switching cavity, connecting rod.

But preferred, scrape mud device still including rotate set up in collect the collection screw shaft in the chamber upper end wall, collect screw shaft upper end with the spline minor axis is close to scrape and organize power connection through bevel gear between mud chamber symmetry center one end, collect the screw shaft excircle facial features with collect and fixedly be provided with between the chamber upper end wall and turn round tight spring, collect the screw shaft excircle facial features threaded connection have can slide set up in scrape the recovery board of mud board right-hand member face, it keeps away from to switch the chamber scrape mud chamber symmetry center side end wall internal rotation and be provided with the integral key shaft, scrape the mud chamber around the end wall internal rotation be provided with can with the integral key shaft excircle facial features carries out splined connection's spline sleeve.

Preferably, the moving device comprises a motor fixedly arranged in the upper end wall of the bevel gear cavity, the lower end surface of the motor is in power connection with a power shaft extending into the bevel gear cavity, the lower end of the power shaft is fixedly provided with an input gear, the front end wall and the rear end wall of the bevel gear cavity are rotationally provided with a power input shaft, the outer circular surface of the power input shaft is fixedly provided with a transmission gear meshed with the front end of the input gear, the lower end wall of the bevel gear cavity is rotationally provided with a moving spline sleeve extending into the moving cavity, the upper end of the moving spline sleeve is fixedly provided with an output bevel gear meshed with the lower end of the transmission gear, the inner circular surface of the moving spline sleeve is in spline connection with a moving spline shaft, the left end wall and the right end wall of the moving cavity can be slidably arranged in a front-back mode and are slidably arranged on the outer, the movable box is internally provided with a movable roller cavity with a downward opening, the front end wall and the rear end wall of the movable roller cavity are rotatably provided with movable roller shafts, the outer circular surfaces of the movable roller shafts are in power connection with the lower ends of the movable spline shafts through bevel gear sets, and movable wheels are fixedly arranged on the outer circular surfaces of the movable roller shafts.

Preferably, the adjusting device comprises an adjusting spline sleeve rotatably arranged in an end wall of one side of the adjusting moving cavity, which is far away from the symmetry center of the adjusting cavity, an adjusting spline shaft is connected to the inner surface of the adjusting spline sleeve through a spline, an adjusting box is slidably arranged in the upper end wall and the lower end wall of the adjusting moving cavity back and forth and slidably arranged on the outer circular surface of the adjusting spline sleeve, an adjusting support spring is fixedly arranged between the end surface of one side of the adjusting box, which is far away from the symmetry center of the adjusting cavity, and the end wall of one side of the adjusting moving cavity, which is far away from the symmetry center of the adjusting cavity, an adjusting roller cavity is fixedly arranged in the adjusting box, an opening of which is close to one side of the symmetry center of the adjusting cavity, an adjusting shaft is rotatably arranged on the upper end wall and the lower end, the adjusting shaft is characterized in that the outer circular surface of the adjusting shaft is fixedly arranged and is annularly arrayed with adjusting rods which are vertically symmetrical relative to the axis of the adjusting spline shaft, and the adjusting rods are rotationally provided with adjusting wheels far away from the end surface of one side of the axis of the adjusting spline shaft.

But preferred, closing device including rotate set up in transmission shaft in the end wall around the reciprocating cavity, the transmission shaft is close to scrape the fixed bent axle that is provided with of mud chamber symmetry center one end, the excircle face of bent axle rotates and is provided with reciprocating lever, the reciprocating lever lower extreme articulates there is the hinge bar, it can slide from top to bottom to scrape the end wall around the mud chamber and be provided with the pressure strip, be equipped with flexible chamber in the pressure strip, the hinge bar lower extreme can extend to flexible intracavity, the hinge bar under the terminal surface with it is fixed to be provided with expanding spring between the end wall under the flexible chamber.

Preferably, the compressing device further comprises a compressing spline sleeve rotatably arranged in the front end wall and the rear end wall of the sludge scraping cavity, a compressing telescopic cavity with an opening close to one side of the symmetrical center of the sludge scraping cavity is arranged in the compressing spline sleeve, a circular spline in the compressing spline sleeve extends to the inside of the sludge scraping cavity and is in threaded connection with the compressing side plate to obtain a compressing spline shaft, the compressing spline shaft is far away from one side end face of the symmetrical center of the sludge scraping cavity and the compressing telescopic cavity is far away from the end wall of one side of the symmetrical center of the sludge scraping cavity, the compressing spline cavity is close to one side end wall of the center of the compressing side plate and is rotatably provided with a compressing wheel, the compressing spline sleeve is far away from one end of the symmetrical center of the sludge scraping cavity and one end of the symmetrical center of the sludge scraping cavity are far away from the spline sleeve, and one end of the power input shaft is connected with the end, far away from the symmetrical center of the adjusting cavity, of the power input shaft through a belt pulley set.

The invention has the beneficial effects that: according to the invention, the direction of the brick blocks coated with mortar is adjusted, so that the brick blocks can be ensured to be at the same height, the stability of the wall body after being built is ensured, the life safety of workers during construction is ensured, and excessive mortar between the upper and lower brick joints is scraped and recovered, so that the scraping of the mortar by the workers is reduced, the workload of the workers is reduced, and the brick building efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is a schematic view of the structure of C-C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The civil engineering bricklaying device comprises a box body 11, wherein a mud scraping cavity 15 with an opening facing left and facing downward is arranged in the box body 11, a pressing side plate 50 which is symmetrical front and back relative to the symmetrical center of the mud scraping cavity 15 can be arranged on the upper end wall of the mud scraping cavity 15 in a front and back sliding mode, a collecting cavity 55 with an opening close to the symmetrical center of the mud scraping cavity 15 is arranged in the pressing side plate 50, a transmission clamping block cavity 70 is arranged on one side of the collecting cavity 55 far away from the symmetrical center of the mud scraping cavity 15, a switching cavity 61 is communicated with the upper side of the transmission clamping block cavity 70, a mud scraping device is arranged in the collecting cavity 55 and comprises a mud scraping spline sleeve 58 which is rotatably arranged in the end wall of the collecting cavity 55 far away from the symmetrical center of the mud scraping cavity 15, a mud scraping threaded shaft 53 which extends into the collecting cavity 55 is connected with an inner circular surface spline of the, the outer circular surface of the mud scraping threaded shaft 53 can be arranged on the mud scraping plates 54 on the left end wall and the right end wall of the collection cavity 55 in a front-back sliding manner, the collection cavity 55 is far away from the end wall on one side of the symmetrical center of the mud scraping cavity 15, the input clamping block 67 extending into the transmission clamping block cavity 70 can be arranged in a front-back sliding manner, the input clamping block 67 is close to one end of the symmetrical center of the mud scraping cavity 15 and the end wall on one side of the symmetrical center of the mud scraping cavity 15 far away from the collection cavity 55, a switching telescopic spring 66 is fixedly arranged between the end wall on one side of the symmetrical center of the mud scraping cavity 15, the inner wall of the transmission clamping block cavity 70 can be arranged in a vertical sliding manner, an input clamping groove 68 is arranged in the transmission clamping block 69, the input clamping block 67 can move into the input clamping groove 68, the upper end wall and, the front end surface and the rear end surface of the moving plate 62 are rotatably provided with a switching spline sleeve 63, the end wall of the switching cavity 61 close to one side of the symmetry center of the mud scraping cavity 15 is rotatably provided with a spline short shaft 56 in spline connection with the inner circular surface of the switching spline sleeve 63, the right side of the collecting cavity 55 is provided with a pressing wheel cavity 51 which is vertically symmetrical about the center of the pressing side plate 50 and has an opening close to one side of the symmetry center of the mud scraping cavity 15, the upper side of the mud scraping cavity 15 is provided with a reciprocating cavity 12, the reciprocating cavity 12 is internally provided with a pressing device, the right side of the mud scraping cavity 15 is communicated with an adjusting cavity 14 with a downward opening and a right opening, the upper part of the adjusting cavity 14 is communicated with a moving cavity 13, the upper side of the moving cavity 13 is provided with a bevel gear cavity 22, the moving device is arranged in the moving cavity 13, the front side part, an adjusting device is arranged in the adjusting moving cavity 35.

Beneficially, the mud scraping device further comprises a collecting threaded shaft 57 rotatably disposed in the upper end wall of the collecting cavity 55, the upper end of the collecting threaded shaft 57 is in power connection with the spline short shaft 56 close to one end of the symmetrical center of the mud scraping cavity 15 through a bevel gear set, a tightening spring 64 is fixedly disposed between the outer circular surface of the collecting threaded shaft 57 and the upper end wall of the collecting cavity 55, a recovery plate 65 slidably disposed on the right end surface of the mud scraping plate 54 is in threaded connection with the outer circular surface of the collecting threaded shaft 57, a spline shaft 60 is rotatably disposed in the end wall on one side far away from the symmetrical center of the mud scraping cavity 15 in the switching cavity 61, and a spline sleeve 59 capable of being in spline connection with the outer circular surface of the spline shaft 60 is rotatably disposed in the front end wall and the rear.

Advantageously, the moving device comprises a motor 21 fixedly arranged in the upper end wall of the bevel gear cavity 22, a power shaft 20 extending into the bevel gear cavity 22 is in power connection with the lower end surface of the motor 21, an input gear 19 is fixedly arranged at the lower end of the power shaft 20, a power input shaft 16 is rotatably arranged in the front end wall and the rear end wall of the bevel gear cavity 22, a transmission gear 18 engaged with the front end of the input gear 19 is fixedly arranged on the outer circumferential surface of the power input shaft 16, a moving spline sleeve 23 extending into the moving cavity 13 is rotatably arranged on the lower end wall of the bevel gear cavity 22, an output bevel gear 17 engaged with the lower end of the transmission gear 18 is fixedly arranged at the upper end of the moving spline sleeve 23, a moving spline shaft 25 is connected to the inner circumferential surface of the moving spline sleeve 23, and a moving box 26 slidably arranged on the outer circumferential surface of the moving spline sleeve 23 is slidably, a movable supporting spring 24 is fixedly arranged between the upper end face of the movable box 26 and the upper end wall of the movable cavity 13, a movable roller cavity 29 with a downward opening is arranged in the movable box 26, movable roller shafts 27 are rotatably arranged on the front and rear end walls of the movable roller cavity 29, the outer circular surfaces of the movable roller shafts 27 are in power connection with the lower end of the movable spline shaft 25 through a bevel gear set, and movable wheels 28 are fixedly arranged on the outer circular surfaces of the movable roller shafts 27.

Advantageously, the adjusting device comprises an adjusting spline sleeve 37 rotatably disposed in an end wall of the adjusting moving cavity 35 on the side away from the symmetry center of the adjusting cavity 14, an adjusting spline shaft 33 is splined in an inner surface of the adjusting spline sleeve 37, an adjusting box 34 slidably disposed in front and back of the upper and lower end walls of the adjusting moving cavity 35 and slidably disposed in an outer circumferential surface of the adjusting spline sleeve 37 is disposed between an end surface of the adjusting box 34 on the side away from the symmetry center of the adjusting cavity 14 and an end wall of the adjusting moving cavity 35 on the side away from the symmetry center of the adjusting cavity 14, an adjusting support spring 36 is fixedly disposed in the adjusting box 34, an adjusting roller cavity 40 having an opening close to the side of the symmetry center of the adjusting cavity 14 is disposed in the adjusting box 34, an adjusting shaft 32 is rotatably disposed in the upper and lower end walls of the adjusting roller cavity 40, and the outer circumferential surface of the adjusting shaft 32 and the, the adjusting rods 31 are fixedly arranged on the outer circular surface of the adjusting shaft 32 and are annularly arrayed in an up-down symmetry mode relative to the axis of the adjusting spline shaft 33, and the adjusting wheels 30 are rotatably arranged on the end faces of one side, far away from the axis of the adjusting spline shaft 33, of the adjusting rods 31.

Beneficially, closing device including rotate set up in transmission shaft 38 in the end wall around reciprocating cavity 12, transmission shaft 38 is close to scrape fixed being provided with bent axle 39 in mud cavity 15 symmetry center one end, bent axle 39 excircle face rotates and is provided with reciprocating rod 41, reciprocating rod 41 lower extreme articulates there is hinge rod 42, scrape mud cavity 15 front and back end wall and can slide from top to bottom and be provided with pressure strip 45, be equipped with flexible chamber 43 in the pressure strip 45, hinge rod 42 lower extreme can extend to in the flexible chamber 43, hinge rod 42 lower extreme with be provided with expanding spring 44 between the flexible chamber 43 lower extreme wall.

Beneficially, the pressing device further comprises a pressing spline sleeve 46 rotatably disposed in the front end wall and the rear end wall of the sludge scraping cavity 15, a pressing telescopic cavity 48 with an opening close to one side of the symmetric center of the sludge scraping cavity 15 is disposed in the pressing spline sleeve 46, a pressing telescopic spring 47 is fixedly disposed between an end wall of the pressing spline sleeve 46, which extends into the sludge scraping cavity 15 and is in threaded connection with the pressing side plate 50 to obtain a pressing spline shaft 49, the pressing spline shaft 49 is far away from one side end face of the symmetric center of the sludge scraping cavity 15 and an end wall of the pressing telescopic cavity 48, which is far away from one side of the symmetric center of the sludge scraping cavity 15, the pressing wheel cavity 51 is rotatably disposed close to one side end wall of the pressing side plate 50, a pressing wheel 52 is rotatably disposed on one side of the pressing spline sleeve 46, one end of the symmetric center of the sludge scraping cavity 15 and one end of the sludge scraping spline sleeve 58, and one end of the spline sleeve The end of the adjusting spline sleeve 37 far from the symmetrical center of the adjusting cavity 14 and the end of the power input shaft 16 far from the symmetrical center of the adjusting cavity 14 are in power connection through a pulley set.

The use steps herein are described in detail below with reference to fig. 1-5:

in the initial state, the movable box 26 is at the lower limit position, the adjusting box 34 is at the side close to the symmetric center of the adjusting cavity 14, the switching spline sleeve 63 is not in spline connection with the spline shaft 60, and the input latch 67 is at the side close to the symmetric center of the mud scraping cavity 15.

When the machine starts to work, the box body 11 is placed on a brick block which is built, the motor 21 is started, the power shaft 20 drives the input gear 19 to rotate, the input gear 19 drives the transmission gear 18 to rotate through gear meshing, the transmission gear 18 drives the output bevel gear 17 to rotate through gear meshing, so as to drive the movable spline sleeve 23 to rotate, the movable spline sleeve 23 drives the movable spline shaft 25 to rotate through spline connection, the movable spline shaft 25 drives the movable roller shaft 27 to rotate through bevel gear group power connection, so as to drive the movable wheel 28 to rotate, so as to drive the box body 11 to move, the transmission gear 18 also drives the power input shaft 16 to rotate, the power input shaft 16 drives the adjusting spline sleeve 37 to rotate through belt wheel group power connection, the adjusting spline sleeve 37 drives the adjusting spline shaft 33 to rotate through spline connection, the adjusting spline shaft 33 drives the adjusting shaft 32 to rotate through, thereby driving the adjusting rod 31 to rotate, thereby enabling the adjusting wheel 30 to abut against the end faces at two sides of the brick, thereby adjusting the position of the brick, the power input shaft 16 further drives the transmission shaft 38 to rotate through the power connection of the belt pulley set, thereby driving the reciprocating rod 41 to swing through the crankshaft 39, the reciprocating rod 41 drives the hinge rod 42 to move up and down through hinging, thereby driving the pressing plate 45 to move up and down to press the brick, the transmission shaft 38 further drives the pressing spline sleeve 46 to rotate through the power connection of the belt pulley set, the pressing spline sleeve 46 drives the pressing spline shaft 49 to rotate through the spline connection, the pressing spline shaft 49 drives the pressing side plate 50 to move towards one side close to the symmetric center of the mud scraping cavity 15 through threaded connection, thereby clamping two sides of the brick, the pressing spline sleeve 46 further drives the mud scraping spline sleeve 58 to rotate through the power connection of the belt pulley set, the mud scraping, the mud scraping threaded shaft 53 drives the mud scraping plate 54 to move towards the side close to the symmetrical center of the mud scraping cavity 15 through threaded connection, so that mortar extruded between the bricks at the upper side and the lower side is scraped, after the scraping is finished, the motor 21 rotates reversely, so that the mud scraping plate 54 is abutted to the input clamping block 67 and drives the input clamping block 67 to move towards the side far away from the symmetrical center of the mud scraping cavity 15 and to be engaged with the input clamping groove 68, so that the transmission clamping block 69 is driven to move upwards, the upper end of the transmission clamping block 69 moves into the transmission clamping groove 71 and drives the moving plate 62 to move towards the side far away from the symmetrical center of the mud scraping cavity 15, so that the switching spline sleeve 63 can be in spline connection with the spline shaft 60, the spline shaft 60 moves through spline connection to switch the spline sleeve 63, the switching spline sleeve 63 moves to rotate through spline connection with the minor shaft 56, and, the collection threaded shaft 57 drives the recovery plate 65 to move downwards through threaded connection and recover excessive mortar.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a civil engineering device of laying bricks, includes the box, its characterized in that: be equipped with the opening towards left and scrape the mud chamber down in the box, it can slide back and forth to be provided with to scrape the mud chamber upper end wall and be related to scrape the curb plate that compresses tightly of mud chamber symmetry front and back symmetry, it is close to compress tightly to be equipped with the opening in the curb plate scrape the collection chamber of mud chamber symmetry one side, it keeps away from to collect the chamber scrape mud chamber symmetry one side and be equipped with the transmission fixture block chamber, transmission fixture block chamber upside intercommunication is equipped with the switching chamber, it is provided with mud scraping device to collect the intracavity, mud scraping device including rotate set up in collect the chamber and keep away from scrape the mud spline sleeve in the wall of mud chamber symmetry one side end, scrape the disc spline connection in the mud spline sleeve extend to collect the mud scraping threaded spindle of intracavity, scrape the outer disc of mud threaded spindle can slide back and forth set up in the mud scraping plate of collecting the chamber left and right ends wall, it keeps away from to collect the chamber scrape and can slide around An input clamping block in the cavity, wherein the input clamping block is close to one end of the center of symmetry of the mud scraping cavity and the collection cavity is far away from a switching expansion spring fixedly arranged between the end walls of one side of the center of symmetry of the mud scraping cavity, the inner wall of the cavity of the transmission clamping block is provided with a transmission clamping block in an up-and-down sliding manner, an input clamping groove is arranged in the transmission clamping block, the input clamping block can move into the input clamping groove, the end walls of the upper end and the lower end of the switching cavity can be provided with a movable plate in a front-and-back sliding manner, the transmission clamping block is arranged in the movable plate, the front end face and the rear end face of the movable plate are provided with a switching spline sleeve in a rotating manner, the switching cavity is close to the end wall of one side of the center of symmetry of the mud scraping cavity, a spline short shaft is arranged on the The utility model discloses a mud scraping cavity, including mud scraping cavity, reciprocating cavity, adjusting cavity front and back both sides part intercommunication are equipped with about adjusting cavity symmetry center longitudinal symmetry's adjustment removes the chamber, the intracavity is provided with closing device in the reciprocating cavity, mud scraping cavity right side intercommunication is equipped with the opening down and towards the adjustment chamber of right, adjusting cavity upside part intercommunication is equipped with removes the chamber, it is equipped with the bevel gear chamber to remove the chamber upside, it is provided with adjusting device to remove the intracavity.

2. A civil engineering bricklaying device as claimed in claim 1, wherein: scrape mud device still including rotate set up in collect the collection screw shaft in the chamber upper end wall, collect screw shaft upper end with the spline minor axis is close to scrape through bevel gear group power connection between mud chamber center of symmetry one end, collect the outer disc of screw shaft with collect and turn round tight spring between the chamber upper end wall fixedly, collect the outer disc threaded connection of screw shaft have can slide set up in the recovery board of scraping the mud board right-hand member face, it keeps away from to switch the chamber scrape mud chamber center of symmetry side end wall internal rotation and be provided with the integral key shaft, scrape around the mud chamber end wall internal rotation be provided with can with the integral key shaft outer disc carries out splined connection's spline sleeve.

3. A civil engineering bricklaying device as claimed in claim 1, wherein: the moving device comprises a motor fixedly arranged in the upper end wall of the bevel gear cavity, the lower end surface of the motor is in power connection with a power shaft extending into the bevel gear cavity, the lower end of the power shaft is fixedly provided with an input gear, the front end wall and the rear end wall of the bevel gear cavity are rotationally provided with power input shafts, the outer circular surface of each power input shaft is fixedly provided with a transmission gear meshed with the front end of the input gear, the lower end wall of the bevel gear cavity is rotationally provided with a moving spline sleeve extending into the moving cavity, the upper end of the moving spline sleeve is fixedly provided with an output bevel gear meshed with the lower end of the transmission gear, the inner circular surface of the moving spline sleeve is in spline connection with a moving spline shaft, the left end wall and the right end wall of the moving cavity can be slidably arranged in a front-back mode and slidably arranged on the outer, the movable box is internally provided with a movable roller cavity with a downward opening, the front end wall and the rear end wall of the movable roller cavity are rotatably provided with movable roller shafts, the outer circular surfaces of the movable roller shafts are in power connection with the lower ends of the movable spline shafts through bevel gear sets, and movable wheels are fixedly arranged on the outer circular surfaces of the movable roller shafts.

4. A civil engineering bricklaying device as claimed in claim 1, wherein: the adjusting device comprises an adjusting spline sleeve rotationally arranged in the adjusting moving cavity far away from the end wall on one side of the symmetry center of the adjusting cavity, an adjusting spline shaft is connected to the inner surface of the adjusting spline sleeve in a spline mode, the upper end wall and the lower end wall of the adjusting moving cavity can be arranged in a front-back sliding mode and arranged in an adjusting box of the outer circular surface of the adjusting spline sleeve in a sliding mode, the adjusting box is far away from the end surface on one side of the symmetry center of the adjusting cavity and the adjusting moving cavity, an adjusting supporting spring is fixedly arranged between the end walls on one side of the symmetry center of the adjusting cavity, an opening is formed in the adjusting box and close to the adjusting roller cavity on one side of the symmetry center of the adjusting cavity, an adjusting shaft is rotationally arranged on the upper end wall and the lower end wall of the adjusting roller cavity, the outer circular surface of the adjusting shaft and one end, close to the And the adjusting rod is far away from the end surface of one side of the axis of the adjusting spline shaft and is provided with an adjusting wheel in a rotating way.

5. A civil engineering bricklaying device as claimed in claim 1, wherein: the compressing device comprises a transmission shaft which is arranged in the front end wall and the rear end wall of the reciprocating cavity in a rotating mode, the transmission shaft is close to a crankshaft which is fixedly arranged at one end of a symmetrical center of the sludge scraping cavity, a reciprocating rod is arranged on the outer circular surface of the crankshaft in a rotating mode, a hinged rod is hinged to the lower end of the reciprocating rod, a compressing plate can be arranged on the front end wall and the rear end wall of the sludge scraping cavity in a sliding mode, a telescopic cavity is formed in the compressing plate, the lower end of the hinged rod can extend into the telescopic cavity, and a telescopic spring is fixedly arranged between the lower end wall.

6. An earthworking brick laying apparatus according to claim 5 wherein: the compressing device further comprises a compressing spline sleeve which is rotatably arranged in the front end wall and the rear end wall of the sludge scraping cavity, an opening which is close to the compressing telescopic cavity on one side of the symmetrical center of the sludge scraping cavity is arranged in the compressing spline sleeve, a circular spline in the compressing spline sleeve is connected with the compressing spline and extends to the inside of the sludge scraping cavity, the compressing spline is connected with a side plate in a threaded manner to obtain a compressing spline shaft, the compressing spline shaft is far away from the compressing telescopic cavity, one side end face of the symmetrical center of the sludge scraping cavity is far away from the compressing telescopic cavity, a compressing telescopic spring is fixedly arranged between the end walls of one side of the symmetrical center of the sludge scraping cavity, the compressing spline cavity is close to the end wall of one side of the symmetrical center of the compressing spline shaft, the compressing spline sleeve is far away from the one end of the symmetrical center of the sludge scraping cavity and the spline sleeve is far away from the one end And one end of the power input shaft, which is far away from the symmetrical center of the adjusting cavity, is in power connection through a belt pulley group.