CN112127242A - Vibration laying equipment for building pouring cement pavement - Google Patents

Abstract

The invention discloses a vibration laying device for pouring cement pavement in a building, which comprises a machine body, wherein the upper side and the lower side of a laying box are symmetrically provided with the machine body for pouring support, and a movable supporting device for laying the laying box for building laying is arranged in the machine body; the paving device is arranged, so that air bubbles in cement can be discharged through the vibration of the vibrator on the cement layer, the paving quality of the cement pavement is improved, the height of the paving pressing wheel can be adjusted according to requirements, and the vibrated cement pavement is compacted conveniently.

Description

Vibration laying equipment for building pouring cement pavement

Technical Field

The invention relates to the technical field of building pouring, in particular to a vibration paving device for pouring a cement pavement in a building.

Background

The pouring is that materials such as concrete and the like are put into a mould to be made into a preset shape in civil construction engineering; the pouring of traditional cement road surface is generally pour through the manually operation machine, then vibrate equipment through artifical auxiliary operation and go on the cement layer, pave cement again, and the operation is wasted time and energy like this, and still can receive the restriction of topography to make the watering lay efficiency greatly reduced, so need design the vibration of building watering cement road surface and lay the equipment.

Disclosure of Invention

The invention aims to provide a vibration paving device for pouring cement pavement in a building, which is used for overcoming the defects in the prior art.

The invention relates to a vibration laying device for pouring cement pavement in a building, which comprises a laying box, wherein machine bodies for pouring and supporting are symmetrically arranged on the upper side and the lower side of the laying box, a movable supporting device for building laying by the laying box is arranged in the machine bodies, the movable supporting device comprises extending devices which are arranged on the machine bodies and used for laying pavement with different widths, each extending device comprises a sliding chute which is arranged in the machine body and close to one side wall body of the laying box, a driving device for driving the laying box to longitudinally move is arranged in the sliding chute, the driving device comprises an upper sliding box which is arranged in the sliding chute on the upper side of the laying box in a sliding way, a lower sliding box is arranged in the sliding chute on the lower side of the laying box, a first synchronous belt cavity is arranged in the upper sliding box, and a first forward and reverse rotation motor is fixedly arranged in the upper, a first threaded rotating shaft is fixedly arranged on a power output shaft of a first forward and reverse rotating motor, a second threaded rotating shaft is rotatably arranged in a side wall body of the lower side sliding box, a first synchronous belt pulley is fixedly arranged on the first threaded rotating shaft in the first synchronous belt cavity, a second synchronous belt pulley is fixedly arranged on the second threaded rotating shaft in the first synchronous belt cavity, a first synchronous belt is arranged between the second synchronous belt pulley and the first synchronous belt pulley, a first groove and a second groove are arranged in the side wall body of the first threaded rotating shaft and the second threaded rotating shaft, a first clamping block capable of clamping with the first groove arranged on the upper side of the first threaded rotating shaft is fixedly arranged on the lower side of the first synchronous belt pulley, the first synchronous belt pulley is driven to rotate by rotation of the first groove, the first threaded rotating shaft can be taken down from the first synchronous belt pulley, and a first groove arranged in one side wall body can be further arranged between the first threaded rotating shaft and, the screw thread rotating shaft of the first clamping block is arranged in the wall body of the other side, the screw thread rotating shaft is the same as the specification and can be different from the specification, the second clamping block II capable of being clamped with the second groove arranged on the upper side of the screw thread rotating shaft is fixedly arranged on the lower side of the second synchronous belt pulley, the second groove rotates to drive the second synchronous belt pulley to rotate, the second screw thread rotating shaft can be taken down from the second synchronous belt pulley, the second groove is arranged in the wall body of one side between the second screw thread rotating shaft and the second synchronous belt pulley, the screw thread rotating shaft of the second clamping block is arranged in the wall body of the other side, the threaded rod is the same as the specification of the second screw thread rotating shaft and can be different from the length, the first screw thread rotating shaft and the second screw thread rotating shaft are in threaded engagement connection with the laying box, and the left side of the chute is provided, and a paving device for stirring and paving cement is arranged in the paving box.

On the basis of the technical scheme, the extension device is still including set up in the spout is left gear chamber one in the fuselage, gear chamber one keep away from in lay case one side and be equipped with the pulley chamber, the pulley chamber with it stretches out to rotate between the gear chamber one the fuselage is close to lay the spline pivot of case lateral wall body, it is equipped with the spline housing to lay the case left side, be equipped with the smooth chamber one of symmetry in the lower lateral wall body on the spline housing, smooth chamber one with spline pivot spline meshing is connected, the spline pivot close to lay case one side with be equipped with expanding spring one between a smooth chamber diapire.

On the basis of the technical scheme, the driving device further comprises a third threaded rotating shaft arranged between the sliding chute and the first gear cavity in a rotating manner, the third upper sliding box which is connected with the third threaded rotating shaft in a threaded engagement manner is arranged in the sliding chute on the upper side of the laying box in a sliding manner, a lower sliding box which is connected with the third threaded rotating shaft in a threaded engagement manner is arranged in the sliding chute on the lower side of the laying box in a sliding manner, a second bevel gear which is connected with the first bevel gear fixedly arranged on the third threaded rotating shaft in a meshing manner is fixedly arranged on the first spline rotating shaft in the first gear cavity and the inner spline rotating shaft, a second synchronous belt is fixedly arranged on the spline rotating shaft in the belt wheel cavity, a lower belt wheel is rotatably arranged on the wall body on one side of the laying box in a manner of keeping away from the belt wheel cavity on the lower side of the second synchronous belt, a third synchronous belt is arranged, the novel thread sleeve is characterized in that a sliding cavity II is arranged in the wall body on the left side of the thread sleeve, a sliding block is arranged in the sliding cavity II in a sliding mode, an electromagnet I is fixedly arranged in the sliding block rear side wall body, an expansion spring II is fixedly arranged in the sliding cavity II rear side wall body, an electromagnet II is arranged between the expansion spring II and the electromagnet I, a forward and reverse rotating motor II is fixedly arranged in the sliding block right side wall body, a bevel gear III is fixedly arranged on a power output shaft of the forward and reverse rotating motor II, and when the expansion spring II and the electromagnet I are electrified, the sliding block can be driven to move forwards, so that the bevel gear III is driven to be meshed with the.

On the basis of the technical scheme, the adjusting device comprises a gear cavity II which is arranged in the machine body and close to one side of the laying box, a gear cavity III is arranged in the machine body and at the right side of the gear cavity II, a rotating shaft I is rotatably arranged between the gear cavity II and the gear cavity, a rotating shaft II is rotatably arranged between the gear cavity II and the gear cavity III, a bevel gear IV which is meshed with the bevel gear III is fixedly arranged on the rotating shaft I in the belt cavity, the rotating shaft I and the rotating shaft II are connected through a synchronous belt IV in a transmission way, a base for supporting is fixedly arranged at the lower side of the machine body, the base can be fixedly arranged on the ground, a thread sleeve II is fixedly arranged on the upper side wall body of the base, a thread rod I is fixedly arranged on the upper side wall body of the base at the right side of the thread sleeve II, a thread rod II which extends out of the lower side wall body and is connected with the thread sleeve II in a, the three lower sides of the gear cavity rotate to be provided with a first threaded rod extending out of the lower side wall body of the machine body and connected with the first thread sleeve in a threaded meshing manner, a sixth bevel gear meshed with a fifth bevel gear fixedly arranged on the first rotating shaft in the gear cavity is fixedly arranged on the second threaded rod in the gear cavity, and a seventh bevel gear meshed with an eighth bevel gear fixedly arranged on the second rotating shaft in the gear cavity is fixedly arranged on the first threaded rod in the gear cavity.

On the basis of the technical scheme, the laying device comprises a cam cavity arranged in the laying box, a third sliding cavity is arranged on the left side of the cam cavity, a sliding block is arranged in the third sliding cavity in a sliding manner, a cylindrical sliding rod which is slidably mounted in the three upper side walls of the sliding cavity is fixedly arranged on the upper side of the sliding block, symmetrical third telescopic springs are arranged between the bottom walls of the three upper and lower sides of the sliding cavity of the sliding block, a vibrating sliding plate which can slide in the front and rear walls of the three sliding cavity is arranged on the lower side of the sliding block, a pouring nozzle is arranged on the lower side of the vibrating sliding plate, a vibrating pipe which is fixedly mounted with the lower side wall body of the laying box is arranged on the outer side of the pouring nozzle, a vibrator is arranged on the lower side of the vibrating pipe, the pouring nozzle extends into the vibrator and can drive the vibrator to vibrate back and forth, so that bubbles in cement laid on, thereby improving the paving quality of cement pavement, the rear side of the cam cavity is provided with a synchronous belt cavity II, the rear side of the synchronous belt cavity II is provided with a gear cavity IV, the lower side wall body of the paving box is internally provided with a press wheel cavity, the rear side wall body of the press wheel cavity is internally provided with a slide bar cavity communicated with the gear cavity IV, the slide bar cavity is internally provided with a slide bar capable of sliding and resetting in a sliding way, the slide bar in the press wheel cavity is fixedly provided with a paving press wheel capable of paving vibrated cement, a rotating shaft III is rotatably arranged between the cam cavity and the synchronous belt cavity II, a rotating shaft sleeve is rotatably arranged between the synchronous belt cavity II and the gear cavity IV, the rear side wall body of the synchronous belt cavity II is internally provided with a motor, a rotating shaft sleeve is fixedly arranged on a power output shaft of the motor, and the rotating shaft III in the cam cavity is fixedly provided with a cam capable of stirring the cylinder to perform, a first belt wheel is fixedly arranged on a third rotating shaft in a second synchronous belt cavity, a second belt wheel is fixedly arranged on a rotating shaft sleeve in the second synchronous belt cavity, a fifth synchronous belt is arranged between the second belt wheel and the first belt wheel, a fourth rotating shaft is arranged on the rear side wall of the rotating shaft sleeve in a spline engagement manner, a third electromagnet is arranged between the fourth rotating shaft and the third electromagnet, a ninth bevel gear is fixedly arranged on the fourth rotating shaft in a gear cavity, a tenth bevel gear is rotatably arranged on the front side and the rear side of the fourth gear cavity and is in meshed connection with the ninth bevel gear fixedly arranged on the fourth rotating shaft, a gear in meshed connection with the sliding rod is fixedly arranged on the rear side of the tenth bevel gear, a ratchet wheel is fixedly arranged between the gear and the tenth bevel gear, a ratchet piece capable of abutting against the ratchet wheel is arranged on the lower side of the ratchet wheel, so that the sliding rod can be clamped when moving downwards at a certain position, and an electromagnet, thereby enabling the slide bar to slide up and down.

The invention has the beneficial effects that: the movable supporting device is arranged, the upper side sliding box and the lower side sliding box can be driven to transversely lay by driving the threaded rotating shaft to rotate, and the laying box can be driven to longitudinally move by driving the threaded rotating shaft and the threaded rotating shaft to simultaneously rotate, so that the building pouring pavements with different sizes can be adjusted and laid, and the complex terrain pavements can be laid by adjusting the height of the machine body, so that the manual construction can be effectively replaced, and the working efficiency is greatly improved;

the paving device is arranged, so that air bubbles in cement can be discharged through the vibration of the vibrator on the cement layer, the paving quality of the cement pavement is improved, the height of the paving pressing wheel can be adjusted according to requirements, and the vibrated cement pavement is compacted conveniently.

Drawings

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

FIG. 1 is a schematic view of the overall structure of a vibrating laying installation for constructing a concrete pouring pavement;

3 FIG. 32 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 at 3 " 3 A 3- 3 A 3" 3 of 3 FIG. 3 1 3 in 3 accordance 3 with 3 the 3 present 3 invention 3; 3

FIG. 3 is a cross-sectional view taken at "B-B" of FIG. 2 in accordance with the present invention;

FIG. 4 is a cross-sectional view taken at "C-C" of FIG. 1 in accordance with the present invention;

FIG. 5 is a cross-sectional view taken at "D-D" of FIG. 1 in accordance with the present invention;

fig. 6 is an enlarged view of a portion of the invention at E in fig. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: 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.

Referring to fig. 1-6, according to the embodiment of the present invention, the oscillation laying apparatus for pouring cement pavement in a building includes a laying box 36, a machine body 10 for pouring and supporting is symmetrically disposed on the upper and lower sides of the laying box 36, a movable supporting device 901 for building and laying the laying box 36 is disposed in the machine body 10, the movable supporting device 901 includes an extending device 902 disposed on the machine body 10 for laying pavements with different widths, the extending device 902 includes a sliding chute 33 disposed in a side wall of the machine body 10 close to the laying box 36, a driving device 903 for driving the laying box 36 to move longitudinally is disposed in the sliding chute 33, the driving device includes an upper sliding box 14 slidably disposed in the sliding chute 33 on the upper side of the laying box 36, a lower sliding box 85 disposed in the sliding chute 33 of the laying box 36, a first synchronous belt cavity 29 is arranged in the upper side sliding box 14, a first forward and reverse rotating motor 86 is fixedly arranged in an upper side wall body of the lower side sliding box 85, a first threaded rotating shaft 24 is fixedly arranged on a power output shaft of the first forward and reverse rotating motor 86, a second threaded rotating shaft 32 is rotatably arranged in an upper side wall body of the lower side sliding box 85, a first synchronous belt pulley 27 is fixedly arranged on the first threaded rotating shaft 24 in the first synchronous belt cavity 29, a second synchronous belt pulley 30 is fixedly arranged on the second threaded rotating shaft 32 in the first synchronous belt cavity 29, a first synchronous belt 28 is arranged between the second synchronous belt pulley 30 and the first synchronous belt pulley 27, a first groove 13 and a second groove 15 are arranged in upper side wall bodies of the first threaded rotating shaft 24 and the second threaded rotating shaft 32, a first clamping block 26 capable of clamping with the first groove 13 arranged on the upper side of the first threaded rotating shaft 24 is fixedly arranged on the lower side of the first synchronous belt pulley 27, and the first groove 13 rotates, the first threaded rotating shaft 24 can be taken down from the first synchronous belt pulley 27, a first groove 13 is arranged in a wall body of one side between the first threaded rotating shaft 24 and the first synchronous belt pulley 27, a threaded rotating shaft of the first clamping block 26 is arranged in a wall body of the other side, the threaded rotating shaft is the same as the first threaded rotating shaft 24 in specification and can be different in length, a second clamping block 64 capable of clamping with a second groove 15 arranged on the upper side of the second threaded rotating shaft 32 is fixedly arranged on the lower side of the second synchronous belt pulley 30, the second groove 15 rotates to drive the second synchronous belt pulley 30 to rotate, the second threaded rotating shaft 32 can be taken down from the second synchronous belt pulley 30, a threaded rotating shaft with the second groove 15 arranged in a wall body of one side and the second clamping block 64 arranged in a wall body of the other side can be further arranged between the second threaded rotating shaft 32 and the second synchronous belt pulley 30, and this threaded rod with the specification of two 32 of screw thread pivot is the same and length can not be the same, screw thread pivot 24 with threaded engagement is connected with on two 32 of screw thread pivot lay case 36, spout 33 left side is equipped with and can be used for pulley chamber 11 carries out lift adjustment's adjusting device 904, it is equipped with the laying device 905 that is used for cement mixing and paves to lay the case 36 in.

In addition, in an embodiment, extension device 902 still including set up in the spout 33 is left gear chamber 17 in the fuselage 10, gear chamber 17 keep away from lay case 36 one side and be equipped with pulley chamber 11, pulley chamber 11 with it stretches out to rotate between gear chamber 17 the fuselage 10 is close to in lay the spline pivot 20 of case 36 lateral wall body, it is equipped with spline housing 22 to lay case 36 left side, the internal smooth chamber 19 that is equipped with the symmetry of side wall about spline housing 22, smooth chamber 19 with spline pivot 20 spline engagement is connected, spline pivot 20 is close to in lay case 36 one side with be equipped with a telescopic spring 21 between the smooth chamber 19 diapire.

In addition, in an embodiment, the driving device 903 further includes a third threaded rotating shaft 23 rotatably disposed between the sliding chute 33 and the first gear cavity 17, the upper sliding box 14 threadedly engaged with the third threaded rotating shaft 23 is slidably disposed in the sliding chute 33 located at the upper side of the laying box 36, a lower sliding box 85 threadedly engaged with the third threaded rotating shaft 23 is slidably disposed in the sliding chute 33 located at the lower side of the laying box 36, a second bevel gear 18 engaged with a first bevel gear 16 fixedly disposed on the third threaded rotating shaft 23 is fixedly disposed on the first gear cavity 17 and the inner spline rotating shaft 20, a second synchronous belt 12 is fixedly disposed on the spline rotating shaft 20 in the belt cavity 11, a lower pulley 41 rotatably disposed on a wall body of the belt cavity 11 at the lower side of the second synchronous belt 12 far away from the laying box 36, and a third synchronous belt 40 is disposed between the lower pulley 41 and the second synchronous belt 12, a first threaded sleeve 49 is fixedly arranged on one side, close to the laying box 36, of the lower side belt wheel 41, a second sliding cavity 53 is arranged in the left side wall body of the first threaded sleeve 49, a sliding block 54 is arranged in the second sliding cavity 53 in a sliding mode, a first electromagnet 52 is fixedly arranged in the rear side wall body of the sliding block 54, a second expansion spring 51 is fixedly arranged in the rear side wall body of the second sliding cavity 53, a second electromagnet 50 is arranged between the second expansion spring 51 and the first electromagnet 52, a second forward and reverse motor 55 is fixedly arranged in the right side wall body of the sliding block 54, a third bevel gear 59 is fixedly arranged on a power output shaft of the second forward and reverse motor 55, and when the second expansion spring 51 and the first electromagnet 52 are electrified, the sliding block 54 can be driven to move forwards, so that the third bevel gear 59 is driven to be meshed.

In addition, in one embodiment, the adjusting device 904 includes a second gear cavity 56 disposed in the machine body 10 on the side of the pulley cavity 11 close to the paving box 36, a third gear cavity 63 disposed in the machine body 10 on the right side of the second gear cavity 56, a first rotating shaft 88 rotatably disposed between the second gear cavity 56 and the pulley cavity 11, a second rotating shaft 89 rotatably disposed between the pulley cavity 11 and the third gear cavity 63, the fourth bevel gear 60 engaged with the third bevel gear 59 and fixedly disposed on the first rotating shaft 88 in the pulley cavity 11, the first rotating shaft 88 and the second rotating shaft 89 are in transmission connection through a fourth synchronous belt 46, a base 44 for supporting is fixedly disposed on the lower side of the machine body 10, the base 44 can be fixedly mounted on the ground, a second thread sleeve 43 is fixedly disposed on the upper side wall body of the base 44 on the right side of the second thread sleeve 43, a first threaded rod 48 is fixedly disposed on the upper side wall body of the base 44 on the right side of the second thread sleeve 43, the lower side of the second gear cavity 56 is rotatably provided with a second threaded rod 42 which extends out of the lower side wall body of the machine body 10 and is in threaded engagement with the second threaded sleeve 43, the lower side of the third gear cavity 63 is rotatably provided with a first threaded rod 48 which extends out of the lower side wall body of the machine body 10 and is in threaded engagement with the first threaded sleeve 49, a sixth bevel gear 57 which is in threaded engagement with a fifth bevel gear 58 fixedly arranged on the first rotating shaft 88 is fixedly arranged on the second threaded rod 42 in the second gear cavity 56, and an eighth bevel gear 62 is fixedly arranged on the first threaded rod 48 in the third gear cavity 63 and is in threaded engagement with a seventh bevel gear 61 fixedly arranged on the second rotating shaft 89.

In addition, in one embodiment, the laying device 905 includes a cam cavity 35 disposed in the laying box 36, a third sliding cavity 37 is disposed on the left side of the cam cavity 35, a sliding block 38 is slidably disposed in the third sliding cavity 37, a cylindrical sliding rod 65 slidably mounted in the upper side wall of the third sliding cavity 37 is fixedly disposed on the upper side of the sliding block 38, three symmetrical extension springs 34 are disposed between the upper and lower bottom walls of the third sliding cavity 37 of the sliding block 38, a vibrating sliding plate 87 capable of sliding in the front and rear walls of the third sliding cavity 37 is disposed on the lower side of the sliding block 38, a pouring nozzle 70 is disposed on the lower side of the vibrating sliding plate 87, a vibrating pipe 72 fixedly mounted to the lower side wall of the laying box 36 is disposed on the outer side of the pouring nozzle 70, a vibrator 71 is disposed on the lower side of the vibrating pipe 72, the pouring nozzle 70 extends into the vibrator 71, and the pouring nozzle 70 can drive the vibrator 71 to vibrate back and forth, thereby can lay the bubble in the case 36 downside and lay cement and discharge to improve cement road surface and lay the quality, cam chamber 35 rear side is equipped with synchronous belt chamber two 66, synchronous belt chamber two 66 rear sides is equipped with gear chamber four 91, lay case 36 downside wall internal pressure wheel chamber 92 that is equipped with, the internal slide bar chamber 83 that is equipped with gear chamber four 91 intercommunication of pressure wheel chamber 92 rear side wall, slide bar chamber 83 slides and is equipped with the slide bar 84 that can slide and reset, in the pressure wheel chamber 92 slide bar 84 on the slide bar that can be to after the oscillation pave pinch roller 73 that paves, cam chamber 35 with rotate between the synchronous belt chamber two 66 and be equipped with pivot three 69, rotate between synchronous belt chamber two 66 and the gear chamber four 91 and be equipped with pivot cover 76, the internal motor 74 that has set firmly of synchronous belt chamber two 66 rear side wall, the last pivot cover 76 that sets firmly of motor 74 power output shaft, a cam 39 capable of shifting the cylindrical sliding rod 65 to reciprocate up and down is fixedly arranged on the third rotating shaft 69 in the cam cavity 35, a first belt wheel 68 is fixedly arranged on the third rotating shaft 69 in the second synchronous belt cavity 66, a second belt wheel 75 is fixedly arranged on the rotating shaft sleeve 76 in the second synchronous belt cavity 66, a fifth synchronous belt 67 is arranged between the second belt wheel 75 and the first belt wheel 68, a fourth rotating shaft 78 is arranged on the rear side wall of the rotating shaft sleeve 76 in a spline engagement manner, a third electromagnet 77 is arranged between the fourth rotating shaft 78 and the third electromagnet 77, a ninth bevel gear 79 is fixedly arranged on the fourth rotating shaft 78 in the fourth gear cavity 91, a tenth bevel gear 80 is rotatably arranged on the front side and the rear side of the fourth gear cavity 91, the tenth bevel gear 80 is in engagement connection with the ninth bevel gear 79 fixedly arranged on the fourth rotating shaft 78, and a gear 81 in engagement connection with the sliding rod 84 is fixedly arranged on the rear side of the ninth bevel gear 80, a ratchet 93 is fixedly arranged between the gear 81 and the bevel gear 80, a ratchet piece 82 capable of abutting against the ratchet 93 is arranged below the ratchet 93 so as to enable the sliding rod 84 to move downwards for a certain position to be clamped, and an electromagnet is arranged below the ratchet piece 82 and can rotate after being electrified so as to enable the sliding rod 84 to slide up and down.

In the initial state, the slide bar 84 is positioned at the upper side of the slide bar cavity 83, the slide block 38 is positioned at the middle position of the slide cavity III 37, the bevel gear III 59 is in meshed connection with the bevel gear IV 60, and the upper slide box 14 and the lower slide box 85 are positioned at the leftmost side of the slide groove 33.

When the height of the machine body 10 needs to be adjusted, the forward and reverse rotation motor II 55 is started firstly, the forward and reverse rotation motor II 55 rotates to drive the bevel gear III 59 to rotate, the bevel gear III 59 rotates to drive the bevel gear IV 60 to rotate, the bevel gear IV 60 rotates to drive the rotating shaft I88 to rotate, the rotating shaft I88 rotates to drive the bevel gear V58 to rotate, the bevel gear V58 rotates to drive the bevel gear VI 57 to rotate, the bevel gear VI 57 rotates to drive the threaded rod II 42 to rotate, meanwhile, the rotating shaft I88 rotates to drive the rotating shaft II 89 to rotate, the rotating shaft II 89 rotates to drive the bevel gear VII 61, the bevel gear VII 61 rotates to drive the bevel gear VIII 62 to rotate, the bevel gear VIII rotates to drive the threaded rod IV 48 to rotate, and the machine body 10 is driven.

When the upper and lower width between the fuselage 10 needs to be adjusted, thereby make the separation take off on screw thread pivot one 24 synchronous pulley one 27 earlier, thereby 32 take off on 30, then, install one side wall body between screw thread pivot one 24 and synchronous pulley one 27 and be equipped with recess one 13 in, be equipped with the screw thread pivot of chucking piece one 26 in the opposite side wall body, and this screw thread pivot is the same and the length can not be the same with 24's specification, and recess one 13 rotates and drives synchronous pulley one 27 and rotate, installation screw thread pivot between screw thread pivot two 32 and synchronous pulley two 30, be equipped with recess two 15 in this screw thread pivot one side wall body, be equipped with the screw thread pivot of chucking piece two 64 in the opposite side wall body, and this threaded rod with the same and the length of screw thread pivot two 32's specification can not be the same, thereby accomplish the laying of different width cement road surfaces.

When the cement road surface poured on the rear side of the paving box 36 is paved, the sliding block 54 moves forwards when the second telescopic spring 51 and the first electromagnet 52 are electrified, thereby enabling a bevel gear III 59 to be meshed and connected with the thread bushing I49, starting a forward and reverse rotation motor II 55, starting the forward and reverse rotation motor II 55 to drive the bevel gear III 59 to rotate, driving the thread bushing I49 to rotate by the rotation of the bevel gear III 59, driving the lower side belt pulley 41 to rotate by the rotation of the thread bushing I49, driving the synchronous belt III 40 to rotate by the rotation of the lower side belt pulley 41, driving the synchronous belt III 12 to rotate by the rotation of the synchronous belt III 40, driving the spline rotating shaft 20 to rotate by the rotation of the synchronous belt II 12, driving the spline rotating shaft 20 to rotate to drive the bevel gear II 18 to rotate, driving the bevel gear I16 to rotate by the rotation of the bevel gear I16, driving the thread rotating shaft III 23 to rotate, driving the; when the laying box 36 is moved longitudinally to be vibrated and laid, a forward and reverse rotation motor I86 is started, the forward and reverse rotation motor I86 is started to drive a screw thread rotating shaft I24 to rotate, the screw thread rotating shaft I24 rotates to drive a synchronous belt pulley I27 to rotate, the synchronous belt pulley I27 rotates to drive a synchronous belt I28 to rotate, the synchronous belt I28 rotates to drive a synchronous belt pulley II 30 to rotate, and the synchronous belt pulley II 30 rotates to drive a screw thread rotating shaft II 32 to rotate, so that the laying box 36 is driven to move upwards or downwards; when the paving box 36 is used for carrying out oscillating rolling treatment on the poured cement pavement, firstly, the motor 74 is started, the motor 74 rotates to drive the rotating shaft sleeve 76 to rotate, the rotating shaft sleeve 76 rotates to drive the rotating shaft four 78 to rotate, the rotating shaft four 78 rotates to drive the bevel gear nine 79 to rotate, the bevel gear nine 79 rotates to drive the bevel gear ten 80 to rotate, the bevel gear ten 80 rotates to drive the gear 81 to rotate, the gear 81 rotates to drive the slide rod 84 to downwards or upwards adjust the position of the paving pinch roller 73 according to paving requirements, when the paving pinch roller 73 is adjusted, the electromagnet three 77 is electrified, the rotating shaft four 78 moves upwards to enable the bevel gear nine 79 to be disengaged from the bevel gear ten 80, then the rotating shaft sleeve 76 rotates, the rotating shaft sleeve 76 rotates to drive the belt pulley two 75 to rotate, the belt pulley two 75 rotates to drive the synchronous belt five 67 to rotate, the synchronous belt five 67 rotates to drive the belt pulley one 68 to rotate, the third rotating shaft 69 rotates to drive the cylindrical sliding rod 65 to be shifted upwards or downwards, so that the vibrating sliding plate 87 is driven to slide up and down under the action of the third telescopic spring 34, the pouring nozzle 70 is driven to vibrate up and down, the vibrator 71 extending into the cement vibrates the cement, bubbles in the cement are taken out, and the laying quality of the cement pavement is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and scope of the present invention are intended to be included therein.

Claims (5)

1. The utility model provides a vibration of building watering cement road surface lays equipment, is including laying the case, its characterized in that: the upper side and the lower side of the laying box are symmetrically provided with a machine body for pouring and supporting, a movable supporting device for laying the laying box for building laying is arranged in the machine body, the movable supporting device comprises an extending device which is arranged on the machine body and used for laying pavements with different widths, the extending device comprises a sliding groove which is arranged in the machine body and close to the side wall of the laying box, a driving device for driving the laying box to longitudinally move is arranged in the sliding groove, the driving device comprises an upper sliding box which is arranged in the sliding groove at the upper side of the laying box in a sliding way, a lower sliding box is arranged in the sliding groove at the lower side of the laying box, a first synchronous belt cavity is arranged in the upper sliding box, a first forward and reverse rotating motor is fixedly arranged in the upper side wall body of the lower sliding box, and a first threaded rotating shaft is, a screw thread rotating shaft II is rotationally arranged in the upper side wall body of the lower side sliding box, a synchronous belt pulley I is fixedly arranged on the screw thread rotating shaft I in the synchronous belt cavity I, a synchronous belt pulley II is fixedly arranged on the screw thread rotating shaft II in the synchronous belt cavity I, a synchronous belt I is arranged between the synchronous belt pulley II and the synchronous belt pulley I, a groove I and a groove II are arranged in the upper side wall body of the screw thread rotating shaft I and the screw thread rotating shaft II, a clamping block I capable of clamping with the groove I arranged on the upper side of the screw thread rotating shaft I is fixedly arranged on the lower side of the synchronous belt pulley I, the groove I rotates to drive the synchronous belt pulley I to rotate, the screw thread rotating shaft I can be taken down from the synchronous belt pulley I, a screw thread rotating shaft I which is provided with the groove I in one side wall body and a screw thread rotating shaft which is provided with the clamping block I in the, the screw thread rotating shaft has the same specification and different length, a clamping block II capable of clamping with a groove II arranged on the upper side of the screw thread rotating shaft II is fixedly arranged on the lower side of the synchronous belt pulley II, the groove II rotates to drive the synchronous belt pulley II to rotate, the threaded rotating shaft II can be taken down from the synchronous belt pulley II, a second groove is arranged in the wall body at one side, and a threaded rotating shaft of the clamping block is arranged in the wall body at the other side, the threaded rod and the threaded rotating shaft II have the same specification and can have different lengths, the threaded rotating shaft I and the threaded rotating shaft II are in threaded engagement with the laying box, the spout left side is equipped with and can be used for the pulley chamber carries out lift adjustment's adjusting device, it is equipped with the laying device who is used for cement stirring and paves to lay the incasement.

2. The vibrating and paving machine for building poured cement pavements as claimed in claim 1, wherein: extension device is still including set up in the spout is left gear chamber one in the fuselage, gear chamber one keep away from in lay case one side and be equipped with the pulley chamber, the pulley chamber with rotate between the gear chamber one and be equipped with and stretch out the fuselage is close to lay the spline pivot of case lateral wall body, it is equipped with the spline housing to lay the case left side, be equipped with the smooth chamber one of symmetry in the lateral wall body on the spline housing, smooth chamber one with spline pivot spline engagement connects, the spline pivot is close to lay case one side with be equipped with expanding spring one between a smooth chamber diapire.

3. The vibrating and paving machine for building poured cement pavements as claimed in claim 1, wherein: the driving device also comprises a third threaded rotating shaft which is rotatably arranged between the chute and the first gear cavity, the chute which is positioned at the upper side of the laying box is internally provided with the third upper sliding box which is in threaded engagement with the third threaded rotating shaft, the chute which is positioned at the lower side of the laying box is internally provided with the lower sliding box which is in threaded engagement with the third threaded rotating shaft, the first gear cavity and the inner spline rotating shaft are fixedly provided with a second bevel gear which is in threaded engagement with the first bevel gear fixedly arranged on the third threaded rotating shaft, the spline rotating shaft in the belt wheel cavity is fixedly provided with a second synchronous belt, the belt wheel cavity at the lower side of the second synchronous belt is far away from the wall body at one side of the laying box and is rotatably provided with a lower belt wheel, a third synchronous belt is arranged between the lower belt wheel and the second synchronous belt, and the lower belt wheel is close to the first, the novel thread sleeve is characterized in that a sliding cavity II is arranged in the wall body on the left side of the thread sleeve, a sliding block is arranged in the sliding cavity II in a sliding mode, an electromagnet I is fixedly arranged in the sliding block rear side wall body, an expansion spring II is fixedly arranged in the sliding cavity II rear side wall body, an electromagnet II is arranged between the expansion spring II and the electromagnet I, a forward and reverse rotating motor II is fixedly arranged in the sliding block right side wall body, a bevel gear III is fixedly arranged on a power output shaft of the forward and reverse rotating motor II, and when the expansion spring II and the electromagnet I are electrified, the sliding block can be driven to move forwards, so that the bevel gear III is driven to be meshed with the.

4. The vibrating and paving machine for building poured cement pavements as claimed in claim 1, wherein: the adjusting device comprises a gear cavity II which is arranged in the machine body and close to one side of the laying box, a gear cavity III is arranged in the machine body and on the right side of the gear cavity II, a rotating shaft I is rotatably arranged between the gear cavity II and the belt wheel cavity, a rotating shaft II is rotatably arranged between the belt wheel cavity and the gear cavity III, a bevel gear IV which is meshed with the bevel gear III is fixedly arranged on the rotating shaft I in the belt wheel cavity, the rotating shaft I is connected with the rotating shaft II through a synchronous belt IV in a transmission way, a base for supporting is fixedly arranged on the lower side of the machine body, the base can be fixedly arranged on the ground, a thread sleeve II is fixedly arranged on the wall body on the upper side of the base, a thread rod I is fixedly arranged on the wall body on the right side of the thread sleeve II, a thread rod II which extends out of the wall body and is meshed with the thread sleeve II is rotatably arranged on the lower, the three lower sides of the gear cavity rotate to be provided with a first threaded rod extending out of the lower side wall body of the machine body and connected with the first thread sleeve in a threaded meshing manner, a sixth bevel gear meshed with a fifth bevel gear fixedly arranged on the first rotating shaft in the gear cavity is fixedly arranged on the second threaded rod in the gear cavity, and a seventh bevel gear meshed with an eighth bevel gear fixedly arranged on the second rotating shaft in the gear cavity is fixedly arranged on the first threaded rod in the gear cavity.

5. The vibrating and paving machine for building poured cement pavements as claimed in claim 1, wherein: the laying device comprises a cam cavity arranged in the laying box, a third sliding cavity is arranged on the left side of the cam cavity, a sliding block is arranged in the third sliding cavity in a sliding mode, a cylindrical sliding rod which is slidably mounted in the third sliding cavity is fixedly arranged on the upper side of the sliding block in a side wall body, a third symmetrical telescopic spring is arranged between the third sliding cavity and the lower side bottom wall of the sliding block, a vibrating sliding plate capable of sliding in the front wall and the rear wall of the third sliding cavity is arranged on the lower side of the sliding block, a pouring nozzle is arranged on the lower side of the vibrating sliding plate, a vibrating pipe fixedly mounted with the lower side wall body of the laying box is arranged on the outer side of the pouring nozzle, a vibrator is arranged on the lower side of the vibrating pipe, the pouring nozzle extends into the vibrator, and the pouring nozzle can drive the vibrator to vibrate back and forth, so that bubbles in cement laid on the lower side of the laying box, the rear side of the cam cavity is provided with a synchronous belt cavity II, the rear side of the synchronous belt cavity II is provided with a gear cavity IV, a pressing wheel cavity is arranged in the wall body at the lower side of the laying box, a sliding rod cavity communicated with the gear cavity IV is arranged in the wall body at the rear side of the pressing wheel cavity, a sliding rod capable of sliding and resetting is arranged in the sliding rod cavity in a sliding manner, a laying pressing wheel capable of laying cement after vibration is fixedly arranged on the sliding rod in the pressing wheel cavity, a rotating shaft III is rotatably arranged between the cam cavity and the synchronous belt cavity II, a rotating shaft sleeve is rotatably arranged between the synchronous belt cavity II and the gear cavity IV, a motor is fixedly arranged in the wall body at the rear side of the synchronous belt cavity II, a rotating shaft sleeve is fixedly arranged on a power output shaft of the motor, a cam capable of stirring the cylindrical sliding rod to perform vertical reciprocating motion is fixedly arranged on the rotating shaft III in the cam cavity, and a belt wheel I is fixedly arranged on, a second belt wheel is fixedly arranged on the rotating shaft sleeve in the second synchronous belt cavity, a fifth synchronous belt is arranged between the second belt wheel and the first belt wheel, a rotating shaft IV is meshed with an internal spline on the rear side wall of the rotating shaft sleeve, an electromagnet III is arranged between the rotating shaft IV and the electromagnet III, a bevel gear nine is fixedly arranged on the rotating shaft IV in the gear cavity IV, a bevel gear ten is rotatably arranged at the front side and the rear side of the gear cavity IV, the bevel gear ten is engaged and connected with the bevel gear nine fixedly arranged on the rotating shaft four, the gear engaged and connected with the sliding rod is fixedly arranged on the rear side of the bevel gear ten, a ratchet wheel is fixedly arranged between the gear and the bevel gear ten, a ratchet piece capable of abutting against the ratchet wheel is arranged on the lower side of the ratchet wheel, therefore, the sliding rod is clamped when moving downwards to a certain position, and the electromagnet arranged on the lower side of the ratchet piece can rotate after being electrified, so that the sliding rod can slide up and down.

Images