CN111395108A - Multi-functional road surface equipment of laying for building - Google Patents

Abstract

The invention relates to pavement paving equipment, in particular to multifunctional pavement paving equipment for buildings, which comprises a pavement cleaning mechanism, a stirring mechanism, a gravity linkage mechanism and a travelling mechanism, wherein the equipment can scrape a pavement to be paved, can stir cement concrete uniformly, can intermittently incline the cement concrete to the pavement, and can scrape the cement concrete inclined to the pavement.

Description

Multi-functional road surface equipment of laying for building

Technical Field

The invention relates to pavement paving equipment, in particular to multifunctional pavement paving equipment for buildings.

Background

In the process of paving the road surface, the phenomena of uneven road surface foundation and uneven cement concrete placement often occur, but no better road surface paving equipment exists in the market, so the multifunctional road surface paving equipment for the building is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a multifunctional pavement paving device for buildings, which can scrape a pavement to be paved, uniformly mix cement concrete, intermittently incline the cement concrete to the pavement, and scrape the cement concrete inclined to the pavement.

In order to solve the technical problems, the invention relates to pavement paving equipment, in particular to multifunctional pavement paving equipment for buildings, which comprises a pavement cleaning mechanism, a stirring mechanism, a gravity linkage mechanism and a travelling mechanism, wherein the equipment can scrape a pavement to be paved, can uniformly stir cement concrete, can intermittently incline the cement concrete to the pavement, and can scrape the cement concrete inclined to the pavement.

The road surface cleaning mechanism is connected with the advancing mechanism, the stirring mechanism is connected with the gravity linkage mechanism, the gravity linkage mechanism is connected with the advancing mechanism, the stirring mechanism is connected with the advancing mechanism, and the gravity linkage mechanism is connected with the advancing mechanism.

As further optimization of the technical scheme, the multifunctional pavement paving equipment for buildings comprises a mounting plate a, a mounting plate b, a mounting plate c, a motor mounting box, a thread lifting mechanism and a conveying and cleaning mechanism, wherein the mounting plate a is connected with the mounting plate b, the mounting plate b is connected with the mounting plate c, the mounting plate c is connected with the mounting plate a, the motor mounting box is connected with the mounting plate a, the thread lifting mechanism is connected with the mounting plate a, the conveying and cleaning mechanism is connected with the mounting plate a, the motor mounting box is connected with the mounting plate b, the thread lifting mechanism is connected with the mounting plate b, and the conveying and cleaning mechanism is connected with the mounting plate b; the screw thread lifting mechanism comprises a cleaning power motor, a screw thread shaft, a belt a, a belt b, a motor mounting box supporting plate, a connecting block, a screw thread shaft limiting block, a screw thread shaft lower limiting block, a connecting plate a, a connecting plate b and a screw thread shaft mounting plate, wherein a motor shaft of the cleaning power motor is connected with one of the screw thread shafts, the screw thread shaft is in friction connection with the belt a, the belt b is in friction connection with the screw thread shaft, the motor mounting box supporting plate is connected with a screw thread shaft bearing, the connecting block is in threaded connection with the screw thread shaft, the screw thread shaft limiting block is connected with the screw thread shaft, the screw thread shaft lower limiting block is connected with the screw thread shaft, the connecting plate a is connected with the connecting block, the connecting plate b is connected with the connecting block, the screw thread shaft mounting plate is connected with the screw thread shaft bearing, the motor mounting box supporting, the connecting plate b is connected with the mounting plate b in a sliding manner, and the threaded shaft mounting plate is connected with the mounting plate b; the conveying and cleaning mechanism comprises a conveying and cleaning power motor mounting plate, a conveying and cleaning power motor shaft, a conveying wheel, a conveying belt, a cleaning plate groove, a conveying and cleaning plate mechanism and a conveying mounting plate, wherein the conveying and cleaning power motor mounting plate is connected with the conveying and cleaning power motor; conveying clearance board mechanism is including the clearance rotation axis, the clearance board, the clearance limiting plate, clearance spring limiting plate, the spring coupling post, clearance spacing spring, clearance rotation axis stopper, the clearance rotation axis is connected with clearance rotation axis stopper bearing, the clearance board is connected with the clearance rotation axis, the clearance limiting plate is connected with the conveyer belt, clearance spring limiting plate is connected with the clearance board, the spring coupling post is connected with the spacing spring of clearance, clearance spacing spring is spacing in clearance spring limiting plate and conveyer belt, clearance rotation axis stopper is connected with the conveyer belt, the clearance limiting plate is connected with the conveyer belt, spring coupling post one is connected another and clearance spring limiting plate with the conveyer belt.

As a further optimization of the technical scheme, the invention relates to a multifunctional paving device for buildings, wherein the stirring mechanism comprises a stirring power motor, a stirring motor shaft, a sealing plate, a bearing plate, a stirring column, a material output box sealing plate, a sliding handle, a sliding block, a limiting block, a reset shaft, a limiting spring, a spring limiting plate and a stirring box, the stirring power motor is connected with the stirring motor shaft, the stirring motor shaft is connected with the sealing plate bearing, the sealing plate is connected with the stirring box, the bearing plate is connected with the stirring motor shaft bearing, the stirring column is connected with the stirring motor shaft, the material output box is connected with the material output box sealing plate in a sliding way, the material output box sealing plate is connected with the sliding plate, the sliding plate is connected with the sliding handle, the sliding handle is connected with the reset shaft, the reset, the limiting spring is sleeved on the reset shaft and limited by the limiting block and the spring limiting plate, the stirring power motor is connected with the mounting plate c, the stirring box is connected with the mounting plate c, the bearing plate is connected with the stirring box, the material output box is inserted into the stirring box and connected with the stirring box, and the material output box sealing plate is connected with the stirring box in a sliding mode.

As a further optimization of the technical scheme, the invention relates to a multifunctional pavement paving device for buildings, wherein a gravity linkage mechanism comprises a rotary sealing plate, a hinge, a discharging box, a rotary column spring limit, a linkage shaft a, a linkage rod, a linkage groove, a linkage shaft b, a linkage plate, a feeding port, a linkage plate connecting plate and an inclined scraper blade, the rotary sealing plate is connected with the hinge, the hinge is connected with the discharging box, the discharging box is connected with the linkage groove, the rotary column is connected with the rotary sealing plate, the rotary column spring is sleeved on the rotary column and limited on the rotary column spring limit and a mounting plate c, the rotary column spring limit is connected with the rotary column, the linkage shaft a is connected with the rotary column, the linkage rod is connected with the linkage shaft a, the linkage groove is connected with the linkage rod in a sliding manner, the linkage shaft b is connected with the linkage rod, the linkage plate is connected with the discharging box, the linkage plate connecting plate is connected with the linkage plate, the inclined scraper is connected with the mounting plate a, the inclined scraper is connected with the mounting plate b, the inclined scraper is connected with the mounting plate c, the discharging box is connected with the mounting plate c, the linkage shaft b is connected with the linkage groove in a sliding mode, the linkage plate is connected with the linkage shaft b, and the feeding port is connected with the material output box.

As a further optimization of the technical scheme, the multifunctional pavement paving equipment for buildings comprises a traveling motor mounting plate a, a traveling motor mounting plate b, a traveling motor shaft, a transmission belt a, a traveling wheel, a transmission belt b, an equipment connecting plate and an equipment connecting side plate, wherein the traveling motor mounting plate a is connected with the traveling motor mounting plate b, the traveling motor mounting plate b is connected with the traveling motor, the traveling motor is connected with the traveling motor shaft, the traveling motor shaft is in friction connection with the transmission belt b, the transmission shaft is connected with the transmission belt a, the traveling wheel is connected with the transmission shaft, the transmission belt b is in friction connection with the transmission shaft, the equipment connecting plate is connected with the equipment connecting side plate, and the transmission shaft is in bearing connection with the equipment connecting side plate.

As a further optimization of the technical scheme, the multifunctional pavement paving equipment for the building is characterized in that the cleaning plate is made of rubber capable of generating elastic deformation.

The multifunctional pavement paving equipment for the building has the beneficial effects that:

the multifunctional pavement paving equipment for the building can scrape a pavement to be paved, can uniformly stir cement concrete, can intermittently incline the cement concrete to the pavement, and can scrape the cement concrete inclined to the pavement.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a multifunctional pavement paving device for buildings according to the present invention.

Fig. 2 is a first structural schematic diagram of a pavement cleaning mechanism 1 of the multifunctional pavement paving equipment for buildings according to the invention.

Fig. 3 is a schematic structural diagram of a second pavement cleaning mechanism 1 of the multifunctional pavement paving equipment for buildings according to the invention.

Fig. 4 is a schematic structural diagram of the thread lifting mechanism 1-5 of the multifunctional road paving equipment for buildings.

Fig. 5 is a first structural schematic diagram of the conveying and cleaning mechanism 1-6 of the multifunctional pavement paving equipment for buildings.

Fig. 6 is a second structural schematic diagram of the conveying and cleaning mechanism 1-6 of the multifunctional pavement paving equipment for buildings.

Fig. 7 is a third structural schematic diagram of the conveying and cleaning mechanism 1-6 of the multifunctional pavement paving equipment for buildings.

Fig. 8 is a first structural schematic diagram of the stirring mechanism 2 of the multifunctional road paving equipment for buildings according to the invention.

Fig. 9 is a second structural schematic diagram of the stirring mechanism 2 of the multifunctional road paving equipment for building of the invention.

Fig. 10 is a third schematic structural diagram of the stirring mechanism 2 of the multifunctional road paving equipment for building of the invention.

Fig. 11 is a first structural schematic diagram of the gravity linkage mechanism 3 of the multifunctional road paving equipment for buildings according to the invention.

Fig. 12 is a second schematic structural diagram of the gravity linkage mechanism 3 of the multifunctional road paving equipment for building of the present invention.

Fig. 13 is a third schematic structural diagram of the gravity linkage mechanism 3 of the multifunctional road paving equipment for buildings according to the invention.

Fig. 14 is a fourth structural schematic diagram of the gravity linkage mechanism 3 of the multifunctional road paving equipment for buildings according to the invention.

Fig. 15 is a fifth structural schematic view of the gravity linkage mechanism 3 of the multifunctional road paving equipment for buildings according to the invention.

Fig. 16 is a first structural schematic diagram of a traveling mechanism 4 of the multifunctional pavement paving apparatus for buildings according to the present invention.

Fig. 17 is a second schematic structural view of the travel mechanism 4 of the multifunctional pavement paving apparatus for buildings according to the present invention.

In the figure: a road surface cleaning mechanism 1; mounting plate a 1-1; mounting plate b 1-2; mounting plate c 1-3; 1-4 of a motor mounting box; 1-5 of a thread lifting mechanism; cleaning a power motor 1-5-1; 1-5-2 parts of a threaded shaft; belt a 1-5-3; belt b 1-5-4; 1-5-5 supporting plates of the motor mounting box; 1-5-6 parts of a connecting block; 1-5-7 parts of a threaded shaft limiting block; the lower limit of the threaded shaft is 1-5-8; connection board a 1-5-9; connecting plate b 1-5-10; 1-5-11 parts of a threaded shaft mounting plate; a conveying and cleaning mechanism 1-6; conveying and cleaning a power motor mounting plate 1-6-1; conveying and cleaning a power motor 1-6-2; conveying and cleaning a power motor shaft 1-6-3; conveying wheels 1-6-4; 1-6-5 of a conveyor belt; cleaning plate grooves 1-6-6; a conveying and cleaning plate mechanism 1-6-7; cleaning a rotating shaft 1-6-7-1; cleaning plates 1-6-7-2; cleaning the limiting plates 1-6-7-3; cleaning the spring limiting plate 1-6-7-4; 1-6-7-5 parts of a spring connecting column; cleaning a limiting spring 1-6-7-6; cleaning a rotating shaft limiting block 1-6-7-7; conveying the mounting plates 1-6-8; a stirring mechanism 2; 2-1 of a stirring power motor; a stirring motor shaft 2-2; a sealing plate 2-3; bearing plates 2-4; 2-5 of a stirring column; 2-6 parts of a material output box; a material output box sealing plate 2-7; a sliding plate 2-8; 2-9 of a sliding handle; 2-10 of a sliding block; 2-11 parts of a limiting block; 2-12 of a reset shaft; 2-13 parts of a limiting spring; 2-14 parts of spring limiting plates; 2-15 parts of a stirring box; a gravity linkage mechanism 3; rotating the sealing plate 3-1; 3-2 parts of a hinge; 3-3 of a discharge box; 3-4 parts of a rotating column; 3-5 parts of a rotary column spring; limiting by a rotating column spring by 3-6; linkage shaft a 3-7; 3-8 of a linkage rod; 3-9 parts of linkage groove; linkage shaft b 3-10; 3-11 parts of a linkage plate; a feed inlet 3-12; linkage plate connecting plates 3-13; a traveling mechanism 4; a traveling motor mounting plate a 4-1; a traveling motor mounting plate b 4-2; 4-3 of a traveling motor; a traveling motor shaft 4-4; 4-5 of a transmission shaft; a drive belt a 4-6; 4-7 of a travelling wheel; a transmission belt b 4-8; 4-9 parts of equipment connecting plates; the equipment is connected with the side plates 4-10.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present invention relates to a road surface paving machine, and more specifically, to a multifunctional road surface paving machine for construction, which includes a road surface cleaning mechanism 1, a stirring mechanism 2, a gravity linkage mechanism 3, and a traveling mechanism 4, and is capable of scraping a road surface to be paved, uniformly stirring cement concrete, intermittently inclining the cement concrete onto the road surface, and scraping the cement concrete inclined onto the road surface.

The pavement cleaning mechanism 1 is connected with the advancing mechanism 4, the stirring mechanism 2 is connected with the gravity linkage mechanism 3, the gravity linkage mechanism 3 is connected with the advancing mechanism 4, the stirring mechanism 2 is connected with the advancing mechanism 4, and the gravity linkage mechanism 3 is connected with the advancing mechanism 4.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the present embodiment, where the road surface cleaning mechanism 1 includes a mounting plate a1-1, a mounting plate b1-2, a mounting plate c1-3, a motor mounting box 1-4, a screw elevating mechanism 1-5, and a conveying cleaning mechanism 1-6, the mounting plate a1-1 is connected to the mounting plate b1-2, the mounting plate b1-2 is connected to the mounting plate c1-3, the mounting plate c1-3 is connected to the mounting plate a1-1, the motor mounting box 1-4 is connected to the mounting plate a1-1, the screw elevating mechanism 1-5 is connected to the mounting plate a1-1, the conveying and cleaning mechanism 1-6 is connected with the mounting plate a1-1, the motor mounting box 1-4 is connected with the mounting plate b1-2, the thread lifting mechanism 1-5 is connected with the mounting plate b1-2, and the conveying and cleaning mechanism 1-6 is connected with the mounting plate b 1-2; the thread lifting mechanism 1-5 comprises a cleaning power motor 1-5-1, a threaded shaft 1-5-2, a belt a1-5-3, a belt b1-5-4, a motor mounting box support plate 1-5-5, a connecting block 1-5-6, a threaded shaft limiting block 1-5-7, a threaded shaft lower limiting block 1-5-8, a connecting plate a1-5-9, a connecting plate b1-5-10 and a threaded shaft mounting plate 1-5-11, a motor shaft of the cleaning power motor 1-5-1 is connected with one of the threaded shafts 1-5-2, the threaded shaft 1-5-2 is in frictional connection with the belt a1-5-3, and the belt b1-5-4 is in frictional connection with the threaded shaft 1-5-2, the motor mounting box support plate 1-5-5 is connected with the threaded shaft 1-5-2 through a bearing, the connecting block 1-5-6 is connected with the threaded shaft 1-5-2 through a thread, the threaded shaft limiting block 1-5-7 is connected with the threaded shaft 1-5-2, the lower limiting block 1-5-8 of the threaded shaft is connected with the threaded shaft 1-5-2, the connecting plate a1-5-9 is connected with the connecting block 1-5-6, the connecting plate b1-5-10 is connected with the connecting block 1-5-6, the threaded shaft mounting plate 1-5-11 is connected with the threaded shaft 1-5-2 through a bearing, the motor mounting box support plate 1-5-5 is connected with the mounting plate a1-1, the connecting plate a1-5-9 is connected with the mounting plate a1-1 in a sliding manner, the connecting plate a1-5-9 is connected with the mounting plate b1-2 in a sliding mode, the connecting plate b1-5-10 is connected with the mounting plate a1-1 in a sliding mode, the connecting plate b1-5-10 is connected with the mounting plate b1-2 in a sliding mode, and the threaded shaft mounting plate 1-5-11 is connected with the mounting plate b 1-2; the conveying and cleaning mechanism 1-6 comprises a conveying and cleaning power motor mounting plate 1-6-1, a conveying and cleaning power motor 1-6-2, a conveying and cleaning power motor shaft 1-6-3, a conveying wheel 1-6-4, a conveying belt 1-6-5, a cleaning plate groove 1-6-6, a conveying and cleaning plate mechanism 1-6-7 and a conveying mounting plate 1-6-8, wherein the conveying and cleaning power motor mounting plate 1-6-1 is connected with the conveying and cleaning power motor 1-6-2, the conveying and cleaning power motor 1-6-2 is connected with the conveying wheel 1-6-4, the conveying wheel 1-6-4 is connected with the conveying belt 1-6-5 in a friction manner, the conveying belt 1-6-5 is connected with the cleaning plate groove 1-6-6, the cleaning plate groove 1-6-6 is connected with the conveying cleaning plate mechanism 1-6-7, the conveying mounting plate 1-6-8 is connected with a bearing of a shaft 1-6-3 of a conveying cleaning power motor, the conveying cleaning power motor mounting plate 1-6-1 is connected with a mounting plate c1-3, the conveying mounting plate 1-6-8 is connected with a mounting plate a1-1, and the conveying mounting plate 1-6-8 is connected with a mounting plate b 1-2; the conveying cleaning plate mechanism 1-6-7 comprises a cleaning rotating shaft 1-6-7-1, a cleaning plate 1-6-7-2, a cleaning limiting plate 1-6-7-3, a cleaning spring limiting plate 1-6-7-4, a spring connecting column 1-6-7-5, a cleaning limiting spring 1-6-7-6, a cleaning rotating shaft limiting block 1-6-7-7, a cleaning rotating shaft 1-6-7-1 is connected with a cleaning rotating shaft limiting block 1-6-7-7 bearing, a cleaning plate 1-6-7-2 is connected with the cleaning rotating shaft 1-6-7-1, a cleaning limiting plate 1-6-7-3 is connected with a conveying belt 1-6-5, the cleaning spring limiting plate 1-6-7-4 is connected with the cleaning plate 1-6-7-2, the spring connecting column 1-6-7-5 is connected with the cleaning limiting spring 1-6-7-6, the cleaning limiting spring 1-6-7-6 is limited at the cleaning spring limiting plate 1-6-7-4 and the conveyor belt 1-6-5, the cleaning rotating shaft limiting block 1-6-7-7 is connected with the conveyor belt 1-6-5, the cleaning limiting plate 1-6-7-3 is connected with the conveyor belt 1-6-5, one of the spring connecting columns 1-6-7-5 is connected with the conveyor belt 1-6-5, the other is connected with the cleaning spring limiting plate 1-6-7-4, the equipment can scrape a pavement to be paved, the cleaning power motor 1-5-1 rotates to drive the threaded shafts 1-5-2 to rotate through the motor shaft of the cleaning power motor, the threaded shafts 1-5-2 rotate and drive all the threaded shafts 1-5-2 to rotate through the belt a1-5-3, the threaded shafts 1-5-2 rotate to drive the connecting blocks 1-5-6 to move upwards or downwards, when the connecting blocks 1-5-6 move downwards until the cleaning plates 1-6-7-2 reach a specified height, the cleaning power motor 1-5-1 stops rotating, the cleaning power motor 1-6-2 is transmitted to rotate, the cleaning power motor 1-6-2 is transmitted to drive the cleaning power motor shaft 1-6-3 to rotate, a conveying and cleaning power motor shaft 1-6-3 rotates to drive a conveying wheel 1-6-4 to rotate, the conveying wheel 1-6-4 rotates to drive a conveying belt 1-6-5 to move transversely, when the conveying and cleaning power motor 1-6-2 rotates anticlockwise, the conveying belt 1-6-5 moves towards the other side from the direction of the conveying and cleaning power motor 1-6-2, when the conveying belt 1-6-5 moves, a cleaning rotating shaft limiting block 1-6-7-7 drives a cleaning rotating shaft 1-6-7-1 to move synchronously, the cleaning rotating shaft 1-6-7-1 moves to drive a cleaning plate 1-6-7-2 to move synchronously, and when the cleaning plate 1-6-7-2 moves, the road surface is scraped under the action of a cleaning limiting spring 1-6-7-6 When the stress is too large, the cleaning rotating shaft 1-6-7-1 is used as the shaft to rotate clockwise, and the cleaning plate 1-6-7-2 behind the cleaning plate rotates to continuously scrape the road surface when the cleaning plate 1-6-7-2 rotates.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the embodiment further describes the embodiment, where the stirring mechanism 2 includes a stirring power motor 2-1, a stirring motor shaft 2-2, a sealing plate 2-3, a bearing plate 2-4, a stirring column 2-5, a material output box 2-6, a material output box sealing plate 2-7, a sliding plate 2-8, a sliding handle 2-9, a sliding block 2-10, a limiting block 2-11, a resetting shaft 2-12, a limiting spring 2-13, a spring limiting plate 2-14, and a stirring box 2-15, the stirring power motor 2-1 is connected to the stirring motor shaft 2-2, a stirring motor shaft 2-2 is in bearing connection with a sealing plate 2-3, the sealing plate 2-3 is in bearing connection with a stirring box 2-15, a bearing plate 2-4 is in bearing connection with the stirring motor shaft 2-2, a stirring column 2-5 is in bearing connection with the stirring motor shaft 2-2, a material output box 2-6 is in sliding connection with a material output box sealing plate 2-7, the material output box sealing plate 2-7 is in connection with a sliding plate 2-8, the sliding plate 2-8 is in connection with a sliding handle 2-9, the sliding handle 2-9 is in connection with a sliding block 2-10, a limiting block 2-11 is in connection with a reset shaft 2-12, the reset shaft 2-12 is in connection with a spring limiting plate 2-14, a limiting spring 2-13 is sleeved on the reset shaft 2-12 and limited on the limiting block 2-11 and, the stirring power motor 2-1 is connected with the mounting plate c1-3, the stirring box 2-15 is connected with the mounting plate c1-3, the bearing plate 2-4 is connected with the stirring box 2-15, the material output box 2-6 is inserted into and connected with the stirring box 2-15, the material output box sealing plate 2-7 is connected with the stirring box 2-15 in a sliding mode, the equipment can be used for stirring cement concrete uniformly, the cement concrete and water are placed into the stirring box 2-15, the stirring power motor 2-1 rotates to drive the stirring motor shaft 2-2 to rotate, the stirring motor shaft 2-2 rotates to drive the stirring column 2-5 to rotate, and the cement concrete and the water are stirred uniformly when the stirring column 2-5 rotates.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and the embodiment further describes the embodiment, wherein the gravity linkage mechanism 3 comprises a rotary sealing plate 3-1, a hinge 3-2, a discharge box 3-3, a rotary column 3-4, a rotary column spring 3-5, a rotary column spring limit 3-6, a linkage shaft a3-7, a linkage rod 3-8, a linkage groove 3-9, a linkage shaft b3-10, a linkage plate 3-11, a feed port 3-12, a linkage plate 3-13, an inclined scraper 3-14, the rotary sealing plate 3-1 is connected with the hinge 3-2, the hinge 3-2 is connected with the discharge box 3-3, a discharge box 3-3 is connected with a linkage groove 3-9, a rotary column 3-4 is connected with a rotary sealing plate 3-1, a rotary column spring 3-5 is sleeved on the rotary column 3-4 and limited at a rotary column spring limit 3-6 and a mounting plate c1-3, the rotary column spring limit 3-6 is connected with the rotary column 3-4, a linkage shaft a3-7 is connected with the rotary column 3-4, a linkage rod 3-8 is connected with a linkage shaft a3-7, the linkage groove 3-9 is connected with a linkage rod 3-8 in a sliding way, a linkage shaft b3-10 is connected with the linkage rod 3-8, a linkage plate 3-11 is connected with the discharge box 3-3 in a sliding way, a feed port 3-12 is connected with the discharge box 3-3, a connecting plate 3-13 is connected with the linkage plate 3-11, the inclined scrapers 3-14 are connected with a mounting plate a1-1, the inclined scrapers 3-14 are connected with a mounting plate b1-2, the inclined scrapers 3-14 are connected with a mounting plate c1-3, the discharge boxes 3-3 are connected with a mounting plate c1-3, a linkage shaft b3-10 is in sliding connection with a linkage groove 3-9, a linkage plate 3-11 is connected with a linkage shaft b3-10, a feed inlet 3-12 is connected with a material output box 2-6, the equipment can intermittently incline cement concrete to a road surface, a sliding handle 2-9 is pulled to drive a sliding block 2-10 to be between two limiting blocks 2-11 on the upper side through a sliding plate 2-8, the sliding block 2-10 reaches limiting under the action of a limiting spring 2-13, and the material output box 2-6 is in an open state, at the moment, materials in the stirring box 2-15 enter the discharging box 3-3 through the material output box 2-6 and the feeding hole 3-12, the materials in the discharging box 3-3 enter the lower part of the discharging box 3-3 through an opening on the linkage plate 3-11, the materials entering the lower part of the discharging box 3-3 press the rotary sealing plate 3-1, the rotary sealing plate 3-1 moves downwards under the action of the linkage groove 3-9 of the linkage shaft a3-7 linkage shaft a 3-8 limited by the rotary column 3-4 rotary column spring 3-5, the rotary column 3-4 is driven to rotate by the hinge 3-2 during movement, the linkage shaft a3-7 drives the linkage rod 3-8 to enable the linkage shaft b3-10 to move under the limitation of the linkage groove 3-9 during rotation, when the weight of the material is enough to the rotary sealing plate 3-1, the rotary sealing plate 3-1 rotates to the maximum limit, the linkage shaft b3-10 reaches the limit position of the linkage groove 3-9, the linkage plate 3-11 is pulled by the linkage shaft b3-10 to completely seal the discharging box 3-3, the material on the rotary sealing plate 3-1 inclines to the ground, the rotary sealing plate 3-1 is not under the pressure of the material, the rotary sealing plate 3-1 resets under the action of the rotary column spring 3-5, the linkage plate 3-11 is pushed by the linkage shaft b3-10 linked with the rotary column spring 3-5 when the rotary column spring 3-5 resets, the opening on the linkage plate 3-11 is reopened, and the material enters the lower part of the discharging box 3-3 through the opening on the linkage plate 3-11 again, and the rotary sealing plate 3-1 is pressurized at one time, so that the reciprocating apparatus intermittently tilts the cement concrete to the road surface.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and the embodiment further describes the embodiment, where the traveling mechanism 4 includes a traveling motor mounting plate a4-1, a traveling motor mounting plate b4-2, a traveling motor 4-3, a traveling motor shaft 4-4, a transmission shaft 4-5, a transmission belt a4-6, a traveling wheel 4-7, a transmission belt b4-8, an equipment connecting plate 4-9, an equipment connecting side plate 4-10, a traveling motor mounting plate a4-1 is connected with a traveling motor mounting plate b4-2, a traveling motor mounting plate b4-2 is connected with a traveling motor 4-3, a traveling motor 4-3 is connected with a traveling motor shaft 4-4, a traveling motor shaft 4-4 is in frictional connection with a transmission belt b4-8, a transmission shaft 4-5 is connected with a transmission belt a4-6, a traveling wheel 4-7 is connected with a transmission shaft 4-5, a transmission belt b4-8 is in frictional connection with a transmission shaft 4-5, an equipment connecting plate 4-9 is connected with an equipment connecting side plate 4-10, the transmission shaft 4-5 is in bearing connection with an equipment connecting side plate 4-10, equipment can scrape cement concrete inclined to a road surface flat, the cement concrete is intermittently inclined to the road surface, the traveling motor 4-3 rotates at the moment, the traveling motor 4-3 rotates to drive the traveling motor shaft 4-4 to rotate, the traveling motor shaft 4-4 rotates to drive the transmission shaft 4-5 to rotate through the transmission belt b4-8, the transmission shaft 4-5 rotates to drive the other transmission shaft 4-5 to synchronously rotate through the transmission belt a4-6, and the transmission The transmission shaft 4-5 is driven by rotation; the traveling wheels 4-7 rotate, the equipment moves forwards or backwards when the traveling wheels 4-7 rotate, and when the equipment moves forwards, the inclined scrapers 3-14 move forwards along with the equipment, and then the inclined scrapers 3-14 scrape the cement concrete inclined to the road surface.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the first embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 12, in which the cleaning plates 1-6-7-2 are made of rubber capable of elastic deformation.

The working principle of the device is as follows: the equipment can scrape a pavement to be paved, the cleaning power motor 1-5-1 rotates to drive the threaded shafts 1-5-2 to rotate through the motor shaft of the cleaning power motor, the threaded shafts 1-5-2 rotate and drive all the threaded shafts 1-5-2 to rotate through the belt a1-5-3, the threaded shafts 1-5-2 rotate to drive the connecting blocks 1-5-6 to move upwards or downwards, when the connecting blocks 1-5-6 move downwards until the cleaning plates 1-6-7-2 reach a specified height, the cleaning power motor 1-5-1 stops rotating, the cleaning power motor 1-6-2 is transmitted to rotate, the cleaning power motor 1-6-2 is transmitted to drive the cleaning power motor shaft 1-6-3 to rotate, a conveying and cleaning power motor shaft 1-6-3 rotates to drive a conveying wheel 1-6-4 to rotate, the conveying wheel 1-6-4 rotates to drive a conveying belt 1-6-5 to move transversely, when the conveying and cleaning power motor 1-6-2 rotates anticlockwise, the conveying belt 1-6-5 moves towards the other side from the direction of the conveying and cleaning power motor 1-6-2, when the conveying belt 1-6-5 moves, a cleaning rotating shaft limiting block 1-6-7-7 drives a cleaning rotating shaft 1-6-7-1 to move synchronously, the cleaning rotating shaft 1-6-7-1 moves to drive a cleaning plate 1-6-7-2 to move synchronously, and when the cleaning plate 1-6-7-2 moves, the road surface is scraped under the action of a cleaning limiting spring 1-6-7-6 When the stress is too large, the cleaning rotating shaft 1-6-7-1 is used as the shaft to rotate clockwise, the cleaning plate 1-6-7-2 at the back continues to scrape the road surface when the cleaning plate 1-6-7-2 rotates, the equipment can evenly mix the cement concrete, the cement concrete and water are put into the mixing box 2-15, the mixing power motor 2-1 rotates to drive the mixing motor shaft 2-2 to rotate, the mixing motor shaft 2-2 rotates to drive the mixing column 2-5 to rotate, the mixing column 2-5 rotates to evenly mix the cement concrete and water, the equipment can intermittently incline the cement concrete to the road surface, the sliding handle 2-9 is pulled to drive the sliding block 2-10 to be between the two limiting blocks 2-11 at the upper side through the sliding plate 2-8, under the action of the limiting springs 2-13, the sliding blocks 2-10 reach limiting positions, the material output boxes 2-6 are in an open state, at the moment, materials in the stirring boxes 2-15 enter the material discharge boxes 3-3 through the material output boxes 2-6 and the feed inlets 3-12, materials in the material discharge boxes 3-3 enter the lower parts of the material discharge boxes 3-3 through the openings in the linkage plates 3-11, the materials entering the lower parts of the material discharge boxes 3-3 press the rotary sealing plates 3-1, the rotary sealing plates 3-1 move downwards under the action of the linkage grooves 3-9 of the linkage rods 3-8 of the linkage shafts a3-7 of the rotary column 3-4 and the rotary column springs 3-5 and the linkage shafts a3-7, and drive the rotary columns 3-4 to rotate through hinges 3-2 during movement, when the material feeding device rotates, the linkage shaft a3-7 drives the linkage rod 3-8 to enable the linkage shaft b3-10 to move under the limitation of the linkage groove 3-9, when the weight of the material is enough to the rotary sealing plate 3-1, the rotary sealing plate 3-1 rotates to the maximum limit position, the linkage shaft b3-10 reaches the limit position of the linkage groove 3-9, the linkage plate 3-11 is pulled to the fully sealed discharging box 3-3 by the linkage shaft b3-10, the material on the rotary sealing plate 3-1 inclines to the ground, the rotary sealing plate 3-1 is not under the pressure of the material, the rotary sealing plate 3-1 resets under the action of the rotary column spring 3-5, the linkage plate 3-11 is pushed by the linkage shaft b3-10 linked with the rotary column spring 3-5 when the rotary column spring 3-5 resets, the opening on the linkage plate 3-11 is reopened, the material enters the lower part of the discharging box 3-3 through the opening on the linkage plate 3-11 again, the rotating sealing plate 3-1 is pressurized at one time, so that the reciprocating motion equipment intermittently inclines the cement concrete to the road surface, the equipment can scrape the cement concrete inclined to the road surface, the cement concrete intermittently inclines to the road surface, the traveling motor 4-3 rotates at the moment, the traveling motor 4-3 rotates to drive the traveling motor shaft 4-4 to rotate, the traveling motor shaft 4-4 rotates to drive the transmission shaft 4-5 to rotate through the transmission belt b4-8, the transmission shaft 4-5 rotates to drive the other transmission shaft 4-5 to synchronously rotate through the transmission belt a4-6, and the transmission shaft 4-5 rotates to drive; the traveling wheels 4-7 rotate, the equipment moves forwards or backwards when the traveling wheels 4-7 rotate, and when the equipment moves forwards, the inclined scrapers 3-14 move forwards along with the equipment, and then the inclined scrapers 3-14 scrape the cement concrete inclined to the road surface.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a multi-functional road surface equipment of laying for building, includes road surface clearance mechanism (1), rabbling mechanism (2), gravity link gear (3), advancing mechanism (4), its characterized in that: the road surface cleaning mechanism (1) is connected with the advancing mechanism (4), the stirring mechanism (2) is connected with the gravity linkage mechanism (3), the gravity linkage mechanism (3) is connected with the advancing mechanism (4), the stirring mechanism (2) is connected with the advancing mechanism (4), and the gravity linkage mechanism (3) is connected with the advancing mechanism (4).

2. The multifunctional paving apparatus for construction as claimed in claim 1, wherein: the pavement cleaning mechanism (1) comprises a mounting plate a (1-1), a mounting plate b (1-2), a mounting plate c (1-3), a motor mounting box (1-4), a thread lifting mechanism (1-5) and a conveying cleaning mechanism (1-6), wherein the mounting plate a (1-1) is connected with the mounting plate b (1-2), the mounting plate b (1-2) is connected with the mounting plate c (1-3), the mounting plate c (1-3) is connected with the mounting plate a (1-1), the motor mounting box (1-4) is connected with the mounting plate a (1-1), the thread lifting mechanism (1-5) is connected with the mounting plate a (1-1), the conveying cleaning mechanism (1-6) is connected with the mounting plate a (1-1), the motor mounting box (1-4) is connected with the mounting plate b (1-2), the thread lifting mechanism (1-5) is connected with the mounting plate b (1-2), and the conveying and cleaning mechanism (1-6) is connected with the mounting plate b (1-2); the thread lifting mechanism (1-5) comprises a cleaning power motor (1-5-1), a threaded shaft (1-5-2), a belt a (1-5-3), a belt b (1-5-4), a motor mounting box supporting plate (1-5-5), a connecting block (1-5-6), a threaded shaft limiting block (1-5-7), a threaded shaft lower limiting block (1-5-8), a connecting plate a (1-5-9), a connecting plate b (1-5-10) and a threaded shaft mounting plate (1-5-11), a motor shaft of the cleaning power motor (1-5-1) is connected with one of the threaded shafts (1-5-2), the threaded shaft (1-5-2) is in friction connection with the belt a (1-5-3), a belt b (1-5-4) is in friction connection with a threaded shaft (1-5-2), a motor mounting box supporting plate (1-5-5) is in bearing connection with the threaded shaft (1-5-2), a connecting block (1-5-6) is in threaded connection with the threaded shaft (1-5-2), a threaded shaft limiting block (1-5-7) is connected with the threaded shaft (1-5-2), a threaded shaft lower limiting block (1-5-8) is connected with the threaded shaft (1-5-2), a connecting plate a (1-5-9) is connected with the connecting block (1-5-6), a connecting plate b (1-5-10) is connected with the connecting block (1-5-6), a threaded shaft mounting plate (1-5-11) is in bearing connection with the threaded shaft (1-5-2), the motor mounting box is characterized in that a supporting plate (1-5-5) is connected with a mounting plate a (1-1), a connecting plate a (1-5-9) is connected with the mounting plate a (1-1) in a sliding manner, the connecting plate a (1-5-9) is connected with a mounting plate b (1-2) in a sliding manner, a connecting plate b (1-5-10) is connected with the mounting plate a (1-1) in a sliding manner, a connecting plate b (1-5-10) is connected with the mounting plate b (1-2) in a sliding manner, and a threaded shaft mounting plate (1-5-11) is connected with the mounting plate b (1-2); the conveying and cleaning mechanism (1-6) comprises a conveying and cleaning power motor mounting plate (1-6-1), a conveying and cleaning power motor (1-6-2), a conveying and cleaning power motor shaft (1-6-3), a conveying wheel (1-6-4), a conveying belt (1-6-5), a cleaning plate groove (1-6-6), a conveying and cleaning plate mechanism (1-6-7) and a conveying mounting plate (1-6-8), wherein the conveying and cleaning power motor mounting plate (1-6-1) is connected with the conveying and cleaning power motor (1-6-2), the conveying and cleaning power motor (1-6-2) is connected with the conveying wheel (1-6-4), the conveying wheel (1-6-4) is in friction connection with the conveying belt (1-6-5), the conveying belt (1-6-5) is connected with the cleaning plate groove (1-6-6), the cleaning plate groove (1-6-6) is connected with the conveying cleaning plate mechanism (1-6-7), the conveying mounting plate (1-6-8) is connected with a bearing of a conveying cleaning power motor shaft (1-6-3), the conveying cleaning power motor mounting plate (1-6-1) is connected with the mounting plate c (1-3), the conveying mounting plate (1-6-8) is connected with the mounting plate a (1-1), and the conveying mounting plate (1-6-8) is connected with the mounting plate b (1-2); the conveying cleaning plate mechanism (1-6-7) comprises a cleaning rotating shaft (1-6-7-1), a cleaning plate (1-6-7-2), a cleaning limiting plate (1-6-7-3), a cleaning spring limiting plate (1-6-7-4), a spring connecting column (1-6-7-5), a cleaning limiting spring (1-6-7-6) and a cleaning rotating shaft limiting block (1-6-7-7), the cleaning rotating shaft (1-6-7-1) is connected with the cleaning rotating shaft limiting block (1-6-7-7) through a bearing, the cleaning plate (1-6-7-2) is connected with the cleaning rotating shaft (1-6-7-1), the cleaning limiting plate (1-6-7-3) is connected with the conveyor belt (1-6-5), the cleaning spring limiting plate (1-6-7-4) is connected with the cleaning plate (1-6-7-2), the spring connecting column (1-6-7-5) is connected with the cleaning limiting spring (1-6-7-6), the cleaning limiting spring (1-6-7-6) is limited on the cleaning spring limiting plate (1-6-7-4) and the conveyor belt (1-6-5), the cleaning rotating shaft limiting block (1-6-7-7) is connected with the conveyor belt (1-6-5), the cleaning limiting plate (1-6-7-3) is connected with the conveyor belt (1-6-5), one of the spring connecting columns (1-6-7-5) is connected with the conveyor belt (1-6-5) and the other is connected with the cleaning spring limiting plate (1-6-7-4).

3. The multifunctional paving apparatus for construction as claimed in claim 1, wherein: the stirring mechanism (2) comprises a stirring power motor (2-1), a stirring motor shaft (2-2), a sealing plate (2-3), a bearing plate (2-4), a stirring column (2-5), a material output box (2-6), a material output box sealing plate (2-7), a sliding plate (2-8), a sliding handle (2-9), a sliding block (2-10), a limiting block (2-11), a reset shaft (2-12), a limiting spring (2-13), a spring limiting plate (2-14) and a stirring box (2-15), wherein the stirring power motor (2-1) is connected with the stirring motor shaft (2-2), the stirring motor shaft (2-2) is connected with the sealing plate (2-3) through a bearing, the sealing plate (2-3) is connected with the stirring box (2-15), the bearing plate (2-4) is connected with the shaft (2-2) of the stirring motor in a bearing way, the stirring column (2-5) is connected with the shaft (2-2) of the stirring motor, the material output box (2-6) is connected with the sealing plate (2-7) of the material output box in a sliding way, the sealing plate (2-7) of the material output box is connected with the sliding plate (2-8), the sliding plate (2-8) is connected with the sliding handle (2-9), the sliding handle (2-9) is connected with the sliding block (2-10), the limiting block (2-11) is connected with the reset shaft (2-12), the reset shaft (2-12) is connected with the limiting plate (2-14) of the spring, the limiting spring (2-13) is sleeved on the reset shaft (2-12) and limited by the limiting block (2-11) and the limiting plate (2-14) of the, the stirring power motor (2-1) is connected with the mounting plate c (1-3), the stirring box (2-15) is connected with the mounting plate c (1-3), the bearing plate (2-4) is connected with the stirring box (2-15), the material output box (2-6) is inserted into and connected with the stirring box (2-15), and the material output box sealing plate (2-7) is connected with the stirring box (2-15) in a sliding manner.

4. The multifunctional paving apparatus for construction as claimed in claim 1, wherein: the gravity linkage mechanism (3) comprises a rotary sealing plate (3-1), a hinge (3-2), a discharging box (3-3), a rotary column (3-4), a rotary column spring (3-5), a rotary column spring limit (3-6), a linkage shaft a (3-7), a linkage rod (3-8), a linkage groove (3-9), a linkage shaft b (3-10), a linkage plate (3-11), a feeding port (3-12), a linkage plate connecting plate (3-13) and an inclined scraper (3-14), the rotary sealing plate (3-1) is connected with the hinge (3-2), the hinge (3-2) is connected with the discharging box (3-3), the discharging box (3-3) is connected with the linkage groove (3-9), the rotary column (3-4) is connected with the rotary sealing plate (3-1), a rotating column spring (3-5) is sleeved on a rotating column (3-4) and limited at a rotating column spring limit (3-6) and a mounting plate c (1-3), the rotating column spring limit (3-6) is connected with the rotating column (3-4), a linkage shaft a (3-7) is connected with the rotating column (3-4), a linkage rod (3-8) is connected with the linkage shaft a (3-7), a linkage groove (3-9) is connected with the linkage rod (3-8) in a sliding way, a linkage shaft b (3-10) is connected with the linkage rod (3-8), a linkage plate (3-11) is connected with a discharging box (3-3) in a sliding way, a feeding port (3-12) is connected with the discharging box (3-3), a linkage plate connecting plate (3-13) is connected with the linkage plate (3-11), the inclined scraper (3-14) is connected with the mounting plate a (1-1), the inclined scraper (3-14) is connected with the mounting plate b (1-2), the inclined scraper (3-14) is connected with the mounting plate c (1-3), the discharging box (3-3) is connected with the mounting plate c (1-3), the linkage shaft b (3-10) is connected with the linkage groove (3-9) in a sliding manner, the linkage plate (3-11) is connected with the linkage shaft b (3-10), and the feeding port (3-12) is connected with the material output box (2-6).

5. The multifunctional paving apparatus for construction as claimed in claim 1, wherein: the travelling mechanism (4) comprises a travelling motor mounting plate a (4-1), a travelling motor mounting plate b (4-2), a travelling motor (4-3), a travelling motor shaft (4-4), a transmission shaft (4-5), a transmission belt a (4-6), a travelling wheel (4-7), a transmission belt b (4-8), an equipment connecting plate (4-9) and an equipment connecting side plate (4-10), wherein the travelling motor mounting plate a (4-1) is connected with the travelling motor mounting plate b (4-2), the travelling motor mounting plate b (4-2) is connected with the travelling motor (4-3), the travelling motor (4-3) is connected with the travelling motor shaft (4-4), and the travelling motor shaft (4-4) is in friction connection with the transmission belt b (4-8), the transmission shaft (4-5) is connected with the transmission belt a (4-6), the travelling wheel (4-7) is connected with the transmission shaft (4-5), the transmission belt b (4-8) is in friction connection with the transmission shaft (4-5), the equipment connecting plate (4-9) is connected with the equipment connecting side plate (4-10), and the transmission shaft (4-5) is in bearing connection with the equipment connecting side plate (4-10).

6. The multifunctional paving apparatus for construction as claimed in claim 1, wherein: the cleaning plate (1-6-7-2) is made of rubber capable of generating elastic deformation.

Images