CN114785912A

CN114785912A - Intelligent platform for building engineering production with mobile patrol function

Info

Publication number: CN114785912A
Application number: CN202210215565.6A
Authority: CN
Inventors: 毛宝地; 谭锋; 夏少敏; 蒋小伟; 苟锋; 武建; 张瑞; 张汉纳; 武桐; 张荣学
Original assignee: Sinohydro Corp Engineering Bureau 15 Co Ltd
Current assignee: Sinohydro Corp Engineering Bureau 15 Co Ltd
Priority date: 2022-03-07
Filing date: 2022-03-07
Publication date: 2022-07-22

Abstract

An intelligent platform for building engineering production with mobile patrol is disclosed, wherein walking wheels are arranged at the bottom of a bottom plate, a material processing mechanism and a driving mechanism are arranged on the bottom plate, the top of the material processing mechanism is connected with a bearing rod through a supporting rod, a patrol component is arranged between the bearing rod and the top of the material processing mechanism, and a wind detection component is arranged on the upper surface of the bearing rod; the material processing mechanism is provided with the patrol component, the wind detection component and the temperature sensing box, integrates material processing, monitoring, environment temperature measurement and wind power detection, and has the advantages of high integration level, labor saving and high construction efficiency.

Description

Intelligent platform for building engineering production with mobile patrol function

Technical Field

The invention relates to the technical field of constructional engineering, in particular to an intelligent platform for constructional engineering production with a mobile patrol function.

Background

The building engineering refers to an engineering entity formed by the construction of various building constructions and their auxiliary facilities and the installation of lines, pipelines and equipment matched with them. The house building is characterized by comprising a top cover, a beam column, a wall, a foundation and a project which can form an internal space and meet the requirements of people on production, living, study and public activities.

When building engineering construction is carried out, a lot of preparation work is needed, such as material production preparation, and the temperature, the wind speed and the implementation condition of a construction site all need to be known by an engineer in real time, but the traditional building engineering construction equipment generally only has one function and cannot carry out a plurality of preparation work simultaneously, so that the engineer needs to spend more time to measure each data before customizing a work plan and then carries out construction, and the building construction efficiency is greatly reduced.

Disclosure of Invention

The invention aims to provide an intelligent platform for building engineering production, which has the advantages of reasonable design, high integration level, convenience in operation and high working efficiency and is capable of realizing mobile night patrol.

The technical scheme for solving the technical problems is as follows: an intelligent platform for building engineering production with mobile patrol is disclosed, wherein walking wheels are arranged at the bottom of a bottom plate, a material processing mechanism and a driving mechanism are arranged on the bottom plate, the top of the material processing mechanism is connected with a bearing rod through a supporting rod, a patrol assembly is arranged between the bearing rod and the top of the material processing mechanism, and a wind detection assembly is arranged on the upper surface of the bearing rod;

the material processing mechanism is characterized in that a material stirring component is arranged in the middle of the interior of a material box, material crushing components are arranged on two sides of the material stirring component, a feeding component with the upper end inclined towards the material stirring component is arranged between the material stirring component and the two material crushing components, a feeding hole is formed in the side wall of the material box, the material stirring component is a stirring box arranged on a mounting frame, a feeding hole is formed in the top of the stirring box, a stirrer is arranged in the center of the bottom of the stirring box, a discharging pipe is arranged at the bottom of the stirring box, and a valve is arranged on the discharging pipe; the feeding component is characterized in that a guide plate is obliquely arranged between the front wall and the rear wall of the material box, the upper end of the guide plate is close to a feeding port of the stirring box, and a material pushing plate which can reciprocate up and down is arranged on the guide plate; the material crushing component is characterized in that crushing blades which are uniformly distributed are arranged on a crushing shaft;

the power output shaft of the driving mechanism is fixedly connected with the stirrer, is connected with the worm of the worm gear transmission mechanism through a bevel gear pair, and is connected with the crushing shaft through the belt transmission mechanism, and the worm wheel of the worm gear transmission mechanism is connected with the material pushing plate through a connecting rod.

As a preferred technical solution, the patrol component is: the rotating disc is provided with a linkage shaft, a movable block is arranged between the linkage shaft and the bearing rod, and one side of the movable block is provided with a camera.

As an optimal technical scheme, the axis of universal driving shaft is parallel with the axis of rolling disc, the movable block bottom is provided with indulges the spout, the top is provided with the arch, the upper end of universal driving shaft is located indulges the spout, the arch of movable block is located the axial spout of carrier bar bottom, the axial spout with indulge the spout perpendicular.

As a preferred technical scheme, the upper end of the crushing shaft penetrates through the top of the material box and is arranged on the bearing rod, and the rotating disc is connected with the crushing shaft through a belt transmission mechanism.

As a preferred technical solution, the wind detecting assembly is: bearing bar upper surface is provided with the fan driving shaft, evenly distributed has the fan blade on the fan driving shaft, it examines the driven shaft to be located fan driving shaft both sides bearing bar upper surface and is provided with wind, the fan driving shaft passes through drive mechanism and examines the driven shaft with wind and links to each other, the cover is equipped with the slip cap on examining the driven shaft with wind, wind examines the driven shaft top and is provided with the swinging boom, it is provided with the locating piece on examining the driven shaft to be located wind between swinging boom and the slip cap, be provided with the elastic component between locating piece and the slip cap, it constitutes the rhombus frame to articulate there is rotatory connecting rod between swinging boom and the slip cap, be provided with the balancing weight on the rotatory connecting rod.

As a preferable technical scheme, the transmission mechanism is a belt transmission mechanism.

As a preferred technical solution, the discharge pipe is a U-shaped pipe.

As a preferred technical scheme, a temperature sensing box is arranged on the side wall of the material box.

As a preferred technical solution, the driving mechanism is a driving motor.

The invention has the following beneficial effects:

the material processing mechanism is provided with the night watching assembly, the wind detection assembly and the temperature sensing box, integrates material processing, monitoring, environment temperature measurement and wind power detection, and has the characteristics of high integration level, labor saving and high construction efficiency; the material pushing plate of the feeding assembly pushes materials upwards and has a screening function, large materials automatically roll off due to gravity factors and enter the material crushing area again for further processing, and the produced materials are high in quality.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view of detail A of FIG. 1;

FIG. 3 is a schematic view of the position relationship of the rotary disk 39 and the linkage shaft 40;

FIG. 4 is a schematic view of the connection of the connecting rod 6 and the worm wheel 7 according to the present invention;

fig. 5 is a schematic view of the connection of the stripper plate 5 and the stripper block 46;

wherein: a base plate 1; a crushing shaft 2; a first driven pulley 3; a first belt 4; a material pushing plate 5; a connecting rod 6; a worm wheel 7; a worm 8; a mounting frame 9; a drive motor 10; a first driving pulley 11; a driven bevel gear 12; a drive bevel gear 13; a tapping pipe 14; a traveling wheel 15; a feed inlet 16; a second driving pulley 17; a support bar 18; a carrier rod 19; a third driven pulley 20; a sliding sleeve 21; a counterweight 22; a rotating link 23; a wind detection driven shaft 24; a rotating arm 25; a positioning block 26; a spring 27; a fan drive shaft 28; a third drive pulley 29; fan blades 30; a third belt 31; a second belt 32; a stirring tank 33; a stirrer 34; a guide plate 35; a pulverizing blade 36; a temperature-sensitive tank 37; a material tank 38; a rotating disk 39; a linkage shaft 40; a movable block 41; a camera 42; a rotating shaft 43; a second driven pulley 44; a projection 45; a pusher block 46; an axial chute a; and a longitudinal sliding groove b.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, but the present invention is not limited to the embodiments described below.

In the embodiment of fig. 1 ~ 5 for building engineering production possess remove to patrol wisdom platform install walking wheel 15 for bottom plate 1, install material processing mechanism and driving motor 10 on the bottom plate 1, temperature sensing box 37 is installed to the both sides face of material processing mechanism left and right sides, be used for detecting job site ambient temperature, material processing mechanism top is connected with carrier bar 19 through bracing piece 18, be provided with between carrier bar 19 and the material processing mechanism top and patrol the subassembly, it is used for monitoring the job site to patrol the subassembly, surface mounting has wind detection assembly on carrier bar 19, wind detection assembly is used for detecting job site wind-force.

The material processing mechanism of the embodiment is characterized in that a mounting frame 9 is processed at the center of the bottom of a material box 38, a stirring box 33 is fixedly mounted on the mounting frame 9, a material inlet is formed in the top of the stirring box 33, a stirrer 34 is mounted at the center of the bottom, a stirring blade is mounted on the stirring shaft of the stirrer 34, the stirring shaft extends out of the bottom surface of the stirring box 33 and is fixedly connected with a power output shaft of a driving motor 10, the driving motor 10 drives the stirrer 34 to rotate, a U-shaped material discharging pipe 14 is mounted at the bottom of the stirring box 33, a valve is mounted on the material discharging pipe 14, processed materials are discharged through the material discharging pipe 14, a guide plate 35 is obliquely mounted between the front wall and the rear wall of the material box 38 on the left side and the right side of the stirring box 33, the upper end of the guide plate 35 is close to the material inlet of the stirring box 33, a material pushing plate 5 is mounted on the guide plate 35, the material pushing plate 5 can reciprocate up and down along the guide plate 35, and the upper end of the material pushing plate 5 is connected with a material pushing block 46, the material pushing plate 5 is used for pushing materials into the stirring box 33, in the material pushing process, large materials can fall to a crushing area for further crushing and processing due to self gravity, the area between the left guide plate 35 and the left side wall of the material box 38 and the area between the right guide plate 35 and the right side wall of the material box 38 are crushing areas, the left side wall and the right side wall of the material box 38 are both provided with a feed inlet 16, the materials to be processed enter the crushing areas through the feed inlet 16, the crushing areas on the left side and the right side of the material box 38 are respectively provided with a material crushing assembly, the materials to be processed are crushed through the material crushing assembly, the material crushing assembly is a crushing shaft 2 on which crushing blades 36 are uniformly distributed, the upper end of the crushing shaft 2 penetrates through the top of the material box 38 and is rotationally connected with a bearing rod 19, the lower end penetrates through the bottom of the material box 38 and is rotationally connected with the bottom plate 1, a first driving belt pulley 11 and a driving bevel gear 13 are arranged on a power output shaft of a driving motor 10 below the material box 38, two opposite driven bevel gears 12 are engaged on a driving bevel gear 13, first driven belt pulleys 3 are respectively installed on the crushing shafts 2 on the left side and the right side, the first driving belt pulley 11 is connected with the two first driven belt pulleys 3 through a first belt 4, worm gears 7 are respectively installed on the left side and the right side on the outer bottom surface of a material box 38, one end of a connecting rod 6 is hinged on each worm gear 7, the other end of each connecting rod 6 is connected with the lower end of a material pushing plate 5, a worm 8 engaged with each worm gear 7 is fixedly installed on the driven bevel gears 12 on the same side of the worm gears 7, a power output shaft of a driving motor 10 rotates to drive the first driving belt pulley 11 and the driving bevel gear 13 to synchronously rotate, the first driving belt pulley 11 drives the two first driven belt pulleys 3 to rotate through the first belt 4 under the action of tensioning force, so as to drive the crushing shafts 2 to rotate, and the driving bevel gear 13 drives the two driven bevel gears 12 to synchronously rotate, the two driven bevel gears 12 respectively drive the material pushing plate 5 to move up and down through a worm gear transmission mechanism and a connecting rod 6 connected with the driven bevel gears.

A patrol assembly is arranged between the top of the material box 38 and the bearing rod 19 of the embodiment, the patrol assembly is formed by rotatably connecting the top of the material box 38 with a rotating shaft 43, a second driven belt pulley 44 and a rotating disc 39 are fixedly arranged on the rotating shaft 43, a linkage shaft 40 is processed on the rotating disc 39, the axis of the linkage shaft 40 is parallel to the axis of the rotating disc 39, a movable block 41 is arranged between the linkage shaft 40 and the bearing rod 19, a longitudinal sliding groove b is processed at the bottom of the movable block 41, processing at the top has protruding 45, the upper end of universal driving shaft 40 is located the vertical chute b of movable block 41 bottom, protruding 45 of movable block 41 is located the axial chute a of carrier bar 19 bottom, the axial chute a of carrier bar 19 bottom is perpendicular with vertical chute b, camera 42 is installed to the front side of movable block 41, it has second driving pulley 17 to be located equal fixed mounting on the crushing shaft 2 of the subassembly left and right sides of patrolling, two second driving pulley 17 link to each other through second belt 32 with second driven pulley 44. The two crushing shafts 2 synchronously rotate in the same direction, the two second driving belt pulleys 17 drive the second driven belt pulley 44 to rotate through the second belt 32, so that the rotating disc 39 rotates, and the rotating disc 39 is not coaxial with the universal driving shaft 40, namely the rotating disc 39 rotates to drive the movable block 41 to move left and right in the axial sliding groove a, so that the monitoring range of the camera 42 is enlarged.

The upper surface of the carrier bar 19 of this embodiment rotates and is connected with a fan driving shaft 28, fan blades 30 are evenly distributed on the fan driving shaft 28, a third driving pulley 29 is fixedly installed on the fan driving shaft 28, the upper surfaces of the carrier bars 19 located on both sides of the fan driving shaft 28 are connected with an air detection driven shaft 24 in a rotating mode, a third driven pulley 20 is fixedly installed on the air detection driven shaft 24, the third driving pulley 29 is connected with the third driven pulley 20 through a third belt 31, a sliding sleeve 21 is sleeved on the air detection driven shaft 24, the top of the air detection driven shaft 24 is connected with a rotating arm 25 in a rotating mode, a positioning block 26 is fixedly installed on the air detection driven shaft 24 located between the rotating arm 25 and the sliding sleeve 21, a spring 27 is installed between the positioning block 26 and the sliding sleeve 21, rotating connecting rods 23 are hinged between two ends of the rotating arm 25 and two ends of the sliding sleeve 21 respectively to form a rectangular frame, and a diamond-shaped frame is arranged on the rotating connecting rod 23. The wind blowing fan blades 30 drive the fan driving shaft 28 to rotate, the third driving belt pulley 29 synchronously rotates, the third driving belt pulley 29 drives the two third driven belt pulleys 20 to rotate through the third belt 31, so that the wind detection driven shaft 24 rotates, the wind speed is higher under the action of centrifugal force, the distance between the balancing weight 22 and the wind detection driven shaft 24 is longer when the balancing weight 22 rotates, and the wind speed measurement is further realized.

Claims

1. The utility model provides a possess and remove intelligent platform for building engineering production of patrolling, its characterized in that: the walking wheels (15) are arranged at the bottom of the bottom plate (1), the material processing mechanism and the driving mechanism are arranged on the bottom plate (1), the top of the material processing mechanism is connected with a bearing rod (19) through a supporting rod (18), a patrol assembly is arranged between the bearing rod (19) and the top of the material processing mechanism, and a wind detection assembly is arranged on the upper surface of the bearing rod (19);

the material processing mechanism is characterized in that a material stirring component is arranged in the middle of the inside of a material box (38), material crushing components are arranged on two sides of the material stirring component, a feeding component with the upper end inclined towards the material stirring component is arranged between the material stirring component and the two material crushing components, a feeding hole (16) is formed in the side wall of the material box (38), the material stirring component is a stirring box (33) arranged on a mounting frame (9), a feeding hole is formed in the top of the stirring box (33), a stirrer (34) is arranged in the center of the bottom of the stirring box (33), a discharging pipe (14) is arranged at the bottom of the stirring box (33), and a valve is arranged on the discharging pipe (14); the feeding component is characterized in that a guide plate (35) is obliquely arranged between the front wall and the rear wall of the material box (38), the upper end of the guide plate (35) is close to a feeding port of the stirring box (33), and a material pushing plate (5) which can reciprocate up and down is arranged on the guide plate (35); the material crushing component is characterized in that crushing blades (36) which are uniformly distributed are arranged on a crushing shaft (2);

the power output shaft of the driving mechanism is fixedly connected with the stirrer (34), is connected with the worm (8) of the worm gear transmission mechanism through a bevel gear pair and is connected with the crushing shaft (2) through the belt transmission mechanism, and the worm wheel of the worm gear transmission mechanism is connected with the material pushing plate (5) through the connecting rod (6).

2. The intelligent platform for building engineering production with mobile patrol according to claim 1, wherein the patrol component is: a linkage shaft (40) is arranged on the rotating disc (39), a movable block (41) is arranged between the linkage shaft (40) and the bearing rod (19), and a camera (42) is arranged on one side of the movable block (41).

3. The intelligent platform for building engineering production with mobile patrol according to claim 2, wherein the axis of the linkage shaft (40) is parallel to the axis of the rotating disc (39), the bottom of the movable block (41) is provided with a longitudinal sliding groove (b), the top of the movable block is provided with a protrusion (45), the upper end of the linkage shaft (40) is located in the longitudinal sliding groove (b), the protrusion (45) of the movable block (41) is located in the axial sliding groove (a) at the bottom of the bearing rod (19), and the axial sliding groove (a) is perpendicular to the longitudinal sliding groove (b).

4. The intelligent platform with the function of mobile night patrol for building engineering production as claimed in claim 2 or 3, wherein the upper end of the smashing shaft (2) penetrates through the top of the material box (38) and is arranged on the bearing rod (19), and the rotating disc (39) is connected with the smashing shaft (2) through a belt transmission mechanism.

5. The intelligent platform for building engineering production with mobile patrol as claimed in claim 1, wherein the wind detecting component is: the upper surface of the bearing rod (19) is provided with a fan driving shaft (28), fan blades (30) are uniformly distributed on the fan driving shaft (28), bearing rods (19) positioned on two sides of the fan driving shaft (28) are provided with wind detection driven shafts (24), the fan driving shaft (28) is connected with the wind detection driven shafts (24) through a transmission mechanism, the wind detection driven shafts (24) are sleeved with sliding sleeves (21), the top of the wind detection driven shafts (24) is provided with a rotating arm (25), a positioning block (26) is arranged between the rotating arm (25) and the sliding sleeves (21) and on the wind detection driven shafts (24), an elastic part is arranged between the positioning block (26) and the sliding sleeves (21), a rotating connecting rod (23) is hinged between the rotating arm (25) and the sliding sleeves (21) to form a diamond-shaped frame, and a balancing weight (22) is arranged on the rotating connecting rod (23).

6. The intelligent platform for building engineering production with mobile patrol as claimed in claim 5, wherein the transmission mechanism is a belt transmission mechanism.

7. The intelligent platform for construction engineering production with mobile patrol as claimed in claim 1, wherein the tapping pipe (14) is a U-shaped pipe.

8. The intelligent platform for building engineering production with mobile patrol as claimed in claim 1, wherein a temperature sensing box (37) is arranged on the side wall of the material box (38).

9. The intelligent platform for construction engineering production with mobile patrol as claimed in claim 1, wherein the driving mechanism is a driving motor (10).