CN113235927A

CN113235927A - Intelligent construction process for building heat-insulating wall

Info

Publication number: CN113235927A
Application number: CN202110532844.0A
Authority: CN
Inventors: 张海长; 周毅
Original assignee: Guangdong Hua Xing Construction Corp Co ltd
Current assignee: Guangdong Zhuao Construction Group Co ltd
Priority date: 2021-05-17
Filing date: 2021-05-17
Publication date: 2021-08-10
Anticipated expiration: 2041-05-17
Also published as: CN113235927B

Abstract

The invention relates to the technical field of intelligent construction processes and intelligent industrial robots for building heat-insulating walls, in particular to an intelligent construction process for building heat-insulating walls. The invention comprises the following steps: 1) base surface treatment: cleaning up the residues on the wall surface by using a tool, and chiseling or repairing the out-of-tolerance part of the wall surface; 2) paying off: hanging control lines such as vertical lines or horizontal lines at the positions of internal corners, external corners, balcony breast boards, door and window openings and the like; 3) installing a starting bracket: in order to effectively protect the bottom of the heat insulation plate and enable the heat insulation plate to be installed on the same horizontal line, a starting bracket is installed at the initial position of the installation of the heat insulation plate and is fixed by using bolts; 4) adhesive preparation: placing various support raw materials of the adhesive into an intelligent construction device of a building heat-insulating wall body, stirring the support raw materials, and controlling the once allocation quantity to be used up within 60 minutes; the invention improves the stirring efficiency of the adhesive, ensures the stirring quality, can be used for plastering the insulation board of the outer wall of the window, and has simple structure and strong practicability.

Description

Intelligent construction process for building heat-insulating wall

Technical Field

The invention relates to the technical field of intelligent construction processes and intelligent industrial robots for building thermal insulation walls, in particular to an intelligent construction process for a building thermal insulation wall.

Background

In a building, the heat loss of the outer protective structure is large, and the wall body in the outer protective structure accounts for a large part. Therefore, the reformation of building wall bodies and the development of wall body energy-saving technology are the most important links of the building energy-saving technology, and the development of external wall heat-insulating technology and energy-saving materials are the main realization modes of building energy conservation. The external wall heat preservation technology originally originates from Europe, China starts the trial in the middle of the 80 th year of the 20 th century, and the technology is widely applied to the field of buildings. But the energy saving level of the current building is far lower than that of developed countries, and the energy consumption of the unit area of the building in China is still 3-5 times of that of the developed countries with similar climates. Therefore, building energy saving is an important subject of the building industry of China in this century, and in recent years, with the continuous deepening of energy saving work of residential building construction and the continuous improvement of energy saving standards, a plurality of novel energy saving technologies and materials are introduced and developed and are vigorously popularized and used in residential buildings. Among them, various foamed plastic heat insulating materials used for exterior wall heat insulation, such as EPS boards, XPS boards, foamed polyurethane boards, etc., have outstanding comprehensive properties.

In building outer wall body insulation material work progress, the outer wall body surface of curved window structure presents the arc, consequently and the heated board of cutting out also presents the arc, do not have the equipment to curved structure heated board daubing among the prior art, only can adopt artifical daubing mode to go on, low efficiency, and carry out the in-process of stirring to the adhesive, generally stir with electric agitator, need the staff to hold with the hand, in the multiple raw materials that make the adhesive once only added stirred vessel, the mixing stirring needs longer time, stirring inefficiency.

Therefore, it is necessary to provide a new intelligent construction process for building thermal insulation walls to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent construction process for a building heat-insulating wall.

The invention provides an intelligent construction process of a building heat-insulating wall, which uses an intelligent construction device of the building heat-insulating wall, and comprises the following steps:

1) base surface treatment

Cleaning up the residues on the wall surface by using a tool, and chiseling or repairing the out-of-tolerance part of the wall surface;

2) paying-off device

Hanging control lines such as vertical lines or horizontal lines at the positions of internal corners, external corners, balcony breast boards, door and window openings and the like;

3) mounting starting bracket

In order to effectively protect the bottom of the heat insulation plate and enable the heat insulation plate to be installed on the same horizontal line, a starting bracket is installed at the initial position of the installation of the heat insulation plate and is fixed by using bolts;

4) dispensing adhesive

Placing various support raw materials of the adhesive into an intelligent construction device of a building heat-insulating wall body, stirring the support raw materials, and controlling the once allocation quantity to be used up within 60 minutes;

5) sticking and turning glass fiber net

Pre-adhering a turned glass fiber net to the initial position of the installation of the heat insulation board and the door and window opening, wherein the width of the turned glass fiber net is the thickness of the heat insulation board plus 200 mm, and the length is determined according to the specific condition of the construction position;

6) sticking thermal insulation board

The heat insulation board is adhered by two methods, namely a strip adhesion method and a point frame method, when the base surface flatness is good, the strip adhesion method can be adopted for adhesion, when the base surface flatness is poor, the point frame method can be used for adhesion, an adhesive is smeared around the heat insulation board, plum blossom spots are smeared in the middle, the adhesion area rate is at least not less than forty percent, and the prepared adhesive is placed in an intelligent construction device of a building heat insulation wall body and is smeared on the surface of the heat insulation board.

Wherein building thermal insulation wall body intelligence construction equipment in step 4 and step 6) includes the bottom plate, the last fixed surface of bottom plate is connected with the riser, the first connecting plate of fixed surface connection, second connecting plate and the third connecting plate of riser, and first connecting plate has two, two fixedly connected with connecting device between the first connecting plate, the fixed surface of riser is kept away from to the second connecting plate is connected with the agitator tank, the fixed surface of agitator tank is connected with agitating unit, the top of bottom plate is provided with the daub device, daub device and agitating unit fixed connection, the lower surface symmetry fixedly connected with spacing post of third connecting plate, two spacing post all with agitating unit sliding connection, the top of bottom plate is provided with resetting means, resetting means and connecting device fixed connection.

Preferably, the stirring device comprises a mounting box, a first servo motor, a circular groove, a first bevel gear, a second bevel gear, a fixed column, a rotating column, a first square column, a lifting plate, a first gear, a second gear, a third gear, a fourth gear, a vertical column, a stirring rod, a first storage box, a second storage box, a feeding port, a discharging port and an annular plate, wherein the surface of the stirring box is fixedly connected with the mounting box, the first servo motor is mounted inside the mounting box, the output end of the first servo motor is fixedly connected with the first bevel gear, the upper part of the first bevel gear is in meshing connection with the second bevel gear, the surface of the first bevel gear is fixedly connected with the first square column, the surface of the second bevel gear is fixedly connected with the fixed column, the surface of the fixed column is rotatably mounted with the rotating column, the surface of the mounting box is provided with the circular groove, the surface of the first square column is far away from one end of the first bevel gear and is slidably connected with a lifting column, one end of the rotating column, which is far away from the fixed column, is rotatably provided with a lifting plate, two limiting columns are slidably connected with the lifting plate, the lower surface of the lifting plate is rotatably provided with a first gear, a second gear, a third gear and two fourth gears, the first gear is meshed with the second gear, the third gear is meshed with the two fourth gears, one fourth gear is meshed with the second gear, a stirring column is fixedly connected below the fourth gear, the surface of the stirring column is fixedly connected with a plurality of stirring rods, the limiting columns are slidably connected with the stirring column, a vertical column is fixedly connected below the third gear, the surface of the vertical column is rotatably provided with a first storage box, and the two stirring columns are rotatably connected with the first storage box, the fixed surface of stirring post is connected with the second storage case, feed inlet and discharge gate have all been seted up on the surface of first storage case and second storage case, the top fixedly connected with annular plate of agitator tank.

Preferably, the surface of the second bevel gear, which is far away from the fixed column, is rotatably connected with a first transverse column, one end of the first transverse column, which is far away from the second bevel gear, is fixedly connected with a second transverse column, and one end of the second transverse column, which is far away from the first transverse column, is fixedly connected with the installation box.

Preferably, connecting device includes L type piece, U template and connecting block, two fixedly connected with U template between the first connecting plate, the surperficial sliding connection of U template has L type piece, the fixed surface of U template is connected with the connecting block, and the connecting block has two.

Preferably, the glue smearing device comprises a transverse plate, a motor base, a second servo motor, a chain wheel, a chain, a movable block, a movable plate, a movable column, a first spring, an adjusting block, a connecting pipe, a spherical groove, a spherical ball, a glue dispensing module and an adjusting column, wherein the transverse plate is fixedly connected between the two connecting blocks, the motor base is fixedly connected to the surface of the U-shaped plate, the second servo motor is fixedly connected to the surface of the motor base, the chain wheel is symmetrically and rotatably installed on the surface of the transverse plate, the two chain wheels are in chain transmission with each other, the movable block is installed on the surface of the chain, the movable block is slidably connected to the surface of the movable block, the movable column is fixedly connected to the surface of the movable plate, the first spring is sleeved on the surface of the movable column, one end of the first spring is fixedly connected with the movable plate, the adjusting block is fixedly connected to the other end of the first spring, the utility model discloses a quick-witted, including adjusting block, ball and ball groove, adjusting block and movable column sliding connection, the surface rotation of connecting block installs the regulation post, the one end fixedly connected with ball that the connecting block was kept away from to the regulation post, spherical groove has been seted up to the surface symmetry of adjusting block, ball and spherical groove cooperation installation, the top fixedly connected with connecting pipe of adjusting block, the one end and the agitator tank fixed connection of adjusting block are kept away from to the connecting pipe, the module is glued to the below fixedly connected with point of adjusting block.

Preferably, the surface of diaphragm has seted up the spacing groove, the surperficial sliding connection in spacing groove has the connecting rod, and the connecting rod presents the L type, two the connecting rod all with fly leaf fixed connection.

Preferably, the resetting device comprises a convex block, a rack, a fifth gear, a second square column, a screw rod, a mounting groove, a second spring, a pressing block, a cylinder, a square block, a cylinder, a positioning frame, a fixing seat and an ejector rod, wherein the convex block is fixedly connected above the adjusting block, the surface of the convex block is fixedly connected with the rack, one end of the rack surface, which is far away from the convex block, is engaged and connected with the fifth gear, the fifth gear is rotatably mounted with the L-shaped block, the surface of the fifth gear is fixedly connected with the second square column, the surface of the second square column is slidably connected with the screw rod, the mounting groove is formed in the surface of the screw rod, the bottom of the mounting groove is fixedly connected with the second spring, one end of the second spring, which is far away from the bottom of the mounting groove, is fixedly connected with the pressing block, the surface of the pressing block is fixedly connected with the cylinder, the cylinder is slidably connected with the screw rod, and the L-shaped block are connected through threads, the cylinder is kept away from the square piece of one end fixedly connected with of briquetting, the fixed surface of L type piece is connected with the drum, the one end fixedly connected with locating frame of L type piece is kept away from to the drum, locating frame and square piece cooperation installation, the fixed surface of U template is connected with the fixing base, the fixed surface of fixing base is connected with the ejector pin.

Preferably, the surface of the movable plate is provided with a sliding groove, and the movable block is connected with the sliding groove in a sliding manner.

Preferably, the surface of the movable column is symmetrically and fixedly connected with a baffle.

Preferably, the bottom of the first storage box is rotatably connected with a rotary table, the rotary table is fixedly connected with a vertical column, a through hole is formed in the surface of the rotary table and is V-shaped, and a screen plate is fixedly connected to the surface of the through hole.

Compared with the prior art, the intelligent construction process for the building heat-insulating wall provided by the invention has the following beneficial effects:

the invention provides a method for preparing a high-efficiency adhesive, which comprises the steps of placing raw materials of an adhesive in a stirring box, a first material storage box and a second material storage box, starting a first servo motor, driving two stirring columns to rotate through a series of transmission, driving a lifting plate to move up and down simultaneously, and driving the lifting plate to move up and down while stirring, so as to ensure the stirring effect, driving the second material storage box to rotate by the stirring columns, discharging the raw materials of the adhesive in the second material storage box from a discharge port under the action of centrifugal force, directly sliding the raw materials into the stirring box, or blocking the raw materials of the adhesive by an annular plate to slide into the stirring box, driving a rotary table to rotate along with a vertical column, sliding the raw materials in the first material storage box into the stirring box through a screen plate, wherein the first material storage box and the second material storage box can contain the same raw materials, so as to ensure that the raw materials can be rapidly mixed with other raw materials of the adhesive in the stirring process, and improve the stirring efficiency, further ensuring the stirring effect;

in the process of applying glue, the glue is driven by a second servo motor, two chain wheels are driven by a chain, the chain drives a movable block and a movable plate to reciprocate, the movable block slides on the surface of a chute, a movable column moves along with the movement of the movable plate, initially, an ejector rod is matched with a square block, a second spring is in a further compressed state, the square block is separated from a positioning frame, a first spring is in a stretched state, one of the balls is matched with the spherical groove, in the process that the movable plate moves towards the other end of the transverse plate, the angle between one of the adjusting columns and the transverse plate is slowly reduced, under the elastic force of the first spring, the adjusting block moves towards the direction close to the transverse plate, the ball is always matched with the spherical groove, then, the two are separated, the other ball is matched with a spherical valve, and in the moving process, the adjusting block can restore to the initial position, the process that the regulating block moved presents the arc, and the module is glued to the cooperation point to the surface of being cut good arc heated board and carry out the floating glue, guarantees the quality of floating glue, improves the efficiency of floating glue.

Drawings

FIG. 1 is a process flow diagram provided by the present invention;

FIG. 2 is a schematic view of the overall structure provided by the present invention;

FIG. 3 is a second schematic diagram of the overall structure provided by the present invention;

FIG. 4 is a schematic structural view of a connecting device and a glue applying device provided by the present invention;

FIG. 5 is a schematic view of a structure of the first bevel gear and the second bevel gear provided by the present invention;

FIG. 6 is a schematic view of a fifth gear and rack combination structure according to the present invention;

FIG. 7 is a schematic view of a structure of the connecting rod and the limiting groove provided by the present invention;

FIG. 8 is a schematic structural view of a stirring device provided in the present invention;

FIG. 9 is a schematic structural diagram of a resetting device according to the present invention;

FIG. 10 is a second schematic view of a resetting device according to the present invention;

fig. 11 is a second schematic view of a fifth gear and rack matching structure provided by the present invention;

fig. 12 is a schematic view of a turntable structure provided by the present invention.

Reference numbers in the figures: 1. a base plate; 2. a vertical plate; 3. a first connecting plate; 4. a second connecting plate; 5. a third connecting plate; 6. a connecting device; 7. a stirring box; 8. a stirring device; 9. a glue smearing device; 10. a limiting column; 11. a resetting device; 12. installing a box; 13. a first servo motor; 14. a circular groove; 15. a first bevel gear; 16. a second bevel gear; 17. fixing a column; 18. rotating the column; 19. a first square column; 20. a lifting column; 21. a lifting plate; 22. a first gear; 23. a second gear; 24. a third gear; 25. a fourth gear; 26. a vertical post; 27. a stirring column; 28. a stirring rod; 29. a first material storage box; 30. a second material storage tank; 31. a feed inlet; 32. a discharge port; 33. an annular plate; 34. an L-shaped block; 35. a U-shaped plate; 36. connecting blocks; 37. a transverse plate; 38. a motor base; 39. a second servo motor; 40. a sprocket; 41. a chain; 42. a movable block; 43. a movable plate; 44. a movable post; 45. a first spring; 46. an adjusting block; 47. a connecting pipe; 48. a spherical groove; 49. a ball; 50. a dispensing module; 51. an adjustment column; 52. a limiting groove; 53. a connecting rod; 54. a bump; 55. a rack; 56. a fifth gear; 57. a second square column; 58. a screw rod; 59. mounting grooves; 60. a second spring; 61. briquetting; 62. a cylinder; 63. a square block; 64. a cylinder; 65. a positioning frame; 66. a fixed seat; 67. a top rod; 68. a chute; 69. a baffle plate; 70. a turntable; 71. a through hole; 72. a mesh plate.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Referring to fig. 1, fig. 2 and fig. 3 in combination, wherein fig. 1 is a process flow diagram provided by the present invention; FIG. 2 is a schematic view of the overall structure provided by the present invention; FIG. 3 is a second schematic diagram of the overall structure provided by the present invention; FIG. 4 is a schematic structural view of a connecting device and a glue applying device provided by the present invention; FIG. 5 is a schematic view of a structure of the first bevel gear and the second bevel gear provided by the present invention; FIG. 6 is a schematic view of a fifth gear and rack combination structure according to the present invention; FIG. 7 is a schematic view of a structure of the connecting rod and the limiting groove provided by the present invention; FIG. 8 is a schematic structural view of a stirring device provided in the present invention; FIG. 9 is a schematic structural diagram of a resetting device according to the present invention; FIG. 10 is a second schematic view of a resetting device according to the present invention; fig. 11 is a second schematic view of a fifth gear and rack matching structure provided by the present invention; fig. 12 is a schematic view of a turntable structure provided by the present invention.

In a specific implementation process, as shown in fig. 1, fig. 2 and fig. 3, an intelligent construction process for a building thermal insulation wall is completed by using an intelligent construction device for a building thermal insulation wall of the present invention in an auxiliary cooperation manner, and the intelligent construction process for a building thermal insulation wall includes the following steps:

1) base surface treatment

2) paying-off device

3) mounting starting bracket

4) dispensing adhesive

5) sticking and turning glass fiber net

6) sticking thermal insulation board

Wherein, the intelligent construction device of the building thermal insulation wall used in the construction process method comprises a bottom plate 1, the upper surface of the bottom plate 1 is fixedly connected with a vertical plate 2, the surface of the vertical plate 2 is fixedly connected with a first connecting plate 3, a second connecting plate 4 and a third connecting plate 5, two first connecting plates 3 are provided, a connecting device 6 is fixedly connected between the two first connecting plates 3, the surface of the second connecting plate 4 far away from the vertical plate 2 is fixedly connected with a stirring box 7, the surface of the stirring box 7 is fixedly connected with a stirring device 8, a glue smearing device 9 is arranged above the bottom plate 1, the glue smearing device 9 is fixedly connected with the stirring device 8, the lower surface of the third connecting plate 5 is symmetrically and fixedly connected with limiting columns 10, the two limiting columns 10 are both connected with the stirring device 8 in a sliding manner, a reset device 11 is arranged above the bottom plate 1, the resetting device 11 is fixedly connected with the connecting device 6.

As shown in fig. 1, 2, 5, 8 and 12, the stirring apparatus 8 includes a mounting box 12, a first servo motor 13, a circular groove 14, a first bevel gear 15, a second bevel gear 16, a fixed column 17, a rotating column 18, a first square column 19, a lifting column 20, a lifting plate 21, a first gear 22, a second gear 23, a third gear 24, a fourth gear 25, a vertical column 26, a stirring column 27, a stirring rod 28, a first storage box 29, a second storage box 30, a feeding port 31, a discharging port 32 and a ring plate 33, the mounting box 12 is fixedly connected to the surface of the stirring box 7, the first servo motor 13 is mounted inside the mounting box 12, the first bevel gear 15 is fixedly connected to the output end of the first servo motor 13, the second bevel gear 16 is engaged and connected to the upper side of the first bevel gear 15, the first square column 19 is fixedly connected to the surface of the first bevel gear 15, a fixed column 17 is fixedly connected to the surface of the second bevel gear 16, a rotating column 18 is rotatably mounted on the surface of the fixed column 17, a circular groove 14 is formed in the surface of the mounting box 12, a lifting column 20 is slidably connected to one end, away from the first bevel gear 15, of the surface of the first square column 19, a lifting plate 21 is rotatably mounted on one end, away from the fixed column 17, of the rotating column 18, two limiting columns 10 are slidably connected with the lifting plate 21, a first gear 22, a second gear 23, a third gear 24 and four gears 25 are rotatably mounted on the lower surface of the lifting plate 21, two fourth gears 25 are provided, the first gear 22 is in meshing connection with the second gear 23, the third gear 24 is in meshing connection with the two fourth gears 25, one of the fourth gears 25 is in meshing connection with the second gear 23, and a stirring column 27 is fixedly connected below the fourth gear 25, the surface of the stirring column 27 is fixedly connected with a plurality of stirring rods 28, the limiting columns 10 are connected with the stirring columns 27 in a sliding manner, the lower part of the third gear 24 is fixedly connected with a vertical column 26, the surface of the vertical column 26 is rotatably provided with a first storage box 29, two stirring columns 27 are rotatably connected with the first storage box 29, the surface of the stirring column 27 is fixedly connected with a second storage box 30, the surfaces of the first storage box 29 and the second storage box 30 are respectively provided with a feeding hole 31 and a discharging hole 32, the upper part of the stirring box 7 is fixedly connected with an annular plate 33, the first servo motor 13 is started to drive the first bevel gear 15 to rotate and further drive the second bevel gear 16 to rotate, the fixed column 17 rotates along with the rotation of the second bevel gear 16 and further drives the rotating column 18 to move up and down, and further drives the lifting plate 21 to move up and down, and the lifting plate 21 and the two limiting columns 10 slide relatively, the lifting plate 21 moves up and down to drive the stirring column 27 to move up and down, the first bevel gear 15 rotates to drive the first square column 19 to rotate, and further drive the lifting column 20 to rotate, and further drive the first gear 22, the second gear 23 and the third gear 24 to rotate, and further drive the two stirring columns 27 and the vertical columns 26 to rotate, and further drive the stirring rod 28 to stir the adhesive manufacturing raw material, the stirring column 27 can move up and down while rotating, and further ensure the stirring effect, the stirring column 27 rotates to drive the second storage box 30 to rotate, under the action of centrifugal force, the raw material inside the second storage box 30 is discharged from the discharge port 32, directly slides into the stirring box 7, or is blocked by the annular plate 33 and slides into the stirring box 7, and is scattered while rotating, so as to be rapidly and uniformly stirred and mixed with the raw material inside the stirring box 7, the raw material inside the first storage box 29 slides into the stirring box 7 through the gap of the mesh plate 72, as the rotating disc 70 rotates, it is scattered evenly.

As shown in fig. 5, a first transverse column is rotatably connected to the surface of the second bevel gear 16 far from the fixing column 17, a second transverse column is fixedly connected to one end of the first transverse column far from the second bevel gear 16, and one end of the second transverse column far from the first transverse column is fixedly connected to the mounting box 12, so that the stability of rotation of the second bevel gear 16 is ensured, and the transmission of the first square column 19 is not affected.

As shown in fig. 2, 3, 4, 6 and 11, the connecting device 6 includes an L-shaped block 34, a U-shaped plate 35 and two connecting blocks 36, the U-shaped plate 35 is fixedly connected between the two first connecting plates 3, the L-shaped block 34 is slidably connected to the surface of the U-shaped plate 35, the connecting blocks 36 are fixedly connected to the surface of the U-shaped plate 35, and the two connecting blocks 36 have a connecting function.

As shown in fig. 4, 2 and 3, the glue spreading device 9 includes a transverse plate 37, a motor base 38, a second servo motor 39, a chain wheel 40, a chain 41, a movable block 42, a movable plate 43, a movable column 44, a first spring 45, an adjusting block 46, a connecting pipe 47, a spherical groove 48, a sphere 49, a glue dispensing module 50 and an adjusting column 51, the transverse plate 37 is fixedly connected between the two connecting blocks 36, the motor base 38 is fixedly connected to the surface of the U-shaped plate 35, the second servo motor 39 is fixedly connected to the surface of the motor base 38, the chain wheel 40 is symmetrically and rotatably installed on the surface of the transverse plate 37, the two chain wheels 40 are driven by the chain 41, the movable block 42 is installed on the surface of the chain 41, the movable plate 43 is slidably connected to the surface of the movable block 42, the movable column 44 is fixedly connected to the surface of the movable plate 43, the first spring 45 is sleeved on the surface of the movable column 44, one end of the first spring 45 is fixedly connected with the movable plate 43, the other end of the first spring 45 is fixedly connected with an adjusting block 46, the adjusting block 46 is connected with a movable column 44 in a sliding manner, an adjusting column 51 is installed on the surface of the connecting block 36 in a rotating manner, one end, far away from the connecting block 36, of the adjusting column 51 is fixedly connected with a round ball 49, a round groove 48 is symmetrically formed in the surface of the adjusting block 46, the round ball 49 is installed in cooperation with the round groove 48, a connecting pipe 47 is fixedly connected above the adjusting block 46, one end, far away from the adjusting block 46, of the connecting pipe 47 is fixedly connected with the stirring box 7, a glue dispensing module 50 is fixedly connected with the lower portion of the adjusting block 46, in an initial state, the ejector rod 67 is in surface contact with the square block 63, the second spring 60 is in a further compressed state, the adjusting block 46 is in a position farthest away from the transverse plate 37, and one round ball 49 is matched with the round groove 48, the second servo motor 39 is started to drive the chain wheel 40 to rotate, and then drive the movable block 42 to move, the movable plate 43 moves along with the movement of the movable block 42, and then drive the movable column 44 to move towards the other end of the transverse plate 37, in the moving process, the square block 63 is separated from the positioning frame 65 while the ejector rod 67 is separated from the square block 63, the included angle between one of the adjusting columns 51 and the transverse plate 37 is gradually reduced, one of the balls 49 is always matched with the spherical groove 48 under the action of the elastic force of the first spring 45, the adjusting block 46 moves towards the direction close to the transverse plate 37, the convex block 54 moves along with the movement of the adjusting block 46, the rack 55 is meshed with the fifth gear 56, in the process, the fifth gear 56 rotates to drive the second square column 57 to rotate, and then the lead screw 58 rotates, the lead screw 58 is connected with the L-shaped block 34 through threads, and moves towards the direction close to the fifth gear 56, until the ball 49 is separated from the spherical groove 48, the other ball 49 is matched with the spherical groove 48, the movable plate 43 moves continuously, the adjusting block 46 is driven to move towards the direction far away from the transverse plate 37, the rack 55 drives the fifth gear 56 to rotate, the screw rod 58 is driven to rotate reversely, the movable plate 43 moves to the other end of the transverse plate 37, the square block 63 is matched with the positioning frame 65 again under the action of the elastic force of the second spring 60, in the process, the moving path of the adjusting block 46 and the dispensing module 50 is arc-shaped, the dispensing of the heat-insulating plate adhered to the outer wall of the window can be completed, the screw rod 58 is limited, the fifth gear 56 is limited, the adjusting block 46 is limited, when the movable plate 43 moves towards the initial position again, the position of the adjusting block 46 is unchanged, the moving path is straight, the dispensing module 50 is matched to dispense glue on the surface of the heat-insulating plate, the overall practicability is increased.

As shown in fig. 7, a limiting groove 52 is formed on the surface of the transverse plate 37, a connecting rod 53 is slidably connected to the surface of the limiting groove 52, the connecting rod 53 is L-shaped, and both the connecting rods 53 are fixedly connected to the movable plate 43 to limit the movable plate 43, so as to ensure the stability of the movable plate 43 moving on the movable column 44.

As shown in fig. 6, 9, 10 and 11, the resetting device 11 includes a convex block 54, a rack 55, a fifth gear 56, a second square column 57, a screw rod 58, a mounting groove 59, a second spring 60, a pressing block 61, a cylinder 62, a square block 63, a cylinder 64, a positioning frame 65, a fixing seat 66 and a push rod 67, the convex block 54 is fixedly connected above the adjusting block 46, the rack 55 is fixedly connected to the surface of the convex block 54, the fifth gear 56 is engaged and connected to one end of the surface of the rack 55 away from the convex block 54, the fifth gear 56 is rotatably mounted with the L-shaped block 34, the second square column 57 is fixedly connected to the surface of the fifth gear 56, the screw rod 58 is slidably connected to the surface of the second square column 57, the mounting groove 59 is formed in the surface of the screw rod 58, the second spring 60 is fixedly connected to the bottom of the mounting groove 59, the pressing block 61 is fixedly connected to one end of the second spring 60 away from the bottom of the mounting groove 59, the surface of the pressing block 61 is fixedly connected with a cylinder 62, the cylinder 62 is slidably connected with a lead screw 58, the lead screw 58 is connected with the L-shaped block 34 through threads, one end, far away from the pressing block 61, of the cylinder 62 is fixedly connected with a square block 63, the surface of the L-shaped block 34 is fixedly connected with a cylinder 64, one end, far away from the L-shaped block 34, of the cylinder 64 is fixedly connected with a positioning frame 65, the positioning frame 65 is installed in a matched mode with the square block 63, the surface of the U-shaped plate 35 is fixedly connected with a fixing seat 66, the surface of the fixing seat 66 is fixedly connected with an ejector rod 67, when the adjusting block 46 slides to one end, far away from the fixing seat 66, the positioning frame 65 is matched with the square block 63 to limit the lead screw 58 and further limit the fifth gear 56 and further limit the rack 55 and the adjusting block 46, when the square block 63 is contacted with the ejector rod 67 again, along with the movement of the movable plate 43, the square block 63 is separated from the positioning frame 65, the second spring 60 is further compressed, the generated reaction force acts on the surface of the pressing block 61, when the movable plate 43 moves towards the direction away from the fixed seat 66 again, under the elastic action of the first spring 45, along with the movement of the movable plate 43, the adjusting block 46 moves towards the transverse plate 37 to be close to the transverse plate 37, the reset effect is achieved, the whole normal operation is ensured, and the rack 55 is not contacted with the vertical plate 2 all the time.

As shown in fig. 4, a sliding groove 68 is formed on the surface of the movable plate 43, and the movable block 42 is slidably connected to the sliding groove 68 to limit the position of the movable block 42, so as to ensure the stability of the transmission between the movable block 42 and the movable plate 43.

As shown in fig. 2 and 3, the surface of the movable column 44 is symmetrically and fixedly connected with a baffle 69 for protecting the movable column 44 from contacting the round ball 49, and facilitating the round ball 49 to be matched with the spherical groove 48.

As shown in fig. 12, a rotary plate 70 is rotatably connected to the bottom of the first material storage box 29, the rotary plate 70 is fixedly connected to the vertical column 26, a through hole 71 is formed in the surface of the rotary plate 70, the through hole 71 is in a V shape, and a screen 72 is fixedly connected to the surface of the through hole 71, so that the raw materials can slide down from the through hole and can be uniformly spread inside the stirring box 7.

The working principle of the intelligent construction device for the building heat-insulating wall body is as follows: the controller can be arranged on the upper surface of the bottom plate 1, the first servo motor 13, the second servo motor 39 and the glue dispensing module 50 are all connected with the controller through leads, the controller is precisely controlled by a computer program, the glue dispensing module 50 is similar to the structure of a glue applying mechanism of the existing glue applying machine, the working principle is the same, before glue applying, a plurality of adhesive manufacturing raw materials are arranged inside the stirring box 7, the first storage box 29 and the second storage box 30, wherein the adhesive manufacturing raw materials inside the first stirring box 7 and the second stirring box 7 are powdery, the controller controls the first servo motor 13 to be started to drive the first bevel gear 15 to rotate and further drive the second bevel gear 16 to rotate, the fixed column 17 rotates along with the rotation of the second bevel gear 16 and further drives the rotating column 18 to move up and down, and further drives the lifting plate 21 to move up and down, and the lifting plate 21 and the two limiting columns 10 slide relatively, the lifting plate 21 moves up and down to drive the stirring column 27 to move up and down, the first bevel gear 15 rotates to drive the first square column 19 to rotate, and further drive the lifting column 20 to rotate, and further drive the first gear 22, the second gear 23 and the third gear 24 to rotate, and further drive the two stirring columns 27 and the vertical columns 26 to rotate, and further drive the stirring rod 28 to stir the adhesive manufacturing raw material, the stirring column 27 can move up and down while rotating, and further ensure the stirring effect, the stirring column 27 rotates to drive the second storage box 30 to rotate, under the action of centrifugal force, the raw material inside the second storage box 30 is discharged from the discharge port 32, directly slides into the stirring box 7, or is blocked by the annular plate 33 and slides into the stirring box 7, and is scattered while rotating, so as to be rapidly and uniformly stirred and mixed with the raw material inside the stirring box 7, the raw material inside the first storage box 29 slides into the stirring box 7 through the gap of the mesh plate 72, along with the rotation of the turntable 70, the materials are uniformly scattered, the first material storage box 29 and the second material storage box 30 are filled with the same material, the stirring efficiency is improved, and the stirring effect is further ensured, in the initial state, the ejector rod 67 is in surface contact with the square block 63, the second spring 60 is in a further compressed state, the adjusting block 46 is in a position farthest away from the transverse plate 37, one of the balls 49 is matched with the ball-shaped groove 48, the second servo motor 39 is started to drive the chain wheel 40 to rotate, and further drive the movable block 42 to move, the movable plate 43 moves along with the movement of the movable block 42, and further drive the movable column 44 to move towards the other end of the transverse plate 37, in the moving process, the square block 63 is separated from the positioning frame 65 while the ejector rod 67 is separated from the square block 63, the included angle between one of the adjusting column 51 and the transverse plate 37 gradually decreases, under the action of the elastic force of the first spring 45, one of the round balls 49 is always matched with the spherical groove 48, the adjusting block 46 moves towards the direction close to the transverse plate 37, the convex block 54 moves along with the movement of the adjusting block 46, the rack 55 is meshed with the fifth gear 56, in the process, the fifth gear 56 rotates to drive the second square column 57 to rotate so as to drive the lead screw 58 to rotate, the lead screw 58 is connected with the L-shaped block 34 through threads and moves towards the direction close to the fifth gear 56 until the round ball 49 is separated from the spherical groove 48, the other round ball 49 is matched with the spherical groove 48, the movable plate 43 continues to move so as to drive the adjusting block 46 to move away from the transverse plate 37, the rack 55 drives the fifth gear 56 to rotate so as to drive the lead screw 58 to reversely rotate until the movable plate 43 moves to the other end of the transverse plate 37, the square block 63 is matched with the positioning frame 65 again under the elastic force of the second spring 60, in the process, the moving path of regulating block 46 and glue dispensing module 50 presents the arc, and then can accomplish the daub to pasting at the heated board of window outer wall, accomplish spacing to lead screw 58, and then accomplish spacing to fifth gear 56, and then accomplish spacing to regulating block 46, when fly leaf 43 moves towards initial position once more, regulating block 46's position is unchangeable, the moving path presents the straight line, cooperation glue dispensing module 50 carries out the daub to the surface of heated board, increase holistic practicality.

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

Claims

1. The intelligent construction process of the building heat-insulating wall body is completed by using an intelligent construction device of the building heat-insulating wall body in an auxiliary way, and is characterized by comprising the following steps:

1) base surface treatment

2) paying-off device

3) mounting starting bracket

4) dispensing adhesive

5) sticking and turning glass fiber net

6) sticking thermal insulation board

The insulation board is stuck by two methods, namely a strip sticking method and a point frame method, when the base surface flatness is good, the insulation board can be stuck by the strip sticking method, when the base surface flatness is poor, the insulation board can be stuck by the point frame method, an adhesive is smeared around the insulation board, plum blossom spots are smeared in the middle, the bonding area rate is at least not less than forty percent, the prepared adhesive is placed in an intelligent construction device of the building insulation wall, and the adhesive is smeared on the surface of the insulation board;

wherein, the intelligent construction device for the building thermal insulation wall in the steps 4) and 6) comprises a bottom plate (1), the upper surface of the bottom plate (1) is fixedly connected with a vertical plate (2), the surface of the vertical plate (2) is fixedly connected with a first connecting plate (3), a second connecting plate (4) and a third connecting plate (5), the number of the first connecting plates (3) is two, a connecting device (6) is fixedly connected between the two first connecting plates (3), the surface of the second connecting plate (4) far away from the vertical plate (2) is fixedly connected with a stirring box (7), the surface of the stirring box (7) is fixedly connected with a stirring device (8), a glue applying device (9) is arranged above the bottom plate (1), the glue applying device (9) is fixedly connected with the stirring device (8), and the lower surface of the third connecting plate (5) is symmetrically and fixedly connected with a limit column (10), two spacing post (10) all with agitating unit (8) sliding connection, the top of bottom plate (1) is provided with resetting means (11), resetting means (11) and connecting device (6) fixed connection.

2. The intelligent construction process of the building thermal insulation wall body according to claim 1, wherein the stirring device (8) comprises an installation box (12), a first servo motor (13), a circular groove (14), a first bevel gear (15), a second bevel gear (16), a fixed column (17), a rotating column (18), a first square column (19), a lifting column (20), a lifting plate (21), a first gear (22), a second gear (23), a third gear (24), a fourth gear (25), a vertical column (26), a stirring column (27), a stirring rod (28), a first storage box (29), a second storage box (30), a feeding hole (31), a discharging hole (32) and an annular plate (33), the surface of the stirring box (7) is fixedly connected with the installation box (12), the first servo motor (13) is installed inside the installation box (12), the output end of the first servo motor (13) is fixedly connected with a first bevel gear (15), a second bevel gear (16) is meshed and connected with the upper portion of the first bevel gear (15), a first square column (19) is fixedly connected to the surface of the first bevel gear (15), a fixing column (17) is fixedly connected to the surface of the second bevel gear (16), a rotating column (18) is installed on the surface of the fixing column (17) in a rotating mode, a circular groove (14) is formed in the surface of the installation box (12), a lifting column (20) is slidably connected to one end, far away from the first bevel gear (15), of the surface of the first square column (19), a lifting plate (21) is installed on one end, far away from the fixing column (17), of the rotating column (18), two limiting columns (10) are both slidably connected with the lifting plate (21), and a first gear (22) and a lifting plate (21) are rotatably installed on the lower surface of the lifting plate (21), The gear transmission mechanism comprises a second gear (23), a third gear (24) and four gears (25), wherein the number of the four gears (25) is two, the first gear (22) is meshed with the second gear (23) and connected with the third gear (24) in a meshed mode, the third gear (24) is meshed with the two fourth gears (25), one fourth gear (25) is meshed with the second gear (23) and connected with the fourth gear (25), a stirring column (27) is fixedly connected to the lower portion of the fourth gear (25), a plurality of stirring rods (28) are fixedly connected to the surface of the stirring column (27), a limiting column (10) is slidably connected with the stirring column (27), a vertical column (26) is fixedly connected to the lower portion of the third gear (24), a first storage box (29) is rotatably mounted on the surface of the vertical column (26), the two stirring columns (27) are rotatably connected with the first storage box (29), and a second storage box (30) is fixedly connected to the surface of the stirring column (27), feed inlet (31) and discharge gate (32) have all been seted up on the surface of first storage case (29) and second storage case (30), the top fixedly connected with annular plate (33) of agitator tank (7).

3. The intelligent construction process of the building heat-insulating wall body as claimed in claim 2, wherein a first transverse column is rotatably connected to the surface, far away from the fixing column (17), of the second bevel gear (16), a second transverse column is fixedly connected to one end, far away from the second bevel gear (16), of the first transverse column, and one end, far away from the first transverse column, of the second transverse column is fixedly connected with the installation box (12).

4. The intelligent construction process of the building thermal insulation wall body according to claim 1, wherein the connecting device (6) comprises two L-shaped blocks (34), two U-shaped plates (35) and two connecting blocks (36), the U-shaped plate (35) is fixedly connected between the two first connecting plates (3), the L-shaped blocks (34) are slidably connected to the surface of the U-shaped plate (35), the connecting blocks (36) are fixedly connected to the surface of the U-shaped plate (35), and the number of the connecting blocks (36) is two.

5. The intelligent construction process of the building thermal insulation wall body according to claim 4, wherein the glue applying device (9) comprises a transverse plate (37), a motor base (38), a second servo motor (39), a chain wheel (40), a chain (41), a movable block (42), a movable plate (43), a movable column (44), a first spring (45), an adjusting block (46), a connecting pipe (47), a spherical groove (48), a sphere (49), a glue dispensing module (50) and an adjusting column (51), the transverse plate (37) is fixedly connected between the two connecting blocks (36), the motor base (38) is fixedly connected to the surface of the U-shaped plate (35), the second servo motor (39) is fixedly connected to the surface of the motor base (38), the chain wheel (40) is symmetrically and rotatably installed on the surface of the transverse plate (37), and the two chain wheels (40) are driven by the chain (41), the surface mounting of chain (41) has movable block (42), the surperficial sliding connection of movable block (42) has fly leaf (43), the fixed surface of fly leaf (43) is connected with activity post (44), the surface cover of activity post (44) is equipped with first spring (45), the one end and fly leaf (43) fixed connection of first spring (45), the other end fixedly connected with regulating block (46) of first spring (45), regulating block (46) and activity post (44) sliding connection, the surperficial rotation of connecting block (36) is installed and is adjusted post (51), the one end fixedly connected with ball (49) of connecting block (36) are kept away from to regulation post (51), spherical groove (48) have been seted up to the surface symmetry of regulating block (46), ball (49) and spherical groove (48) cooperation installation, the top fixedly connected with connecting pipe (47) of regulating block (46), one end of the connecting pipe (47) far away from the adjusting block (46) is fixedly connected with the stirring box (7), and a dispensing module (50) is fixedly connected with the lower part of the adjusting block (46).

6. The intelligent construction process for the building heat-insulating wall body according to claim 5, wherein a limiting groove (52) is formed in the surface of the transverse plate (37), a connecting rod (53) is connected to the surface of the limiting groove (52) in a sliding mode, the connecting rod (53) is L-shaped, and the two connecting rods (53) are fixedly connected with the movable plate (43).

7. The intelligent construction process for the building thermal insulation wall according to claim 5, wherein the resetting device (11) comprises a convex block (54), a rack (55), a fifth gear (56), a second square column (57), a screw rod (58), a mounting groove (59), a second spring (60), a pressing block (61), a cylinder (62), a square block (63), a cylinder (64), a positioning frame (65), a fixing seat (66) and a push rod (67), the convex block (54) is fixedly connected above the adjusting block (46), the rack (55) is fixedly connected to the surface of the convex block (54), the fifth gear (56) is engaged and connected to one end of the surface of the rack (55) far away from the convex block (54), the fifth gear (56) is rotatably mounted with the L-shaped block (34), the second square column (57) is fixedly connected to the surface of the fifth gear (56), the surface of the second square column (57) is connected with a lead screw (58) in a sliding manner, the surface of the lead screw (58) is provided with a mounting groove (59), the bottom of the mounting groove (59) is fixedly connected with a second spring (60), one end, far away from the bottom of the mounting groove (59), of the second spring (60) is fixedly connected with a pressing block (61), the surface of the pressing block (61) is fixedly connected with a cylinder (62), the cylinder (62) is connected with the lead screw (58) in a sliding manner, the lead screw (58) is connected with the L-shaped block (34) in a threaded manner, one end, far away from the pressing block (61), of the cylinder (62) is fixedly connected with a square block (63), the surface of the L-shaped block (34) is fixedly connected with a cylinder (64), one end, far away from the L-shaped block (34), of the cylinder (64) is fixedly connected with a positioning frame (65), and the positioning frame (65) is installed with the square block (63) in a matching manner, the surface fixed connection of U template (35) has fixing base (66), the surface fixed connection of fixing base (66) has ejector pin (67).

8. The intelligent construction process for the building heat-insulating wall body according to claim 5, wherein a sliding groove (68) is formed in the surface of the movable plate (43), and the movable block (42) is in sliding connection with the sliding groove (68).

9. The intelligent construction process of the building thermal insulation wall body according to claim 5, wherein baffles (69) are symmetrically and fixedly connected to the surface of the movable column (44).

10. The intelligent construction process for the building heat-insulating wall body according to claim 2, wherein a rotary table (70) is rotatably connected to the bottom of the first storage box (29), the rotary table (70) is fixedly connected with the vertical column (26), a through hole (71) is formed in the surface of the rotary table (70), the through hole (71) is V-shaped, and a screen plate (72) is fixedly connected to the surface of the through hole (71).