CN110644633A

CN110644633A - Laying device for external wall heat-insulating layer for building

Info

Publication number: CN110644633A
Application number: CN201910918167.9A
Authority: CN
Inventors: 田华玲; 张瑞婷; 杨勇; 赵伟
Original assignee: Hubei Yixiang Construction Co Ltd
Current assignee: Hubei Yixiang Construction Co Ltd
Priority date: 2019-09-26
Filing date: 2019-09-26
Publication date: 2020-01-03
Anticipated expiration: 2039-09-26
Also published as: CN110644633B

Abstract

The invention relates to a laying device for an external wall heat-insulating layer for a building, which comprises a lifting frame, a laying device and a spraying device, wherein the laying device is installed at the upper end of the lifting frame, and the spraying device is installed at the upper end of the laying device. The invention can solve the problems that the heat-insulating layer is poor in laying effect and low in efficiency due to the fact that manual laying is usually carried out when heat-insulating grid cloth is laid, the existing grid cloth is poor in adhering effect after the laying, the laid grid cloth cannot be protected, the grid cloth is easy to expose, the grid cloth is wrinkled, hollowly bulged, warped and the like, the grid cloth is easy to fall off, the overall heat-insulating effect of an outer wall is affected and the like.

Description

Laying device for external wall heat-insulating layer for building

Technical Field

The invention relates to the field of external wall heat insulation, in particular to an external wall heat insulation layer laying device for a building.

Background

The external wall heat preservation is the most scientific and efficient heat preservation and energy saving technology, namely, the heat preservation material is arranged on the outer side of the main body enclosure structure, so that the purposes of heat preservation and heat insulation can be achieved, the main body structure of a building can be protected, and the service life of the building is prolonged. The external wall heat insulation has the effects of saving energy, protecting environment, saving resources, improving living comfort and the like.

At present, the existing external wall heat-insulating layer usually has the following defects in the laying process: 1. when the heat-insulating grid cloth is laid, the heat-insulating grid cloth is usually manually laid, so that the laying effect of the heat-insulating layer is poor and the efficiency is low; 2. the existing grid cloth is poor in adhesion effect after being laid, the laid grid cloth cannot be protected, the grid cloth is prone to being exposed, the grid cloth is prone to wrinkling, hollowing, edge warping and the like, the grid cloth is prone to falling off, and the overall heat preservation effect of the outer wall is affected.

Disclosure of Invention

Technical problem to be solved

The invention can solve the problems that the heat-insulating layer is poor in laying effect and low in efficiency due to the fact that manual laying is usually carried out when heat-insulating grid cloth is laid, the existing grid cloth is poor in adhering effect after the laying, the laid grid cloth cannot be protected, the grid cloth is easy to expose, the grid cloth is wrinkled, hollowly bulged, warped and the like, the grid cloth is easy to fall off, the overall heat-insulating effect of an outer wall is affected and the like.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the laying device for the external wall heat-insulating layer for the building comprises a lifting frame, a laying device and a spraying device, wherein the laying device is installed at the upper end of the lifting frame, and the spraying device is installed at the upper end of the laying device.

Laying device include box, drop feed mechanism, guide roll and swager, the inside cavity that is provided with of box, the inside drop feed mechanism that is provided with of cavity, box upper end left side is provided with the open slot that communicates with the cavity, the guide roll is installed in box upper end left side, the guide roll top is provided with the swager, the swager installs in box outside upper end, concrete during operation, the manual work is installed on drop feed mechanism with the heat preservation net yardage roll of waiting to lay, the guide roll can lead heat preservation net cloth, the swager can outwards stretch heat preservation net cloth, can lay heat preservation net cloth on the wall simultaneously.

Swager construct including rotating seat, link, coupling spring, nip rolls, pressing material branch chain and rotation motor, box upper end left side install and rotate the seat, rotate and install the link through round pin axle symmetry on the seat, install coupling spring between link left side and the box, install the nip rolls through the round pin axle between two links, the link rear side is installed through the motor cabinet and is rotated the motor, the output shaft that rotates the motor is connected with the nip rolls, evenly be provided with the recess on the nip rolls, recess internally mounted has the pressing material branch chain, when concrete work, it rotates to rotate the motor and drive the nip rolls, pressing material branch chain on the nip rolls drives the heat preservation net cloth on the guide roll and outwards stretches, then press the material branch chain again with the heat preservation net cloth in the basal layer on the wall body.

The spraying device include mixing box, the material pump, the mount, link and spraying pipe, box upper end right side install the mixing box, the mixing box left side is provided with the material pump with mixing box intercommunication, the material pump left side is provided with the mount, the mount is installed in the box left side, the link is installed to the mount upper end, link and material pump intercommunication, evenly install the spraying pipe on the link left end face, concrete during operation, the inorganic heat preservation mortar of material pump with mixing box inside is spout through the spraying pipe, the even adhesion of inorganic heat preservation mortar after the blowout is in the heat preservation net cloth outside, and then play the heat retaining effect to the wall body, can effectively prevent simultaneously that the heat preservation net cloth from taking place the phenomenon that drops.

As a preferred technical scheme of the invention, the discharging mechanism comprises a discharging roller, a guide roller, a tensioning roller and a telescopic spring, the discharging roller is arranged on the right side in the box body, sliding grooves are symmetrically formed in the middle in the box body, sliding blocks are connected in the sliding grooves in a sliding fit mode, the tensioning roller is arranged between the sliding blocks through a bearing, the telescopic spring is arranged between the lower end of each sliding block and the corresponding sliding groove, the guide roller is symmetrically arranged on the lower side in the box body, during specific work, a heat-preservation grid cloth roll to be laid is manually arranged on the discharging roller, the guide roller plays a role in guiding the heat-preservation grid cloth, and the tensioning roller can ensure that the heat-preservation grid cloth is always in a tightened state through the telescopic spring so as to prevent the grid cloth from.

As a preferred technical scheme of the invention, the spray pipe comprises a connecting pipe, a spray cover and an adjusting seat, the connecting pipe is uniformly arranged at the left end of the connecting frame, the spray cover is arranged at the left end of the connecting pipe, the adjusting seat is arranged in the middle of the upper end of the connecting pipe, and the adjusting seat is connected with the spray cover.

As a preferred technical scheme of the invention, the spraying cover comprises connecting rods, supporting rods and elastic cushions, the connecting rods are uniformly arranged on the outer sides of the connecting pipes, the supporting rods are arranged between the middle parts of the connecting rods and the connecting pipes through pin shafts, the right ends of the connecting rods are connected with the adjusting seats through the pin shafts, and the elastic cushions are arranged between the adjacent connecting rods.

As a preferred technical scheme of the invention, the adjusting seat comprises a rotating ring, a sliding block and a sliding groove, the sliding groove is symmetrically arranged on the connecting pipe, the sliding block is connected inside the sliding groove in a sliding fit mode, the rotating ring is arranged on the connecting pipe, the left end of the rotating ring is connected with the sliding block through a bearing, and the right end of the rotating ring is connected with the connecting pipe in a threaded fit mode.

As a preferred technical scheme of the invention, the pressing branched chain comprises a pressing plate and a return spring, the pressing plate is arranged in the groove, one end of the pressing plate is connected with the pressing roller through a pin shaft, and an expansion spring is arranged between the other end of the pressing plate and the groove.

As a preferred technical scheme of the invention, the pressure plate is of an arc-shaped structure, and the outer convex surface of the pressure plate is uniformly provided with friction bulges.

As a preferred technical scheme, the rotating seat is provided with a limiting plate, a trapezoidal through groove is formed in the limiting plate, and the limiting plate can limit the rotating angle of the connecting frame.

(III) advantageous effects

1. According to the laying device for the external wall heat-insulating layer for the building, provided by the invention, the heat-insulating grid cloth can be automatically adhered to the external wall body, the grid cloth is laid smoothly, the laying efficiency is high, the adhesion effect is good, and the phenomena of folding, hollowing, edge warping and the like can not occur;

2. according to the external wall heat-insulating layer laying device for the building, provided by the invention, the spraying device can spray the inorganic heat-insulating mortar on the outer side of the laid heat-insulating grid cloth, so that the heat-insulating grid cloth can be protected, the defects of falling off and the like of the heat-insulating grid cloth are avoided, and meanwhile, the inorganic heat-insulating mortar has excellent performances of heat insulation, fire prevention, freeze prevention and aging resistance, so that the overall heat-insulating performance of an external wall can be increased, and the living comfort is improved.

Drawings

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

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic cross-sectional view of the laying device and the spraying device of the present invention;

FIG. 3 is a top view of the present invention between the housing and the swager mechanism;

FIG. 4 is a schematic cross-sectional view of a spray tube according to the present invention;

fig. 5 is a state diagram of the present invention in use when in operation.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 5, the laying device for the heat-insulating layer of the external wall for the building comprises a lifting frame 1, a laying device 2 and a spraying device 3, wherein the laying device 2 is installed at the upper end of the lifting frame 1, and the spraying device 3 is installed at the upper end of the laying device 2.

Laying device 2 include box 21, drop feed mechanism 22, guide roller 23 and swager constructs 24, box 21 inside be provided with the cavity, the inside drop feed mechanism 22 that is provided with of cavity, box 21 upper end left side is provided with the open slot with the cavity intercommunication, guide roller 23 is installed in box 21 upper end left side, guide roller 23 top is provided with swager constructs 24, swager constructs 24 and installs in box 21 outside upper end, concrete during operation, the manual work is installed on drop feed mechanism 22 with the heat preservation net yardage roll of waiting to lay, guide roller 23 can lead to heat preservation net cloth, swager constructs 24 and can outwards stretches heat preservation net cloth, can lay heat preservation net cloth on the wall simultaneously.

Drop feed mechanism 22 include blowing roller 221, guide roll 222, tensioning roller 223 and expanding spring 224, the inside right side of box 21 install blowing roller 221, the inside middle part symmetry of box 21 is provided with the spout, the spout is inside to be connected with the slider through sliding fit's mode, install tensioning roller 223 through the bearing between the slider, install expanding spring 224 between slider lower extreme and the spout, the inside downside symmetry of box 21 is provided with guide roll 222, concrete during operation, the artifical heat preservation net yardage roll of waiting to lay is installed on blowing roller 221, guide roll 222 plays the effect to heat preservation net cloth direction, tensioning roller 223 can guarantee through expanding spring 224 that heat preservation net cloth is in the state of tightening all the time, prevent that net cloth from taking place to take off the material phenomenon.

The material pressing mechanism 24 comprises a rotating base 241, connecting frames 242, connecting springs 243, material pressing rollers 244, material pressing branched chains 245 and a rotating motor 246, the rotating base 241 is installed on the left side of the upper end of the box body 21, the connecting frames 242 are symmetrically installed on the rotating base 241 through pin shafts, the connecting springs 243 are installed between the left side of the connecting frames 242 and the box body 21, the material pressing rollers 244 are installed between the two connecting frames 242 through pin shafts, the rotating motor 246 is installed on the rear side of the connecting frames 242 through the motor base, an output shaft of the rotating motor 246 is connected with the material pressing rollers 244, grooves are evenly formed in the material pressing rollers 244, the material pressing branched chains 241 are installed in the grooves, limiting plates 2411 are installed on the rotating base, trapezoidal through grooves are formed in the limiting plates 2411, the limiting plates 2411 can limit the rotating angle of the connecting frames 242, when the material pressing mechanism works, the rotating motor, the pressing branched chain 245 on the pressing roller 244 drives the heat-insulating grid cloth on the material guide roller 23 to stretch outwards, then the pressing branched chain 245 presses the heat-insulating grid cloth into the base layer on the wall body, the adhesion effect is good, and the phenomena of folding, hollowing, edge warping and the like can not occur.

The pressing branched chain 245 comprises a pressing plate 2451 and a return spring 2452, the pressing plate 2451 is arranged in the groove, one end of the pressing plate 2451 is connected with the pressing roll 244 through a pin shaft, an expansion spring is arranged between the other end of the pressing plate 2451 and the groove, the pressing plate 2451 is of an arc-shaped structure, friction protrusions are uniformly arranged on the outer convex surface of the pressing plate 2451, when the pressing roll 244 rotates in specific work, the pressing plate 2451 on the pressing roll 244 stretches the heat-preservation gridding cloth, and the friction protrusions on the pressing plate 2451 can increase the friction between the pressing plate 2451 and the heat-preservation gridding cloth.

Spraying device 3 include mixing box 31, material pump 32, mount 33, link 34 and

spray tube

35, 21 upper end right sides of box install mixing box 31, mixing box 31 left side is provided with the material pump 32 with mixing box 31 intercommunication, material pump 32 left side is provided with mount 33, mount 33 is installed in the box 21 left side, link 34 is installed to mount 33 upper end, link 34 and material pump 32 intercommunication, evenly install spray tube 35 on the link 34 left end face, during concrete work, material pump 32 spouts the inside inorganic heat preservation mortar of mixing box 31 through spray tube 35, the even adhesion of the inorganic heat preservation mortar after the blowout is in the heat preservation net cloth outside, and then play the heat retaining effect to the wall body, can effectively prevent the phenomenon that the heat preservation net cloth from taking place to drop simultaneously.

Spray pipe 35 include connecting pipe 351, spraying cover 352 and regulation seat 353, connecting pipe 351 is evenly installed to the link 34 left end, spraying cover 352 is installed to connecting pipe 351 left end, connecting pipe 351 upper end mid-mounting has regulation seat 353, it is connected with spraying cover 352 to adjust seat 353, concrete during operation, inorganic heat preservation mortar is spout through connecting pipe 351, it can adjust spraying cover 352's opening size to adjust seat 353, and then can realize carrying out the function of adjusting the whitewashing area, inorganic heat preservation mortar has the heat preservation and separates heat, the fire prevention is frostproofing simultaneously, ageing-resistant excellent performance, and then can increase the whole thermal insulation performance of outer wall, the travelling comfort of living has been improved.

The spraying cover 352 comprises a connecting rod 3521, a supporting rod 3522 and an elastic pad 3523, the connecting rod 3521 is uniformly arranged on the outer side of the connecting pipe 351, the supporting rod 3522 is arranged between the middle of the connecting rod 3521 and the connecting pipe 351 through a pin shaft, the right end of the connecting rod 3521 is connected with the adjusting seat 353 through a pin shaft, and the elastic pad 3523 is arranged between the adjacent connecting rods 3521.

The adjusting seat 353 comprises a rotating ring 3531, a sliding block 3532 and a sliding groove 3533, the connecting pipe 351 is symmetrically provided with the sliding groove 3533, the sliding groove 3533 is connected with the sliding block 3532 in a sliding fit mode, the connecting pipe 351 is provided with a rotating ring 3531, the left end of the rotating ring 3531 is connected with the sliding block 3532 through a bearing, the right end of the rotating ring 3531 is connected with the connecting pipe 351 in a thread fit mode, during specific work, the rotating ring 3531 is adjusted manually, the rotating ring 3531 moves left and right in a thread fit mode, and the rotating ring 3531 can drive the connecting rod 3521 to translate, so that the size of an opening of the spraying cover 352 can be adjusted.

The operation steps of the invention during specific work are as follows:

the first step is as follows: manually coating a concrete base layer on the surface of the outer wall;

the second step is that: firstly, the invention is moved to the surface of an outer wall, a lifting frame 1 drives a laying device 2 and a spraying device 3 to rise to the highest position, then, a thermal insulation grid cloth roll to be laid is manually arranged on a discharging roller 221, the thermal insulation grid cloth sequentially passes through a guide roller 222, a tensioning roller 223 and a guide roller 23, and the tensioning roller 223 can ensure that the thermal insulation grid cloth is always in a tight state through a telescopic spring 224;

the third step: starting a rotating motor 246, driving a material pressing roller 244 to rotate by the rotating motor 246, driving the heat-insulating mesh cloth on the material guiding roller 23 to stretch outwards by a material pressing branched chain 245 on the material pressing roller 244, and then pressing the heat-insulating mesh cloth into the base layer on the wall body by the material pressing branched chain 245;

the fourth step: the material pump 32 starts to work, the material pump 32 sprays the inorganic heat-preservation mortar in the mixing box 31 through the spraying pipe 35, and the sprayed inorganic heat-preservation mortar is uniformly adhered to the outer side of the heat-preservation grid cloth, so that the heat preservation effect on the wall body is achieved, and meanwhile, the phenomenon that the heat-preservation grid cloth falls off can be effectively prevented.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an outer wall heat preservation layer laying device for building, includes crane (1), laying device (2) and spraying device (3), its characterized in that: the upper end of the lifting frame (1) is provided with a laying device (2), and the upper end of the laying device (2) is provided with a spraying device (3); wherein:

the paving device (2) comprises a box body (21), a discharging mechanism (22), a material guide roller (23) and a material pressing mechanism (24), wherein a cavity is formed in the box body (21), the discharging mechanism (22) is arranged in the cavity, an open slot communicated with the cavity is formed in the left side of the upper end of the box body (21), the material guide roller (23) is installed on the left side of the upper end of the box body (21), the material pressing mechanism (24) is arranged above the material guide roller (23), and the material pressing mechanism (24) is installed at the upper end of the outer side of the box body (21);

the material pressing mechanism (24) comprises a rotating seat (241), connecting frames (242), connecting springs (243), material pressing rollers (244), material pressing branched chains (245) and a rotating motor (246), wherein the rotating seat (241) is installed on the left side of the upper end of the box body (21), the connecting frames (242) are symmetrically installed on the rotating seat (241) through pin shafts, the connecting springs (243) are installed between the left side of the connecting frames (242) and the box body (21), the material pressing rollers (244) are installed between the two connecting frames (242) through pin shafts, the rotating motor (246) is installed on the rear side of the connecting frames (242) through a motor base, an output shaft of the rotating motor (246) is connected with the material pressing rollers (244), grooves are uniformly formed in the material pressing rollers (244), and the material pressing branched chains (245) are installed in the;

the spraying device (3) comprises a mixing box (31), a material pump (32), a fixing frame (33), a connecting frame (34) and spraying pipes (35), wherein the mixing box (31) is installed on the right side of the upper end of the box body (21), the material pump (32) communicated with the mixing box (31) is arranged on the left side of the mixing box (31), the fixing frame (33) is arranged on the left side of the material pump (32), the fixing frame (33) is installed on the left side of the box body (21), the connecting frame (34) is installed on the upper end of the fixing frame (33), the connecting frame (34) is communicated with the material pump (32), and the spraying pipes (35) are evenly installed on the left end face of the connecting frame.

2. The laying device of the external wall heat-insulating layer for the building of claim 1, which is characterized in that: drop feed mechanism (22) including blowing roller (221), guide roll (222), tensioning roller (223) and expanding spring (224), the inside right side of box (21) install blowing roller (221), the inside middle part symmetry of box (21) is provided with the spout, the spout is inside to be connected with the slider through sliding fit's mode, install tensioning roller (223) through the bearing between the slider, install expanding spring (224) between slider lower extreme and the spout, the inside downside symmetry of box (21) is provided with guide roll (222).

3. The laying device of the external wall heat-insulating layer for the building of claim 1, which is characterized in that: spray tube (35) include connecting pipe (351), spraying cover (352) and adjust seat (353), link (34) left end evenly install connecting pipe (351), spraying cover (352) are installed to connecting pipe (351) left end, connecting pipe (351) upper end mid-mounting has adjusts seat (353), adjusts seat (353) and is connected with spraying cover (352).

4. The laying device of the external wall heat-insulating layer for the building of claim 3, which is characterized in that: spraying cover (352) include connecting rod (3521), branch (3522) and cushion (3523), connecting pipe (351) outside evenly be provided with connecting rod (3521), install branch (3522) through the round pin axle between connecting rod (3521) middle part and connecting pipe (351), connecting rod (3521) right-hand member is connected with regulation seat (353) through the round pin axle, install cushion (3523) between adjacent connecting rod (3521).

5. The laying device of the external wall heat-insulating layer for the building of claim 3, which is characterized in that: adjusting seat (353) include rotating ring (3531), sliding block (3532) and sliding tray (3533), connecting pipe (351) on the symmetry be provided with sliding tray (3533), inside sliding tray (3533) is connected with sliding block (3532) through sliding fit's mode, be provided with rotating ring (3531) on connecting pipe (351), rotating ring (3531) left end is connected with sliding block (3532) through the bearing, rotating ring (3531) right-hand member is connected with connecting pipe (351) through screw-thread fit's mode.

6. The laying device of the external wall heat-insulating layer for the building of claim 1, which is characterized in that: the material pressing branched chain (245) comprises a material pressing plate (2451) and a return spring (2452), the material pressing plate (2451) is arranged in the groove, one end of the material pressing plate (2451) is connected with the material pressing roller (244) through a pin shaft, and a telescopic spring is arranged between the other end of the material pressing plate (2451) and the groove.

7. The laying device of the external wall heat-insulating layer for the building of claim 6, which is characterized in that: the material pressing plate (2451) is of an arc-shaped structure, and friction bulges are uniformly arranged on the outer convex surface of the material pressing plate (2451).

8. The laying device of the external wall heat-insulating layer for the building of claim 1, which is characterized in that: the rotating seat (241) is provided with a limiting plate (2411), and a trapezoidal through groove is formed in the limiting plate (2411).