CN110409764B

CN110409764B - Laying device and method for glass fiber mesh cloth of external wall thermal insulation material

Info

Publication number: CN110409764B
Application number: CN201910698416.8A
Authority: CN
Inventors: 奉晶波
Original assignee: Fuyang City Zhuochuang Technology Service Productivity Promotion Center
Current assignee: Fuyang City Zhuochuang Technology Service Productivity Promotion Center
Priority date: 2019-07-31
Filing date: 2019-07-31
Publication date: 2020-11-13
Anticipated expiration: 2039-07-31
Also published as: CN110409764A

Abstract

The invention relates to a laying device for glass fiber mesh cloth of an external wall thermal insulation material, which comprises a bottom plate, a material conveying device and a laying device, wherein the material conveying device is arranged on the right side of the upper end of the bottom plate, the laying device is arranged on the left side of the material conveying device, and the laying device is arranged on the bottom plate. The invention can solve the problems that the bent gridding cloth can not be flattened in the laying engineering of the existing glass fiber gridding cloth, so that the paved gridding cloth is easy to wrinkle, and the laying effect is influenced.

Description

Laying device and method for glass fiber mesh cloth of external wall thermal insulation material

Technical Field

The invention relates to the field of laying of heat-insulating materials, in particular to a laying device and a laying method for glass fiber mesh cloth of an external wall heat-insulating material.

Background

The glass fiber mesh fabric takes a glass fiber woven fabric as a base material, and the coating is soaked by the high-molecular anti-emulsion, so that the glass fiber mesh fabric has good alkali resistance, flexibility and warp-weft high tensile resistance, can effectively avoid the whole surface tension shrinkage of a plastering layer and the cracking caused by external force, can be widely used for heat preservation, water resistance, fire resistance, crack resistance and the like of inner and outer walls of a building, and is simple and convenient to construct, simple and easy to implement.

At present, the existing thermal insulation material glass fiber mesh cloth generally has the following defects in the laying process: 1. the existing glass fiber mesh cloth cannot be flattened in the laying engineering, so that the laid mesh cloth is easy to wrinkle, and the laying effect is influenced; 2. when current laying device laid net cloth, can not be with the even mortar layer inside of impressing of net cloth, net cloth exposes on the mortar surface, influences the heat preservation effect of wall.

Disclosure of Invention

Technical problem to be solved

The invention can solve the problems that the bent gridding cloth can not be flattened in the laying engineering of the existing glass fiber gridding cloth, so that the paved gridding cloth is easy to wrinkle, the laying effect is influenced, and the heat preservation effect of the wall surface is influenced because the gridding cloth can not be uniformly pressed into the mortar layer when the existing laying device lays the gridding cloth, the gridding cloth is exposed on the outer surface of the mortar layer, 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 glass fiber mesh grid cloth of the external wall thermal insulation material comprises a bottom plate, a material conveying device and a laying device, wherein the material conveying device is installed on the right side of the upper end of the bottom plate, the laying device is arranged on the left side of the material conveying device, and the laying device is installed on the bottom plate.

Feeding device include mounting bracket, blowing frame, blowing roller and swager construct, bottom plate upper end left side install the mounting bracket, the mounting bracket is U type mechanism, the blowing frame is installed through the bearing to the mounting bracket is inside, blowing frame internally mounted has the blowing roller, the mounting bracket left side is provided with swager construct, swager constructs and installs on the bottom plate, concrete during operation, the net yardage roll that will wait to lay is installed on the blowing frame, inside net cloth gets into swager construct through the blowing roller, swager constructs and can compresses tightly the net cloth and flatten, prevent that the phenomenon that the fold, the roll-up from taking place for net cloth when laying.

Laying device include fixed plate, toper frame, support frame and lay the mechanism, the fixed plate install in the bottom plate upper end, the toper frame is installed on fixed plate upper end right side, the support frame is installed in fixed plate upper end left side, support frame and toper frame fastening connection, the mechanism of laying is installed to the support frame upper end, concrete during operation, the toper frame can be to net cloth guide transport, simultaneously can be further compress tightly net cloth, lay the mechanism and can carry net cloth, can lay net cloth in the mortar layer simultaneously.

Lay the mechanism include link, conveying roller, lay the roller, rotate motor, rotating gear and hold-in range, support frame upper end symmetry install the link, the upper end is installed through the bearing between the link and is laid the roller, the conveying roller is installed through the bearing to the lower extreme between the link, the rotating gear is all installed to the conveying roller and lay the roller front end, the last hold-in range of installing of rotating gear, the link front end is installed through the motor cabinet and is rotated the motor, the output shaft that rotates the motor is connected with the conveying roller, when concrete work, it drives net cloth through the conveying roller and carries forward to rotate the motor, it lays net cloth in polymer mortar to lay the roller.

As a preferred technical scheme of the invention, the material pressing mechanism comprises a material pressing plate, material pressing rollers, guide rollers and a material pressing frame, the material pressing plate is mounted at the upper end of the bottom plate, a groove is formed in the upper end of the material pressing plate, the guide rollers are symmetrically mounted in the groove through bearings, the material pressing frame is symmetrically mounted at the upper end of the material pressing plate, the material pressing rollers are mounted between the material pressing frames through the bearings, the material pressing rollers are located between the two guide rollers, when the material pressing mechanism works, the guide rollers play a role of guiding and conveying the mesh cloth, the material pressing rollers press the outer concave surfaces of the mesh cloth to prevent the mesh cloth from sinking inwards when the mesh cloth is used, and the material pressing frame can adjust the pressing force of the material.

As a preferred technical scheme of the invention, the material pressing frame comprises sliding frames, sliding blocks and telescopic springs, the sliding frames are symmetrically arranged on the material pressing plate, the sliding blocks are connected between the sliding frames in a sliding fit mode, the inner sides of the sliding blocks are connected with the material pressing roller through bearings, and the telescopic springs are arranged between the sliding frames and the sliding blocks.

As a preferred technical scheme of the invention, the laying roller is uniformly provided with the concave grooves, the laying plate is arranged in the concave grooves and is of an arc structure, the laying plate is connected with the laying roller through the pin shaft, the connecting springs are arranged between the inner side surfaces of the laying plate and the concave grooves, and when the laying roller rotates during specific work, the laying plate on the left side of the laying roller extrudes the grid cloth into the mortar layer, so that the laying uniformity of the grid cloth can be effectively ensured, and the phenomenon that the grid cloth falls off is avoided.

As a preferred technical scheme of the invention, the conical frame is of a conical structure, the upper end of the conical frame is provided with a connecting groove, the inside of the connecting groove is uniformly provided with the press roller through a bearing, and the upper end surface of the conical frame is uniformly provided with the sliding balls which can reduce the friction between the mesh cloth and the upper end of the conical frame.

As a preferable technical scheme of the invention, the conveying roller is uniformly provided with the blocking pieces along the circumferential direction, the blocking pieces are of an arc-shaped structure, when the conveying roller rotates, the blocking pieces correspond to the through holes in the gridding cloth, and the blocking pieces drive the gridding cloth to convey upwards.

In addition, the invention also provides a laying method of the outer wall thermal insulation material glass fiber mesh cloth laying device, which comprises the following steps:

s1: manually coating a layer of polymer mortar on the heat insulation plate, wherein the thickness of the mortar is not more than 3mm, the area of the coated mortar is slightly larger than the length and the width of the grid cloth, and the coating thickness of the mortar is uniform;

s2: the mesh cloth laying device is arranged on the existing lifting platform, mesh cloth to be laid is arranged on the material conveying device, and the end part of the mesh cloth penetrates through the inside of the material pressing mechanism and the inside of the laying device;

s3: firstly, the lifting platform in the step S2 drives the bottom plate to rise to the highest position, then the motor is rotated to drive the grid cloth to be conveyed forwards through the conveying roller, the lifting platform drives the bottom plate to gradually and slowly fall, the material pressing mechanism can evenly flatten the grid cloth to avoid the grid cloth from being folded, the grid cloth is paved in the polymer mortar through the paving roller, and the embedding depth of the grid cloth is 1 mm.

(III) advantageous effects

1. According to the laying device for the glass fiber mesh cloth of the heat-insulating material, the material pressing mechanism and the press roller can effectively compress and flatten the mesh cloth, so that the mesh cloth is in a flat state, the phenomena of creasing, sinking and the like of the mesh cloth in the laying process are avoided, and the laying effect of the mesh cloth is ensured;

2. according to the laying device for the glass fiber mesh cloth of the heat-insulating material, which is provided by the invention, the laying mechanism can effectively press the mesh cloth into the mortar layer, the laying effect is good, the mesh cloth can be prevented from being exposed outside the mortar layer, and the heat-insulating effect of the mesh cloth can be effectively ensured.

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 view of the structure of the present invention at B-B;

FIG. 3 is a schematic perspective view of the laying device of the present invention;

FIG. 4 is a schematic cross-sectional view of the laying roller of the present invention;

fig. 5 is a schematic view of the present invention in use.

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 glass fiber mesh grid cloth of the external wall thermal insulation material comprises a base plate 1, a material conveying device 2 and a laying device 3, wherein the material conveying device 2 is installed on the right side of the upper end of the base plate 1, the laying device 3 is arranged on the left side of the material conveying device 2, and the laying device 3 is installed on the base plate 1.

Conveying device 2 include mounting bracket 21, blowing frame 22, blowing roller 23 and

swager constructs

24, 1 upper end left side of bottom plate install mounting bracket 21, mounting bracket 21 is U type mechanism, blowing frame 22 is installed through the bearing to mounting bracket 21 inside, blowing frame 22 internally mounted has blowing roller 23, mounting bracket 21 left side is provided with swager constructs 24, swager constructs 24 and installs on bottom plate 1, during specific work, the net yardage roll that will wait to lay is installed on blowing frame 22, net cloth gets into swager 24 through blowing roller 23 inside, swager constructs 24 and can compresses tightly the net cloth and flatten, prevent that the phenomenon that the fold, roll up from taking place for net cloth when laying.

The material pressing mechanism 24 comprises a material pressing plate 241, material pressing rollers 242, guide rollers 243 and a material pressing frame 244, wherein the material pressing plate 241 is installed at the upper end of the bottom plate 1, a groove is formed in the upper end of the material pressing plate 241, the guide rollers 243 are symmetrically installed in the groove through bearings, the material pressing frame 244 is symmetrically installed at the upper end of the material pressing plate 241, the material pressing rollers 242 are installed between the material pressing frames 244 through bearings, the material pressing rollers 242 are located between the two guide rollers 243, when the material pressing mechanism works specifically, the guide rollers 243 play a role in guiding and conveying the gridding cloth, the material pressing rollers 242 press the outer concave surface of the gridding cloth, the gridding cloth is prevented from being inwards recessed when the material pressing mechanism is used, and the material pressing frame 244.

The material pressing frame 244 comprises a sliding frame 2441, sliding blocks 2442 and a telescopic spring 2443, the sliding frame 2441 is symmetrically installed on the material pressing plate 241, the sliding blocks 2442 are connected between the sliding frames 2441 in a sliding fit mode, the inner side of each sliding block 2442 is connected with the material pressing roller 242 through a bearing, and the telescopic spring 2443 is installed between the inner part of each sliding frame 2441 and the corresponding sliding block 2442.

Laying device 3 include fixed plate 31, toper frame 32, support frame 33 and lay mechanism 34, fixed plate 31 install in bottom plate 1 upper end, toper frame 32 is installed on fixed plate 31 upper end right side, support frame 33 is installed on fixed plate 31 upper end left side, support frame 33 and toper frame 32 fastening connection, lay mechanism 34 is installed to support frame 33 upper end, concrete during operation, toper frame 32 can lead to net cloth and carry, can further compress tightly net cloth simultaneously, lay mechanism 34 and can carry net cloth, can lay net cloth in the mortar layer simultaneously.

Conical frame 32 be the toper structure, conical frame 32 upper end is provided with the spread groove, the compression roller 321 is evenly installed through the bearing to the spread groove inside, evenly be provided with the slip ball on the conical frame 32 up end, the friction of net cloth and conical frame 32 upper end can be reduced to the slip ball.

The laying mechanism 34 comprises connecting frames 341, conveying rollers 342, laying rollers 343, a rotating motor 344, rotating gears 345 and synchronous belts 346, the connecting frames 341 are symmetrically installed at the upper ends of the supporting frames, the laying rollers 343 are installed at the upper ends of the connecting frames 341 through bearings, the conveying rollers 342 are installed at the lower ends of the connecting frames 341 through bearings, the rotating gears 345 are installed at the front ends of the conveying rollers 342 and the laying rollers 343, the synchronous belts 346 are installed on the rotating gears 345, the rotating motor 344 is installed at the front end of the connecting frame 341 through a motor base, an output shaft of the rotating motor 344 is connected with the conveying rollers 342, during specific work, the rotating motor 344 drives the gridding cloth to be conveyed forwards through the conveying rollers 342, and the laying rollers 343 lay the gridding cloth in the.

Lay the roller 343 on evenly be provided with concave groove, the inside board 3431 of laying that is provided with of concave groove, lay board 3431 and be the arc structure, lay board 3431 and be connected with laying roller 343 through the round pin axle, lay and install connecting spring 3432 between board 3431 medial surface and the concave groove, concrete during operation, when laying roller 343 rotates, lay the left board 3431 of laying roller 343 and extrude the net cloth to the mortar in situ, can guarantee the homogeneity that net cloth was laid effectively, avoid net cloth to take place the phenomenon that drops.

Conveying roller 342 on evenly be provided with the separation blade along its circumference, the separation blade is the arc structure, conveying roller 342 is when rotating, the separation blade is corresponding with the through-hole on the net cloth, the separation blade drives net cloth and upwards carries.

s2: the invention is arranged on the existing lifting platform, the mesh cloth to be laid is arranged on the material conveying device 2, and the end part of the mesh cloth passes through the inside of the material pressing mechanism 24 and the laying device 3;

s3: firstly, the lifting platform in step S2 drives the bottom plate 1 to ascend to the highest position, then the rotating motor 344 drives the mesh cloth to convey forward through the conveying roller 342, the lifting platform drives the bottom plate 1 to gradually descend slowly, the pressing mechanism 24 can evenly flatten the mesh cloth to avoid the mesh cloth from being wrinkled, the laying roller 343 lays the mesh cloth in the polymer mortar, and the embedding depth of the mesh cloth is 1 mm.

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 insulation material glass fiber net check cloth laying device, includes bottom plate (1), feeding device (2) and laying device (3), its characterized in that: the feeding device (2) is installed on the right side of the upper end of the bottom plate (1), the laying device (3) is arranged on the left side of the feeding device (2), and the laying device (3) is installed on the bottom plate (1); wherein:

the material conveying device (2) comprises an installation frame (21), a material placing frame (22), a material placing roller (23) and a material pressing mechanism (24), the installation frame (21) is installed on the left side of the upper end of the bottom plate (1), the installation frame (21) is a U-shaped mechanism, the material placing frame (22) is installed inside the installation frame (21) through a bearing, the material placing roller (23) is installed inside the material placing frame (22), the material pressing mechanism (24) is arranged on the left side of the installation frame (21), and the material pressing mechanism (24) is installed on the bottom plate (1);

the paving device (3) comprises a fixing plate (31), a conical frame (32), a supporting frame (33) and a paving mechanism (34), wherein the fixing plate (31) is installed at the upper end of the bottom plate (1), the conical frame (32) is installed on the right side of the upper end of the fixing plate (31), the supporting frame (33) is installed on the left side of the upper end of the fixing plate (31), the supporting frame (33) is fixedly connected with the conical frame (32), and the paving mechanism (34) is installed on the upper end of the supporting frame (33);

lay mechanism (34) including link (341), conveying roller (342), lay roller (343), rotate motor (344), running gear (345) and hold-in range (346), support frame upper end symmetry install link (341), upper end is installed through the bearing between link (341) and is laid roller (343), conveying roller (342) are installed through the bearing to the lower extreme between link (341), rotating gear (345) are all installed to conveying roller (342) and lay roller (343) front end, install hold-in range (346) on running gear (345), rotate motor (344) are installed through the motor cabinet to link (341) front end, the output shaft that rotates motor (344) is connected with conveying roller (342).

2. The laying device of the glass fiber mesh fabric as the external wall thermal insulation material of claim 1, which is characterized in that: the material pressing mechanism (24) comprises a material pressing plate (241), material pressing rollers (242), guide rollers (243) and a material pressing frame (244), the material pressing plate (241) is installed at the upper end of the bottom plate (1), a groove is formed in the upper end of the material pressing plate (241), the guide rollers (243) are symmetrically installed in the groove through bearings, the material pressing frames (244) are symmetrically installed at the upper end of the material pressing plate (241), the material pressing rollers (242) are installed between the material pressing frames (244) through bearings, and the material pressing rollers (242) are located between the two guide rollers (243).

3. The laying device of the glass fiber mesh fabric as the external wall thermal insulation material of claim 2, wherein: the material pressing frame (244) comprises a sliding frame (2441), a sliding block (2442) and a telescopic spring (2443), the sliding frame (2441) is symmetrically installed on the material pressing plate (241), the sliding block (2442) is connected between the sliding frames (2441) in a sliding fit mode, the inner side of the sliding block (2442) is connected with the material pressing roller (242) through a bearing, and the telescopic spring (2443) is installed between the inner part of the sliding frame (2441) and the sliding block (2442).

4. The laying device of the glass fiber mesh fabric as the external wall thermal insulation material of claim 1, which is characterized in that: lay roller (343) on evenly be provided with concave groove, the inside board (3431) of laying that is provided with of concave groove, lay board (3431) and be the arc structure, lay board (3431) and lay roller (343) through the round pin axle and be connected, lay and install between board (3431) medial surface and the concave groove and connect spring (3432).

5. The laying device of the glass fiber mesh fabric as the external wall thermal insulation material of claim 1, which is characterized in that: conical frame (32) be the toper structure, conical frame (32) upper end is provided with the spread groove, inside compression roller (321) of evenly installing through the bearing of spread groove, evenly be provided with the slip ball on conical frame (32) the up end.

6. The laying device of the glass fiber mesh fabric as the external wall thermal insulation material of claim 1, which is characterized in that: the conveying roller (342) is uniformly provided with blocking pieces along the circumferential direction, and the blocking pieces are of arc-shaped structures.

7. The laying method of the glass fiber mesh cloth laying device for the external wall thermal insulation material according to claim 1 is characterized by comprising the following steps:

s2: installing the external wall thermal insulation material glass fiber mesh cloth laying device on the existing lifting platform, installing mesh cloth to be laid on the material conveying device (2), and enabling the end part of the mesh cloth to penetrate through the inside of the material pressing mechanism (24) and the laying device (3);

s3: firstly, the lifting platform in the step S2 drives the bottom plate (1) to ascend to the highest position, then the rotating motor (344) drives the grid cloth to convey forwards through the conveying roller (342), the lifting platform drives the bottom plate (1) to gradually and slowly descend, the pressing mechanism (24) can evenly flatten the grid cloth to avoid the grid cloth from wrinkling, the paving roller (343) paves the grid cloth in the polymer mortar, and the embedding depth of the grid cloth is 1 mm.