CN112482594A

CN112482594A - Construction process for laying heat-insulation grid cloth of building external wall

Info

Publication number: CN112482594A
Application number: CN202011325718.XA
Authority: CN
Inventors: 侯金龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-03-12

Abstract

The invention relates to a construction process for laying heat-insulating grid cloth on an external wall of a building, which comprises a bottom plate, a support frame, a winding device and a laying device, wherein the support frame is arranged on the left side of the upper end of the bottom plate, the cross section of the support frame is of a U-shaped structure, the winding device is arranged on the left side inside the support frame, the laying device is arranged on the right side of the upper end of the bottom plate, and the winding device is connected with the upper end of. The invention can solve the problems that the existing heat-preservation gridding cloth can not be effectively tensioned when being laid and processed, so that the laying effect of the gridding cloth is poor, the laying is not smooth, and the gridding cloth is easy to fall off or warp after being used for a long time.

Description

Construction process for laying heat-insulation grid cloth of building external wall

Technical Field

The invention relates to the field of building construction processing, in particular to a construction process for laying heat-insulating grid cloth of an external wall of a building.

Background

The external wall heat-insulating mesh cloth is a novel alkali-resistant product which is formed by weaving alkali-resistant or medium-alkali glass fiber yarns as raw materials into glass fiber mesh cloth as a base material, coating acrylic acid copolymer liquid and drying; the external wall heat-insulating mesh fabric has the characteristics of stable structure, high strength, good alkali resistance, corrosion resistance, crack resistance and the like, has the best reinforcing effect, and is simple and easy to construct. It is mainly suitable for reinforcing and cracking the inner and outer surfaces of cement, gypsum, wall, building and other structures, and is a novel building material for external wall heat-insulating engineering.

At present, the existing external wall heat-insulation mesh cloth usually has the following defects in the laying process: 1. when the existing heat-preservation grid cloth is laid and processed, the grid cloth cannot be effectively tensioned, so that the laying effect of the grid cloth is poor, the laying is uneven, and the grid cloth is easy to fall off or warp after long-time use; 2. when the existing heat-preservation grid cloth is laid and processed, the existing heat-preservation grid cloth is usually manually laid, the labor intensity is high, the working efficiency is low, and the laying effect of the heat-preservation grid cloth is influenced.

Disclosure of Invention

Technical problem to be solved

The invention can solve the problems that the existing heat-preservation gridding cloth can not be effectively tensioned when being laid and processed, so that the laying effect of the gridding cloth is poor, the laying is not smooth, and the gridding cloth is easy to fall off or warp after being used for a long time.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the construction process for laying the heat-insulating grid cloth of the building external wall adopts the following processing equipment, the processing equipment comprises a bottom plate, a support frame, a winding device and a laying device, the support frame is installed on the left side of the upper end of the bottom plate, the cross section of the support frame is in a U-shaped structure, the winding device is installed on the left side inside the support frame, the laying device is installed on the right side of the upper end of the bottom plate, and the winding device is connected with the upper end of the laying device through a steel wire rope.

The laying device comprises a support frame, a laying mechanism, a guide mechanism and a material placing mechanism, wherein the support frame is symmetrically arranged at the upper end of the bottom plate, the support frame is of an L-shaped structure, a sliding groove is formed in the support frame, the laying mechanism is arranged between the support frames in a sliding fit mode, the upper end of the laying mechanism is connected with the winding device through a steel wire rope, the guide mechanism is arranged below the middle part of the laying mechanism, the outer side of the guide mechanism is connected with the support frame in a sliding fit mode, the guide mechanism is connected with the laying mechanism through a bearing, the material placing mechanism is arranged on the right side inside the support frame, heat-insulating grid cloth is wound on the material placing mechanism, the upper end of the heat-insulating grid cloth is positioned between the laying mechanism and the guide mechanism, when the laying mechanism moves upwards, the guide mechanism can, the laying mechanism can lay the heat-insulating grid cloth on the wall surface, the laying effect is good, and manual operation is reduced.

Lay mechanism including laying roller, dwang, rotating gear and rack plate, the support frame between be connected with the dwang through sliding fit's mode, the dwang is connected with the coiling mechanism through wire rope, mid-mounting has the roller of laying between the dwang, rotating gear is installed to the dwang rear end, rotating gear has the rack plate, the rack plate is installed inside the support frame, concrete during operation, when the dwang upward movement, rotating gear and rack plate do not mesh, when the dwang downstream, rotating gear and rack plate do not mesh, the rack plate drives through gear engagement's mode and lays the roller and rotate, lay the roller and then can lay heat preservation net cloth on the wall.

The laying roller comprises a rotating roller, a guide frame, a sealing plate, a piston rod, a telescopic spring and a spraying plate, wherein the rotating roller is arranged in the middle of the rotating rod, the outer side of the rotating roller is connected with the guide frame through a bearing, the guide frame is symmetrically arranged on a guide mechanism, the section of the guide frame is of a cam-shaped structure, counter bores are uniformly arranged on the rotating roller, the sealing plate is arranged on the inner side of each counter bore, the piston rod is arranged in the middle of the sealing plate, rollers are arranged on the inner side of the piston rod, the telescopic spring is arranged on the piston rod, the spraying plate is arranged between the outer sides of the piston rods, the spraying plate is positioned on the outer side of each counter bore, nozzles are uniformly arranged on the outer side surface of the spraying plate, when the rotating roller is driven by the rotating rod to rotate, the piston, the cement mortar filled in the rotating roller is sprayed out by the spraying plate, so that the laid grid cloth can be further bonded with the wall surface.

The construction process for laying the heat-insulating grid cloth of the building external wall comprises the following steps:

s1, cleaning the outer wall: manually cleaning and removing impurities on the surface of the outer wall to be paved;

s2, plastering and leveling: manually smearing a concrete layer on the wall surface cleaned in the step S1, and leveling and evenly smearing the concrete layer;

s3, laying a heat preservation grid: placing the laying device at the front end of the wall surface which is plastered in the step S2, driving the laying mechanism to move upwards to the highest position by the winding device through a steel wire rope, when the laying mechanism moves downwards, rotating the gear to be meshed with the rack plate, driving the laying roller to rotate by the rotating gear, laying the heat-insulating grid cloth on the wall surface by the laying roller, and spraying cement mortar on the spraying plate in the laying roller to the wall surface;

s4, smearing a protective layer: and manually and uniformly coating a concrete protective layer on the wall surface paved with the heat-insulating mesh cloth in the step S3.

Preferably, the coiling mechanism include coiling motor, axis of rotation and rolling wheel, the support frame inside install the coiling motor through the motor cabinet, the coiling motor is biax output motor, the axis of rotation is installed through the shaft coupling to every output shaft of coiling motor, the axis of rotation is connected with the support frame through the bearing, the rolling wheel is installed in the axis of rotation outside, the rolling wheel is connected with laying device through wire rope, specific during operation, the coiling motor drives the rolling wheel through the axis of rotation and rotates, the rolling wheel passes through wire rope and then can adjust laying device's position height.

Preferably, guiding mechanism include deflector, connecting seat and guide roll, the support frame between be connected with the deflector through sliding fit's mode, the connecting seat is installed to deflector upper end symmetry, the connecting seat is connected with laying mechanism through the bearing, the guide roll is installed through the round pin axle to the deflector front end, concrete during operation, the guide roll can be to heat preservation net cloth carry that leads, the deflector drives heat preservation net cloth and hugs closely with laying the roller all the time, does benefit to and lays the roller and lays net cloth on the wall.

Preferably, drop feed mechanism include blowing roller, tensioning roller, coupling spring and dancer roll, support frame middle part install the blowing roller through the bearing, the inside symmetry of support frame is provided with the sliding tray, be connected with the slider through sliding fit's mode in the sliding tray, install the tensioning roller through the bearing between the slider, install coupling spring between slider lower extreme and the spout, the dancer roll is installed through the bearing on the inside right side of support frame, specific during operation, coupling spring passes through the tensioning roller and can make net cloth be in the tensioning state all the time, do benefit to the follow-up laying of net cloth.

Preferably, the rack plate include the fixed plate, rotate seat and latch, the fixed plate install inside the support frame, evenly be provided with on the fixed plate and rotate the seat, rotate and install the latch through the round pin axle in the seat, the latch meshes with the rotating gear mutually, during concrete work, when the rotating gear upward movement, the rotating gear drives the latch and inwards rotates, rotating gear and latch do not mesh, when the rotating gear downward movement, the rotating gear meshes with the latch mutually.

Preferably, the cross section of the guide plate is of an arc structure, and rubber rotary rollers are uniformly arranged on the concave surface of the guide plate.

(III) advantageous effects

1. According to the construction process for laying the heat-insulating grid cloth on the outer wall of the building, the laying device adopts an automatic laying design mode, the heat-insulating grid cloth can be effectively and uniformly laid on the outer wall surface, the laying effect is good, the efficiency is high, manual operation is reduced, and the laying efficiency is improved;

2. according to the construction process for laying the heat-insulation grid cloth of the building outer wall, the laying roller can effectively convey the heat-insulation grid cloth in a rotating mode, and meanwhile cement mortar can be sprayed on the laid wall surface, so that the heat-insulation grid cloth can be effectively adhered to the wall, and the phenomenon that the grid cloth falls off is avoided;

3. according to the construction process for laying the heat-insulation grid cloth of the building outer wall, the material discharging mechanism can effectively tension the heat-insulation grid cloth, so that the grid cloth can be uniformly and flatly laid on the wall surface of the outer wall, the phenomenon that the grid cloth is not flat is avoided, and the phenomenon that the grid cloth falls off or warps after long-time use is prevented.

Drawings

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

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

FIG. 2 is a schematic view of a first cross-sectional structure of the present invention;

FIG. 3 is a schematic view of a second cross-sectional structure of the present invention;

FIG. 4 is a schematic cross-sectional view of the support frame and the discharging mechanism of the present invention;

FIG. 5 is a schematic cross-sectional view of the laying roller, rotating rod and guide mechanism of the present invention;

fig. 6 is a schematic sectional view of a rack plate according to the present invention.

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 6, the construction process for laying the heat-insulating grid cloth of the external wall of the building adopts the following processing equipment, the processing equipment comprises a bottom plate 1, a support frame 2, a winding device 3 and a laying device 4, the support frame 2 is installed on the left side of the upper end of the bottom plate 1, the cross section of the support frame 2 is of a U-shaped structure, the winding device 3 is installed on the left side inside the support frame 2, the laying device 4 is installed on the right side of the upper end of the bottom plate 1, and the winding device 3 is connected with the upper end of the laying device 4 through a steel wire rope.

Coiling mechanism 3 include coiling motor 31, axis of rotation 32 and

rolling wheel

33, 2 insides of support frame install coiling motor 31 through the motor cabinet, coiling motor 31 is biax output motor, every output shaft of coiling motor 31 installs axis of rotation 32 through the shaft coupling, axis of rotation 32 is connected with support frame 2 through the bearing, rolling wheel 33 is installed in the axis of rotation 32 outside, rolling wheel 33 is connected with laying device 4 through wire rope, during specific work, coiling motor 31 drives rolling wheel 33 through axis of rotation 32 and rotates, rolling wheel 33 passes through wire rope and then can highly adjust laying device 4's position.

The laying device 4 comprises a support frame 41, a laying mechanism 42, a guide mechanism 43 and a discharging mechanism 44, the support frame 41 is symmetrically arranged at the upper end of the bottom plate 1, the support frame 41 is of an L-shaped structure, a sliding groove is arranged on the support frame 41, the laying mechanism 42 is arranged between the support frames 41 in a sliding fit mode, the upper end of the laying mechanism 42 is connected with the winding device 3 through a steel wire rope, the guide mechanism 43 is arranged below the middle part of the laying mechanism 42, the outer side of the guide mechanism 43 is connected with the support frame 41 in a sliding fit mode, the guide mechanism 43 is connected with the laying mechanism 42 through a bearing, the discharging mechanism 44 is arranged at the right side inside the support frame 2, the discharging mechanism 44 is wound with heat-insulating mesh cloth, the upper end of the heat-insulating mesh cloth is positioned between the laying mechanism 42 and the guide mechanism 43, during specific work, when the laying mechanism 42 moves, when laying mechanism 42 moves down, laying mechanism 42 can lay the heat preservation net cloth to the wall, and it is effectual to lay, reduces manual operation.

Lay mechanism 42 including laying roller 421, dwang 422, rotating gear 423 and rack plate 424, support frame 41 between be connected with dwang 422 through sliding fit's mode, dwang 422 is connected with coiling mechanism 3 through wire rope, mid-mounting has laying roller 421 between the dwang 422, rotating gear 423 is installed to the dwang 422 rear end, rotating gear 423 meshes has rack plate 424, rack plate 424 is installed inside support frame 41, in concrete during operation, when dwang 422 upward movement, rotating gear 423 and rack plate 424 do not mesh, when dwang 422 downstream, rotating gear 423 and rack plate 424 do not mesh mutually, rack plate 424 drives through gear engagement's mode and lays roller 421 and rotate, lay roller 421 and then can lay the heat preservation net cloth on the wall.

The paving roller 421 comprises a rotating roller 4211, a guide frame 4212, a sealing plate 4213, a piston rod 4214, a telescopic spring 4215 and a spraying plate 4216, wherein the rotating roller 4211 is arranged in the middle of a rotating rod 422, the outer side of the rotating roller 4211 is connected with the guide frame 4212 through a bearing, the guide frame 4212 is symmetrically arranged on a guide mechanism 43, the section of the guide frame 4212 is of a cam-shaped structure, counter bores are uniformly arranged on the rotating roller 4211, the sealing plate 4213 is arranged on the inner side of each counter bore, the piston rod 4214 is arranged in the middle of the sealing plate 4213, rollers are arranged on the inner side of the piston rod 4214, the telescopic spring 4215 is arranged on the piston rod 4214, the spraying plate 4216 is arranged between the outer sides of the piston rods 4214, the spraying plate 4216 is positioned on the outer side of each counter bore, nozzles are uniformly arranged on the outer side of the spraying plate 4216, when the rotating roller 4211, when the piston rod 4214 moves to the obliquely upper part of the guide frame 4212, the guide frame 4212 drives the piston rod 4214 to be separated from the sealing plate 4213, cement mortar filled in the rotating roller 4211 is sprayed outwards through the spraying plate 4216, and the laid mesh cloth can be further bonded with the wall surface.

The rack plate 424 comprises a fixing plate 4241, a rotating seat 4242 and clamping teeth 4243, the fixing plate 4241 is installed inside the supporting frame 41, the rotating seat 4242 is uniformly arranged on the fixing plate 4241, the clamping teeth 4243 are installed in the rotating seat 4242 through a pin shaft, the clamping teeth 4243 are meshed with the rotating gear 423, during specific work, when the rotating gear 423 moves upwards, the rotating gear 423 drives the clamping teeth 4243 to rotate inwards, the rotating gear 423 is not meshed with the clamping teeth 4243, and when the rotating gear 423 moves downwards, the rotating gear 423 is meshed with the clamping teeth 4243.

Guiding mechanism 43 include deflector 431, connecting seat 432 and guide roll 433, support frame 41 between be connected with the deflector 431 through sliding fit's mode, connecting seat 432 is installed to deflector 431 upper end symmetry, connecting seat 432 is connected with laying mechanism 42 through the bearing, guide roll 433 is installed through the round pin axle to deflector 431 front end, deflector 431 cross-section be the arc structure, evenly be provided with rubber on the concave surface in deflector 431 and change the roller, during specific work, guide roll 433 can carry out the direction to heat preservation net cloth, deflector 431 drives heat preservation net cloth and hugs closely with laying roller 421 all the time, does benefit to and lays roller 421 and lay net cloth on the wall.

Drop feed mechanism 44 include blowing roller 441, tensioning roller 442, coupling spring 443 and

dancer

444, 2 middle parts of support frame install blowing roller 441 through the bearing, the inside symmetry of support frame 2 is provided with the sliding tray, be connected with the slider through sliding fit's mode in the sliding tray, install tensioning roller 442 through the bearing between the slider, install coupling spring 443 between slider lower extreme and the spout, adjusting roller 444 is installed through the bearing on 2 inside right sides of support frame, during specific work, coupling spring 443 can make net cloth be in the tensioning state all the time through tensioning roller 442, prevent that the phenomenon of laying the unevenness appears in net cloth, the phenomenon that drops or rises to stick up appears in net cloth after avoiding laying.

s3, laying a heat preservation grid: placing the laying device 4 close to the front end of the wall surface plastered in the step S2, driving the laying mechanism 42 to move upwards to the highest position by the winding device 3 through a steel wire rope, when the laying mechanism 42 moves downwards, engaging the rotating gear 423 with the rack plate 424, driving the laying roller 421 to rotate by the rotating gear 423, laying the roller 421 to lay the heat-preservation grid cloth on the wall surface, and spraying the cement mortar on the spraying plate 4216 in the laying roller 421 to the wall surface;

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 a construction technology is laid to building external wall insulation net cloth, this construction technology is laid to building external wall insulation net cloth adopts following processing equipment, and this processing equipment includes bottom plate (1), support frame (2), coiling mechanism (3) and laying device (4), its characterized in that: the winding device is characterized in that a support frame (2) is mounted on the left side of the upper end of the bottom plate (1), the section of the support frame (2) is of a U-shaped structure, a winding device (3) is mounted on the left side inside the support frame (2), a laying device (4) is mounted on the right side of the upper end of the bottom plate (1), and the winding device (3) is connected with the upper end of the laying device (4) through a steel wire rope; wherein:

the laying device (4) comprises a support frame (41), a laying mechanism (42), a guide mechanism (43) and a discharging mechanism (44), the upper end of the bottom plate (1) is symmetrically provided with support frames (41), the support frames (41) are of an L-shaped structure, sliding grooves are formed in the support frames (41), laying mechanisms (42) are arranged between the support frames (41) in a sliding fit mode, the upper ends of the laying mechanisms (42) are connected with the winding device (3) through steel wire ropes, guide mechanisms (43) are arranged below the middle parts of the laying mechanisms (42), the outer sides of the guide mechanisms (43) are connected with the support frames (41) in a sliding fit mode, the guide mechanisms (43) are connected with the laying mechanisms (42) through bearings, the discharging mechanisms (44) are arranged on the right side inside the support frames (2), heat-insulation grid cloth is wound on the discharging mechanisms (44), and the upper ends of the heat-insulation grid cloth are located between the laying mechanisms (42;

the laying mechanism (42) comprises laying rollers (421), a rotating rod (422), rotating gears (423) and rack plates (424), the supporting frames (41) are connected with the rotating rod (422) in a sliding fit mode, the rotating rod (422) is connected with a winding device (3) through a steel wire rope, the middle of the rotating rod (422) is provided with the laying rollers (421), the rear end of the rotating rod (422) is provided with the rotating gears (423), the rotating gears (423) are meshed with the rack plates (424), and the rack plates (424) are arranged inside the supporting frames (41);

the laying roller (421) comprises a rotating roller (4211), a guide frame (4212), a sealing plate (4213), a piston rod (4214), a telescopic spring (4215) and a spraying plate (4216), the spray coating device is characterized in that the rotating roller (4211) is installed in the middle of the rotating rod (422), the outer side of the rotating roller (4211) is connected with the guide frame (4212) through a bearing, the guide frame (4212) is symmetrically installed on the guide mechanism (43), the cross section of the guide frame (4212) is of a cam-shaped structure, counter bores are uniformly formed in the rotating roller (4211), a sealing plate (4213) is installed on the inner side of each counter bore, a piston rod (4214) is arranged in the middle of each sealing plate (4213), rollers are installed on the inner side of each piston rod (4214), a telescopic spring (4215) is arranged on each piston rod (4214), a spray coating plate (4216) is installed between the outer sides of the piston rods (4214), the spray coating plates (4216) are;

s3, laying a heat preservation grid: placing the laying device (4) close to the front end of the wall surface plastered in the step S2, driving the laying mechanism (42) to move upwards to the highest position by the winding device (3) through a steel wire rope, when the laying mechanism (42) moves downwards, the rotating gear (423) is meshed with the rack plate (424), the rotating gear (423) drives the laying roller (421) to rotate, the laying roller (421) can further lay the heat-preservation grid cloth on the wall surface, and meanwhile, the spraying plate (4216) in the laying roller (421) can spray cement mortar on the wall surface;

2. The construction process for laying the heat-insulating grid cloth on the external wall of the building as claimed in claim 1, is characterized in that: coiling mechanism (3) including coiling motor (31), axis of rotation (32) and rolling wheel (33), support frame (2) inside install coiling motor (31) through the motor cabinet, coiling motor (31) are biax output motor, axis of rotation (32) are installed through the shaft coupling to every output shaft of coiling motor (31), axis of rotation (32) are connected with support frame (2) through the bearing, rolling wheel (33) are installed in axis of rotation (32) outside, rolling wheel (33) are connected with laying device (4) through wire rope.

3. The construction process for laying the heat-insulating grid cloth on the external wall of the building as claimed in claim 1, is characterized in that: guiding mechanism (43) include deflector (431), connecting seat (432) and guide roll (433), support frame (41) between be connected with deflector (431) through sliding fit's mode, connecting seat (432) are installed to deflector (431) upper end symmetry, connecting seat (432) are connected with laying mechanism (42) through the bearing, guide roll (433) are installed through the round pin axle to deflector (431) front end.

4. The construction process for laying the heat-insulating grid cloth on the external wall of the building as claimed in claim 1, is characterized in that: drop feed mechanism (44) including blowing roller (441), tensioning roller (442), coupling spring (443) and regulating roller (444), support frame (2) middle part install blowing roller (441) through the bearing, support frame (2) inside symmetry is provided with the sliding tray, is connected with the slider through sliding fit's mode in the sliding tray, installs tensioning roller (442) through the bearing between the slider, installs coupling spring (443) between slider lower extreme and the spout, regulating roller (444) are installed through the bearing to support frame (2) inside right side.

5. The construction process for laying the heat-insulating grid cloth on the external wall of the building as claimed in claim 1, is characterized in that: the rack plate (424) comprises a fixing plate (4241), a rotating seat (4242) and clamping teeth (4243), the fixing plate (4241) is installed inside the supporting frame (41), the rotating seat (4242) is evenly arranged on the fixing plate (4241), the clamping teeth (4243) are installed in the rotating seat (4242) through pin shafts, and the clamping teeth (4243) are meshed with the rotating gear (423).

6. The construction process for laying the heat-insulating grid cloth on the external wall of the building as claimed in claim 3, wherein: the cross section of the guide plate (431) is of an arc structure, and rubber rotary rollers are uniformly arranged on the concave surface of the guide plate (431).