CN215367896U - Turn over packet of net of taking angle bead and draw reinforcing net integral type component to one side - Google Patents

Abstract

The application relates to a turning-over net and diagonal-pulling reinforcing net integrated component with corner protectors, which is arranged at a corner provided with a window on a heat insulation structure and comprises an inner corner arranged at the internal corner of the window and two outer corners arranged at one end of the inner corner protector; the inner angle and the two outer angles are vertical to each other in pairs, the two inner angles are fixedly connected at the end parts, the fixedly connected parts of the two inner angles are fixedly connected with the end parts of the outer angles, a side edge turning net is arranged on the inner side of a right angle formed by the outer angles and the inner angles, and a bottom surface turning net extends from one side, far away from the outer angle, of the side edge turning net; and a reinforcing net is arranged on the outer side of the right angle formed by the two outer protective angles. This application has the effect that reduces insulation construction window department construction degree of difficulty.

Description

Turn over packet of net of taking angle bead and draw reinforcing net integral type component to one side

Technical Field

The application relates to the field of external wall external insulation technology, in particular to a turning-over and wrapping net diagonal-pulling reinforcing net integrated component with corner protectors.

Background

The external wall heat preservation is to attach heat insulation materials such as flame-retardant molded polystyrene foam boards (EPS) or extruded sheets (XPS) and the like to an external wall body so as to achieve the purpose of heat preservation and heat insulation and achieve the effects of energy conservation and emission reduction.

In the related field, when a building is subjected to heat preservation construction, heat preservation plates are required to be densely paved on the surface of an outer wall of the building to form a heat preservation structure, vacant positions are required to be reserved for original windows of the building, corners of the heat preservation plates at the edges of the vacant positions are cut to form windows which are as large as the windows, then workers manually cut glass fiber nets according to experience, and the glass fiber nets are wrapped on the edges of the heat preservation plates at the four corners of doors and windows. And an inclined-pulling reinforcing net is required to be laid between the two mutually vertical turning nets positioned on the outer side of the heat-insulation plate. And finally, pressing and arranging corner protectors at the male and female corners of the window respectively. After the heat preservation board is paved, workers need to press the internal and external corners with the corner protectors on the windows to be finished by using cement mortar.

The construction process is complex in procedure, on one hand, the glass fiber net needs to be cut on site, the glass fiber net is wasted, the cutting is not standard, the operation is complex, on the other hand, the aesthetic property and the durability of the heat insulation project have high technical requirements on workers, and the project quality is difficult to unify.

SUMMERY OF THE UTILITY MODEL

In order to reduce the construction degree of difficulty of insulation construction window department, this application provides a turn over purse net of angle bead and draws reinforcing net integral type component to one side.

The application provides a turn over purse net of angle bead and draw reinforcing net integral type component to one side adopts following technical scheme:

a turned-over net and obliquely-pulled reinforced net integrated component with corner protectors is arranged at a corner of a heat insulation structure provided with a window and comprises an inner corner arranged at the internal corner of the window and two outer corners arranged at one ends of the inner corners, the inner corner and the two outer corners are perpendicular in pairs, the two inner corners are fixedly connected at the end parts, the fixedly connected parts of the two inner corners are fixedly connected with the end parts of the outer corners, a side turned-over net is arranged on the inner side of a right angle formed by the outer corners and the inner corners, and a bottom turned-over net extends from one side, far away from the outer corners, of the side turned-over net; and a reinforcing net is arranged on the outer side of the right angle formed by the two outer protective angles.

Through adopting above-mentioned technical scheme, when the wrapping net that turns over of taking the angle bead draws reinforcing net integral type component to one side and lays in insulation board window edge, the internal corner pastes with the reentrant corner of window and pastes, the external corner of external corner and window pastes and pastes, thereby the integral type component has wrapped up and has protected the reentrant corner of window, the construction degree of difficulty has been reduced on the one hand, on the other hand has improved construction quality, make the cement mortar of knife coating afterwards more evenly level, the stability and the aesthetic property of insulation wall structure window department have been improved, the condition that insulation structure ftractures has been reduced takes place.

Optionally, the section of the inner corner protector perpendicular to the length direction is L-shaped, and the outer side of the L-shaped is attached to the internal corner of the window.

Optionally, the section of the outer protective angle perpendicular to the length direction is L-shaped, and the inner side of the L-shaped is buckled at the outer corner of the window.

Through adopting above-mentioned technical scheme, interior, outer corner all adopt the cross-section to be the structure of L type to make interior, outer corner paste with the window cloudy, external corner is inseparabler respectively and lean on, improved cement mortar coated planarization. The inner and outer protective corners are mutually clamped with the inner and outer corners of the window respectively, so that the stability of fixing the integrated component and the insulation board is improved.

Optionally, the distance from the side of the side edge turning net far away from the outer corner to the surface of the outer corner provided with the reinforcing net is equal to the thickness of the heat preservation plate.

Through adopting above-mentioned technical scheme, the side turns over the lapping net and attaches on the lateral wall of window to the staff can be on the lateral wall of window even daub cement mortar, and then has improved the planarization of polymer mortar blade coating.

Optionally, the distance between one side of the bottom surface turning and wrapping net far away from the side turning and wrapping net and the side turning and wrapping net is 100-150 mm.

By adopting the technical scheme, the width of the bottom surface turning-over net is limited, so that the stability of the bottom surface turning-over net fixed with the heat-insulation plate is improved, and the cracking condition of the window of the heat-insulation plate is reduced.

Optionally, the distance from one side of the reinforcing net far away from the outer corner protector to the side edge turning-over net is equal to the distance from one side of the bottom turning-over net far away from the side edge turning-over net to the side edge turning-over net.

Through adopting above-mentioned technical scheme, the attached width of reinforcing net equals with the attached width that the bottom surface turned over the package net to make the whole atress more even behind the attached insulation board surface of integral type component, improved the stability that later stage cement mortar is attached on the insulation board.

Optionally, a plurality of through holes are uniformly formed on the surface of the inner corner protector and/or the outer corner protector.

Through adopting above-mentioned technical scheme, the quantity of raw materials has been reduced on the one hand in the seting up of through-hole, the cost is reduced, and on the other hand, when the staff pastes interior corner protector and/or outer corner protector angle window correspondence reentrant corner or external corner and lean on, unnecessary cement mortar can discharge through the through-hole to interior, outer corner protector can with the window cloudy, the tighter laminating of external corner, improved the package net that turns over of taking the corner protector draws reinforcing net integral type component to one side levelness and the durability of heat preservation board window department processing.

Optionally, the aperture of the through hole is 2-3 mm.

Through the aperture of injecing the through-hole, under the condition that does not influence inner corner protector or outer corner protector bulk strength, make things convenient for cement mortar to circulate in the both sides of corner protector through the slip casting hole to the convenience of construction has been improved. When the aperture of the through hole is too large, the structural strength of the inner corner protector or the outer corner protector is reduced, and when the space of the through hole is smaller than 2mm, cement mortar is not easy to flow in the through hole, so that the attaching tightness of the inner corner protector or the outer corner protector is influenced.

Optionally, the length of the outer protective angle is half of the length of the side of the window formed on the heat insulation board.

Through adopting above-mentioned technical scheme, every window can be wrapped up the protection by four integral type components completely to the convenience of construction has been improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the flatness and the stability of the window after the insulation board is constructed are improved; and through prefabricated integral type component for the construction standard of every window is more unified, has improved construction quality.

2. The integral type design of interior angle and two outer angle guards has improved the bulk strength of integral type component to reduced the condition that insulation construction later stage fracture drops, including glass fiber net is fixed, on the outer angle guard, make overall structure formula structure as an organic whole, thereby do not need the staff additionally to tailor glass fiber net, reduced the construction degree of difficulty, improve the efficiency of construction.

Drawings

FIG. 1 is a schematic overall structure diagram of a turning-over net and diagonal-pulling reinforcing net integrated component with corner protectors according to an embodiment of the application;

FIG. 2 is a schematic front view of a wrap-around net-diagonal reinforcing net integrated member with a corner protector attached to a window of a thermal insulation board;

fig. 3 is a schematic view of a back structure of a wrapping net-diagonal reinforcing net integrated member with a corner protector attached to a window of a thermal insulation board.

Description of reference numerals: 1. a thermal insulation board; 11. a window; 2. an inner corner protector; 21. a through hole; 3. an outer protective angle; 4. turning over the packet net at the side edge; 5. a bottom surface turning net; 6. a reinforcing mesh.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a turning-over and wrapping net diagonal-pulling reinforcing net integrated component with corner protectors. Referring to fig. 1 and 2, in the construction of the heat preservation wall, theheat preservation plate 1 is used for flowing out of a vacancy at the original window of a building and cutting theheat preservation plate 1 at the edge of the vacancy, so that awindow 11 matched with the original window is formed. The utility model provides a take purse seine of angle bead to draw reinforcing net integral type component to one side sets up inwindow 11, including setting up theinner corner 2 in the 11 internal corner departments of window, sets up twoouter corner 3 in 2 one ends of inner corner, all is provided with oninner corner 2 and theouter corner 3 to be used for pasting the glass fiber net that leans on each other with 1 different lateral walls of heated board.

As shown in fig. 1, theinner corner 2 is elongated, the cross section of theinner corner 2 in the longitudinal direction is L-shaped, and the outer right angle of the L-shape abuts against the inner corner of thewindow 11. The structure of the outerprotective angle 3 is similar to that of the innerprotective angle 2, the outerprotective angle 3 is buckled on the outer corner of thewindow 11 facing the outside of the building, the two outerprotective angles 3 are fixedly connected at the end part vertically, one end of the innerprotective angle 2 facing the outerprotective angle 3 is fixedly connected with the connecting part of the two outerprotective angles 3, and the length direction of the outerprotective angle 3 is perpendicular to the length direction of the two innerprotective angles 2 at the same time. Specifically, can mould plastics through integrated into one piece betweenouter corner 3 and twoinner corners 2 and form, also can be through bonding, mode such as butt fusion is fixed (in this application other embodiment,inner corner 2 can adopt detachable fixed mode with twoouter corners 3, specifically can be through modes such as fix with screw, tenon fourth of the twelve earthly branches grafting, be the prior art that should know of field personnel above, no longer describe herein.

As shown in fig. 1, a plurality of through-holes 21 have all been seted up oninner corner 2 and theouter corner 3, takeinner corner 2 as an example, through-hole 21 evenly distributed is run through on the surface ofinner corner 2 and with the both sides ofinner corner 2, the setups of through-hole 21, the quantity of raw materials has been reduced on the one hand, the cost is reduced, on the other hand, when the staff pastesinner corner 2 and/orouter corner 3 towindow 11 corresponding reentrant corner or external corner and lean on, unnecessary cement mortar can discharge through-hole 21, thereby interior, the outer corner can withwindow 11 reentrant, the tighter laminating in external corner, the planarization and the durability of the package net oblique-pulling reinforcing net integral type component that turns over of taking the corner to handleinsulation board 1window 11 have been improved. The diameter of the throughhole 21 is 2-3mm, so that cement mortar can flow in the grouting hole conveniently under the condition that the overall strength of theinner corner protector 2 or theouter corner protector 3 is not influenced, and the convenience of construction is improved.

The length ofinner corner 2 equals the thickness of heatedboard 1, and the length ofouter corner 3 equals half ofcorresponding window 11 length of side to awindow 11 can be protected by four integral type component parcels.

According to the difference of the installation position, the glass fiber net comprises two side edge turning nets 4 which are arranged on the inner side of a right angle formed by theouter corner protector 3 and theinner corner protector 2, and therefore the side edge turning nets 4 are arrangedTwo side edge turning nets 4 are arranged and correspond to the two outerprotective corners 3 one by one. One side of the side edge turning net 4, which is far away from the outerprotective angles 3, is provided with a bottom surface turning net 5, and the outer side of a right angle formed by the two outerprotective angles 3 is provided with a reinforcingnet 6. The glass fiber net is alkali-resistant glass fiber net with the specification of 160g/cm²。

As shown in fig. 1 and 2, the side-edge-wrapped net 4 is a rectangle as a whole, and two adjacent side edges of the side-edge-wrapped net 4 are fixedly connected with theouter corner 3 and theinner corner 2, respectively. The plane of the side edge turning net 4 is perpendicular to the plane of the reinforcing net 6, and the distance from the side edge turning net 4 far away from the outerprotective angle 3 to the reinforcingnet 6 is equal to the thickness of theheat insulation board 1, so that the side edge turning net 4 can be attached to the side wall of thewindow 11 formed in theheat insulation board 1. One side of the side edge turning net 4, which is far away from theinner corner 2, is flush with one end of theouter corner 3, which is far away from theinner corner 2.

As shown in fig. 1 and 3, further, the bottom turning-overnet 5 is an extension of the side turning-over net 4 in a direction away from theouter corner protector 3, that is, the bottom turning-overnet 5 and the side turning-over net 4 are integrally arranged, and after the bottom turning-overnet 5 and the side turning-over net 4 are completely laid and attached, a plane where the bottom turning-overnet 5 is located is perpendicular to a plane where the side turning-over net 4 is located. D is the distance from the side surface of the bottom turning net 5 far away from the side turning net 4 to the side turning net 4₁，d₁The value range of (d) is 180-250mm, and as a preferable scheme, d in the embodiment₁And may be selected to be 200 mm.

The whole reinforcing net 6 is L-shaped, and two mutually vertical side edges at the right-angle inner side of the reinforcing net 6 are fixedly connected with the two outerprotective corners 3 respectively. After the paving and the pasting are finished, the plane of the reinforcingnet 6 is vertical to the plane of the side turning and wrapping net 4. The distance from one side of the reinforcing net 6 far away from theouter corner protector 3 to the side edge turning net 4 is set as d₂、d₂The value range of (d) is 180-250mm, and as a preferable scheme, d in the embodiment₂=d₁。

The construction process for maintaining the internal and external corner structure of thewindow 11 of the heat-insulating wall by using the integral component of the turned-over and wrapped-net diagonal-pulling reinforced net with the corner protectors in the embodiment of the application is as follows: the worker firstly uses cement mortar to bond the bottom surface turning and wrapping net 5 on the wall surfaces at the two sides of the right angle of thebuilding window 11, and then the cutheat preservation plate 1 is attached to the surface of the bottom surface turning and wrappingnet 5. Then the staff turns over the handing-over line ofpurse net 5 and side and turns over purse net 4 along the bottom surface and fold to makeinner corner 2 paste and lean on in the internal corner department ofwindow 11,outer corner 3 detains and establishes in the external corner department ofwindow 11, two sides turn over purse net 4 and attach respectively on two adjacent lateral walls of 1window 11 of heated board, reinforcing net 6 is attached on the lateral wall ofheated board 1. And finally, coating and wiping cement mortar on the side wall of thewindow 11 and the outer side wall of the heat-insulation plate 1 by a worker, thereby finishing the maintenance of the internal and external corner structure of thewindow 11 of the heat-insulation wall.

Thewindow 11 coated by the integral component of the inclined-pulling reinforcing net of the turning-over net with the corner protectors is easier to paint a cement mortar layer to be smooth, the thickness of the cement mortar is easy to control, cracking caused by over-thin or over-thick cement mortar is reduced, and the stability of a heat insulation structure and the attractiveness of thewindow 11 of a heat insulation wall are improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a take angle bead turn over purse net and draw reinforcing net integral type component to one side, sets up the edge of seting up insulation construction's window (11) in insulation board (1) its characterized in that: the window comprises an inner corner protector (2) arranged at the internal corner of a window (11) and two outer corner protectors (3) arranged at one end of the inner corner protector (2), wherein the inner corner protector (2) and the two outer corner protectors (3) are pairwise vertical, the two inner corner protectors (2) are fixedly connected at the end parts, the fixedly connected parts of the two inner corner protectors (2) are fixedly connected with the end parts of the outer corner protectors (3), a side edge turning net (4) is arranged on the inner side of a right angle formed by the outer corner protector (3) and the inner corner protector (2), and a bottom surface turning net (5) extends from one side, far away from the outer corner protector (3), of the side edge turning net (4); and a reinforcing net (6) is arranged on the outer side of the right angle formed by the two outer protective angles (3).

2. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 1, is characterized in that: the section of the inner protection angle (2) perpendicular to the length direction is L-shaped, and the outer side of the L-shaped section is attached to the internal corner of the window (11).

3. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 1, is characterized in that: the section of the outer protective angle (3) perpendicular to the length direction is L-shaped, and the inner side of the L-shaped section is buckled at the outer angle of the window (11).

4. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 1, is characterized in that: the distance from one side of the side edge turning net (4) far away from the outer corner protector (3) to the surface of the outer corner protector (3) provided with the reinforcing net (6) is equal to the thickness of the heat insulation board (1).

5. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 4, is characterized in that: the distance between one side of the bottom surface turning and packaging net (5) far away from the side turning and packaging net (4) and the side turning and packaging net (4) is 100-150 mm.

6. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 5, is characterized in that: the distance from one side of the reinforcing net (6) far away from the outer corner protector (3) to the side edge turning-over net (4) is equal to the distance from one side of the bottom surface turning-over net (5) far away from the side edge turning-over net (4) to the side edge turning-over net (4).

7. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 1, is characterized in that: the surface of the inner corner protector (2) and/or the outer corner protector (3) is uniformly provided with a plurality of through holes (21).

8. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 7, is characterized in that: the aperture of the through hole (21) is 2-3 mm.

9. The turned-over net and diagonal-pulling reinforced net integrated component with the corner protectors as claimed in claim 1, is characterized in that: the length of the outer protective angle (3) is half of the side length of the window (11) formed in the heat insulation board (1).

Images