CN213477239U - Building fire prevention heat preservation net rack board mounting structure - Google Patents

Abstract

The utility model relates to a building fireproof heat preservation net rack plate mounting structure, which comprises a heat preservation panel, an anchoring embedded part and an anchoring rod, wherein the anchoring embedded part passes through the heat preservation panel and is fixedly arranged, the middle part of the anchoring embedded part is provided with a channel distributed along the length direction of the anchoring embedded part, and the two ends of the channel are open; the anchoring rod is positioned in the channel, one end of the anchoring rod is positioned outside the heat insulation panel and fixedly arranged, and the other end of the anchoring rod is positioned outside the channel and embedded in the building wall; the utility model has the advantages of reasonable design, mutually support through anchor built-in fitting and the anchor pole that adopts the assembly simple and convenient, can realize the rapid Assembly with the heat preservation panel to directly fix heat preservation panel and template cooperation in building wall forming process, its construction process is simpler, makes building wall's construction cycle shorter simultaneously, has saved the human cost, has wholly reduced building construction cost.

Description

Building fire prevention heat preservation net rack board mounting structure

Technical Field

The utility model relates to a building heat preservation technical field especially relates to a building fire prevention heat preservation net rack board mounting structure.

Background

At present, for the heat preservation of a building wall, a heat preservation panel needs to be fixed outside the building wall according to the relevant national requirements, the heat preservation panel is generally fixed on the wall by means of an anchoring part and mortar, the anchoring part needs to be fixed on the wall in advance, and then the heat preservation panel is constructed, so that the process is complex, the construction workload is large, the construction period is slow, and the construction cost of the building is high.

Disclosure of Invention

In order to solve the deficiencies in the prior art, the utility model aims to provide a building fire prevention heat preservation net rack board mounting structure improves the efficiency of construction of heat preservation panel, simplifies construction process.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a building fire prevention heat preservation net rack board mounting structure, includes the heat preservation panel, its characterized in that has still included:

the anchoring embedded part penetrates through the heat insulation panel to be fixedly arranged, a channel distributed along the length direction of the anchoring embedded part is arranged in the middle of the anchoring embedded part, and two ends of the channel are open; and

and the anchor rod is positioned inside the channel, one end of the anchor rod is positioned outside the heat insulation panel and fixedly arranged, and the other end of the anchor rod is positioned outside the channel and embedded inside the building wall.

The installation panel is arranged on the outer side of the heat preservation panel and corresponds to the end portion of the anchoring embedded part, the anchoring rod penetrates through the installation panel and fixes the installation panel on the end portion of the anchoring embedded part, and a gap for fixing the mesh is formed between the installation panel and the anchoring embedded part.

And one side of the mounting panel is provided with a connecting part connected with the mounting panel, and the connecting part is fixedly connected with the anchoring embedded part.

The anchoring embedded part comprises a channel shell and two groups of mounting panels, the mounting panels are positioned at the end part of the channel shell and are fixedly connected with the channel shell, and the mounting panels are respectively positioned on the surfaces of two sides of the heat-insulating panel.

The channel shell is divided into at least two sections along the axial direction of the channel shell, and the two sections are detachably connected.

The middle part of the installation panel is provided with a center hole, at least one side surface of the installation panel is provided with an annular boss which is integrated with the center hole, and the outer side of the annular boss is provided with a reinforcing rib which is fixedly connected with the installation panel.

The surface of the mounting panel is also provided with a plurality of through holes.

And one end surface of the anchoring rod, which is positioned inside the building wall body, is provided with fixed inverted teeth connected with the anchoring rod.

The anchoring rod is located the inside partial surface of passageway is equipped with the software pawl rather than being connected, just be equipped with on the passageway inner wall with the draw-in groove that the software pawl corresponds, software pawl tip is located draw-in groove inside fixed the setting.

The anchoring rod is provided with a limiting part connected with the heat-insulating panel on the outer side of the heat-insulating panel, and the limiting part is pressed on the outer side of the corresponding mounting panel.

A construction method of a building fireproof heat-insulation net frame plate installation structure is characterized by comprising the following steps:

step a, preparing a heat insulation panel, drilling a hole on the heat insulation panel and installing an anchoring embedded part in the hole;

b, directly penetrating the anchoring rod into a channel of the anchoring embedded part from the outer side, or placing a separately arranged mounting panel on the outer side of the anchoring embedded part for fixing the mesh sheet, and penetrating the anchoring rod into the channel of the anchoring embedded part from the outer side;

c, fixing the heat-insulating panel between a template for building wall forming and prefabricated steel bars of the shear wall, pouring concrete into a cavity for shear wall forming on the inner side of the template, forming the building wall after the concrete is cured, embedding the end part of the anchoring rod into the building wall, and constructing a finish coat after the template is removed;

and c, connecting the mesh outside the heat insulation panel in the step c with the outer end of the anchoring rod through an installation panel after the formwork is removed, and constructing a finishing coat after external plastering and leveling.

The utility model has the advantages that: structural design is reasonable, mutually supports through anchor built-in fitting and the anchor pole that adopts the assembly simple and convenient, can realize with the rapid Assembly of heat preservation panel to directly fix heat preservation panel and template cooperation in building wall forming process, its construction process is simpler, makes building wall's construction cycle shorter simultaneously, has saved the human cost, has wholly reduced building construction cost.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the first embodiment.

FIG. 2 is a schematic structural diagram of a use state according to an embodiment.

Fig. 3 is a schematic structural diagram of the split state of the anchoring embedded part.

Fig. 4 is a schematic sectional structure diagram of the split state of the anchoring embedded part.

Fig. 5 is a schematic structural view of the anchoring rod.

Fig. 6 is a front view of the mounting panel.

Fig. 7 is a side view of the mounting panel.

Fig. 8 is a schematic structural diagram of the second embodiment.

Fig. 9 is a schematic structural diagram of a second usage state of the embodiment.

Fig. 10 is a schematic structural diagram of the third embodiment.

In the figure: 100 first installation panel, 101 first channel shell, 102 first channel, 103 annular boss, 104 reinforcing rib, 105 through hole, 200 second installation panel, 201 second channel shell, 202 clamping groove, 203 second channel, 300 anchor rod, 301 fixed pawl, 302 soft pawl, 303 limiting part, 400 third installation panel, 401 gap, 402 connecting part, 500 rock wool board, 600 extruded sheet, 700 building wall, 800 mesh.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

Example one

According to the illustrations of fig. 1 to 7: the embodiment provides a building fire prevention heat preservation net rack board mounting structure, including insulation panel, anchor built-in fitting and anchor rod 300, insulation panel is including being located inboard extruded sheet 600 and the rock wool board 500 that is located the outside, mutual adhesive connection between extruded sheet 600 and the rock wool board 500, extruded sheet 600 is as one of B level insulation material, rock wool board 500 is as one of A level insulation material, certainly insulation material also can select for use other materials that meet the requirements according to the building needs, wherein the anchor built-in fitting is fixed in advance on insulation panel, anchor rod 300 then passes the fixed setting of anchor built-in fitting and fix insulation panel in the wall body outside, wherein the concrete implementation structure of each subassembly is as follows.

The anchoring embedded part integrally penetrates through the heat insulation panel and comprises a channel shell and two groups of mounting panels;

the channel shell is divided into two sections along the axial direction, wherein the first channel shell 101 on the left side is short in length, the second channel shell 201 on the right side is long in length, the second channel shell 201 is mainly used for penetrating through the heat preservation panel, the first channel shell 101 is mainly used for being connected with the second channel shell 201, the first channel shell 101 and the second channel shell 201 are detachably connected, the right end portion of the second channel shell 201 is inserted into the first channel shell 101 and is in threaded connection with the first channel shell 101, after the first channel shell 101 and the second channel shell 201 are connected with each other, a channel distributed along the length direction of the channel shell is formed in the channel shell, the two ends of the channel are open, and the anchoring rods 300 are arranged in the channel;

the installation panel includes first installation panel 100 and second installation panel 200, and first installation panel 100 is located the left side tip of passageway casing and is connected fixedly with the first passageway casing 101 that corresponds, and second installation panel 200 is located the right side tip of passageway casing and is connected fixedly with the second passageway casing 201 that corresponds, and the middle part of first installation panel 100 and second installation panel 200 is equipped with the centre bore, centre bore and passageway intercommunication, after with the heat preservation panel assembly, first installation panel 100 and second installation panel 200 are located heat preservation panel both sides surface respectively, keep being connected with heat preservation panel surface laminating for the guarantee with the effect of being connected of first installation panel 100 and second installation panel 200 and heat preservation panel, keep its assembly stability.

The anchoring rod 300 is positioned in the channel, the left end of the anchoring rod 300 is fixedly arranged outside the heat preservation panel, the end is further provided with a limiting piece 303 connected with the end, the limiting piece 303 is a circular panel, the edge of the circular panel is larger than the edge of the opening of the end of the channel, so that the limiting piece 303 is pressed on the outer side of the corresponding first installation panel 100 to ensure that the limiting piece 303 is positioned on the outer side of the channel to form a limiting effect, the right end of the anchoring rod 300 is partially positioned outside the channel and is embedded in the building wall 700, meanwhile, the end surface is further provided with a fixing inverted tooth 301 connected with the fixing inverted tooth, the fixing inverted tooth 301 comprises a plurality of conical sections which are uniformly distributed, so that the section edge of the anchoring rod 300 forms a saw-toothed structure, and when the anchoring rod is connected with the building wall 700, the connecting effect with the building wall 700 can be ensured, and, preventing the anchor bar 300 from being separated from the building wall 700;

wherein, anchor rod 300 still keeps having relatively fixed connection effect with the passageway inner wall, specifically is: the surface of the anchoring rod 300, which is positioned in the channel, is provided with soft inverted teeth 302 connected with the anchoring rod, the ends of the soft inverted teeth 302 are obliquely arranged towards the left side, and the inner wall of the channel is provided with a clamping groove 202 corresponding to the soft inverted tooth 302, the clamping groove 202 is an annular groove body, the distance is consistent with the distance of the soft inverted tooth 302, the end part of the soft inverted tooth 302 is fixedly arranged in the clamping groove 202, when the shank 300 is inserted into the channel, the soft-bodied barbs 302 may deform to facilitate smooth insertion of the shank 300, when the anchoring rod 300 moves to the right, the end of the soft pawl 302 is blocked inside the slot 202 and cannot deform, thereby realized anchor rod 300's unidirectional movement, made it can not break away from with the passageway inner wall, ensured the stability of overall assembly structure, prevented that anchor rod 300 from taking place the reverse migration at building wall 700 in-process of pouring, finally ensured anchor rod 300 and building wall 700's connected effect.

Further, the first mounting panel 100 and the second mounting panel 200 used in the above structure have the same structure and have different sizes, specifically, the outer side surfaces of the first mounting panel 100 and the second mounting panel 200 are provided with annular bosses 103 at the edges of the central holes, the annular bosses 103 are integrally structured with the first mounting panel, the outer sides of the annular bosses 103 are provided with reinforcing ribs 104 connected and fixed with the mounting panels, and the reinforcing ribs 104 are radially and uniformly distributed by taking the annular bosses 103 as the center to ensure uniform structural strength of the surfaces of the first mounting panel 100 and the second mounting panel 200, so that the first mounting panel 100 and the second mounting panel 200 are not easily deformed or damaged in the using process;

further, the surfaces of the first installation panel 100 and the second installation panel 200 are further provided with a plurality of through holes 105, the through holes 105 are located between the adjacent reinforcing ribs 104, when the first installation panel 100 and the second installation panel 200 are connected with the building wall 700, concrete can enter the through holes 105 and spaces between the reinforcing ribs 104, and therefore the first installation panel 100 and the second installation panel 200 can be in good contact with the building wall 700, and the connection effect with the building wall 700 is guaranteed.

A construction method of a building fireproof heat-preservation net rack plate mounting structure comprises the following steps:

step a, preparing a heat preservation panel, drilling a hole in the heat preservation panel, installing an anchoring embedded part in the hole, inserting a second channel shell 201 with a longer length into the hole during installation, then inserting a first channel shell 101 into the other side of the hole, and connecting the second channel shell 201 with the first channel shell 101 in a threaded manner, wherein at the moment, the first installation panel 100 and the second installation panel 200 are pressed on two sides of the heat preservation panel, and the anchoring embedded part is not easy to move integrally;

step b, directly penetrating the anchoring rod 300 into a channel of an anchoring embedded part from the outer side, ensuring that a limiting part 303 of the anchoring rod 300 is pressed on the outer side of the first installation panel 100, effectively connecting a soft inverted tooth 302 of the anchoring rod 300 with a clamping groove 202 on the inner wall of the channel in a matched manner, and keeping the effective length of about 5cm when a fixed inverted tooth 301 of the anchoring rod 300 is positioned on the outer side of the heat insulation panel, so that the fixed inverted tooth can be effectively contacted with the building wall 700;

and c, fixing the heat insulation panel between a template for forming the building wall body 700 and prefabricated steel bars of the shear wall, pouring concrete into a cavity for forming the shear wall on the inner side of the template, forming the building wall body 700 after the concrete is cured, embedding the end part of the anchoring rod 300 in the building wall body 700, and constructing a finish coat after the template is removed.

After the operation is completed according to the steps, the heat insulation panel is fixed on the surface of the building wall body 700 by means of the anchoring rod 300, the anchoring rod 300 also ensures the assembly effect with the heat insulation panel by means of the anchoring embedded part, the structure is not easy to damage, the construction process is simplified, the construction progress is accelerated, and the service life of the whole heat insulation project is ensured.

Example two

As shown in fig. 8 and 9: this embodiment provides a building fire prevention heat preservation net rack board mounting structure, including insulation panel, anchor built-in fitting and anchor rod 300, lie in with the difference of embodiment one:

in this embodiment, a third installation panel 400 is separately installed, the structure of the third installation panel 400 is the same as the first installation panel 100 and the second installation panel 200, but the third installation panel 400 has no channel shell part, the third installation panel 400 is located outside the insulation panel and is installed corresponding to the end of the anchoring embedment, and the anchoring rod 300 is installed through the third installation panel 400 and fixes the third installation panel 400 at the end of the anchoring embedment, a gap 401 for fixing the mesh 800 is formed between the third installation panel 400 and the anchoring embedment, in this structure, the mesh 800 can be fixed outside the mesh 800 by the newly added third installation panel 400, so that the local part of the mesh 800 can be clamped and fixed between the third installation panel 400 and the anchoring embedment, and a plurality of fixing points are formed on the surface of the mesh 800, so as to ensure the connection effect of the mesh 800 and the heat preservation panel.

Similarly, in a construction method of a building fireproof heat-preservation net frame plate installation structure, the steps different from those in the first embodiment mainly include the step b and the step c, and specifically include:

b, placing a third installation panel 400 which is arranged independently on the outer side of the anchoring embedded part for fixing the mesh sheet 800, penetrating the anchoring rod 300 into a central hole of the third installation panel 400 and a channel for anchoring the embedded part from the outer side, ensuring that a limiting part 303 of the anchoring rod 300 is pressed on the outer side of the third installation panel 400, effectively matching and connecting a soft inverted tooth 302 of the anchoring rod 300 with a clamping groove 202 on the inner wall of the channel, and ensuring that a fixing inverted tooth 301 of the anchoring rod 300 is positioned on the outer side of the heat insulation panel and can keep an effective length of about 5cm and can be effectively contacted with the building wall body 700; the operation for mounting the third mounting panel 400 is mainly added in the above steps;

the difference between the step c and the first embodiment is that the mesh 800 is further arranged on the outer side of the heat insulation panel in the step c, the mesh 800 is connected with the outer side end of the anchoring rod 300 through the installation panel 400 after the formwork is removed, and the construction of the facing layer is performed after the outer plastering is leveled, so that the construction effect between the mesh 800 and the heat insulation panel is guaranteed, the ash hanging effect is good, the construction efficiency is high, and the overall structure is stable.

EXAMPLE III

According to FIG. 10: the embodiment provides this embodiment and provides a building fire prevention heat preservation net rack board mounting structure, including insulation panel, anchor built-in fitting, third installation panel 400 and anchor pole 300, with the structure that the difference of embodiment two lies in third installation panel 400, specifically be:

one side of the mounting panel close to the anchoring embedded part is provided with a connecting part 402 connected with the mounting panel, the connecting part 402 is of a tubular structure, the outer diameter of the connecting part is slightly consistent with the diameter of the inner wall of the channel of the anchoring embedded part, the connecting part 402 is inserted into the channel and is fixedly connected with the anchoring embedded part in a threaded manner, and the position of the port of the channel is kept to be an open structure, in the structure, a third mounting panel 400 used for fixing the mesh 800 is not additionally arranged, and the third mounting panel 400 is connected with the anchoring embedded part, so that a fixing structure of the third mounting panel 400 except for the pressing and fixing of the anchoring rod 300 is realized, and the stability of the mounting structure of the third mounting panel 400 is guaranteed.

This embodiment has provided with the building main part with the life-span, let the construction more energy-conserving, it is more efficient, let the building body safer, it is more fire-proof, more keep warm, more green, the building heat preservation new technology of life-span, it has fire behavior to realize the building body, heat preservation effect and heat preservation panel are difficult for the effect that drops, make building wall 700 and heat preservation panel through net piece 800, the effective better combination of finish coat is in the same place, realize building heat preservation and structural integration, the heat preservation panel need not to maintain at the whole life cycle of whole building, maintenance and change.

The above is only the preferred embodiment of the present invention, as long as the preferred embodiment is realized by the same means, the objective technical solution of the present invention all belongs to the protection scope of the present invention.

Claims (10)

1. The utility model provides a building fire prevention heat preservation net rack board mounting structure, includes the heat preservation panel, its characterized in that has still included:

the anchoring embedded part penetrates through the heat insulation panel to be fixedly arranged, a channel distributed along the length direction of the anchoring embedded part is arranged in the middle of the anchoring embedded part, and two ends of the channel are open; and

and the anchor rod is positioned inside the channel, one end of the anchor rod is positioned outside the heat insulation panel and fixedly arranged, and the other end of the anchor rod is positioned outside the channel and embedded inside the building wall.

2. The building fire-proof thermal insulation net frame plate mounting structure according to claim 1, characterized in that: the installation panel is arranged on the outer side of the heat preservation panel and corresponds to the end portion of the anchoring embedded part, the anchoring rod penetrates through the installation panel and fixes the installation panel on the end portion of the anchoring embedded part, and a gap for fixing the mesh is formed between the installation panel and the anchoring embedded part.

3. A building fire-proof thermal insulation net frame plate mounting structure according to claim 2, characterized in that: and one side of the mounting panel is provided with a connecting part connected with the mounting panel, and the connecting part is fixedly connected with the anchoring embedded part.

4. The building fire-proof thermal insulation net frame plate mounting structure according to claim 1, characterized in that: the anchoring embedded part comprises a channel shell and two groups of mounting panels, the mounting panels are positioned at the end part of the channel shell and are fixedly connected with the channel shell, and the mounting panels are respectively positioned on the surfaces of two sides of the heat-insulating panel.

5. The building fire-proof thermal insulation net frame plate mounting structure according to claim 4, wherein: the channel shell is divided into at least two sections along the axial direction of the channel shell, and the two sections are detachably connected.

6. A building fire prevention and insulation net rack plate mounting structure according to claim 2 or 4, characterized in that: the middle part of the installation panel is provided with a center hole, at least one side surface of the installation panel is provided with an annular boss which is integrated with the center hole, and the outer side of the annular boss is provided with a reinforcing rib which is fixedly connected with the installation panel.

7. The building fire-proof thermal insulation net frame plate mounting structure according to claim 6, wherein: the surface of the mounting panel is also provided with a plurality of through holes.

8. The building fire-proof thermal insulation net frame plate mounting structure according to claim 1, characterized in that: and one end surface of the anchoring rod, which is positioned inside the building wall body, is provided with fixed inverted teeth connected with the anchoring rod.

9. The building fire-proof thermal insulation net frame plate mounting structure according to claim 1, characterized in that: the anchoring rod is located the inside partial surface of passageway is equipped with the software pawl rather than being connected, just be equipped with on the passageway inner wall with the draw-in groove that the software pawl corresponds, software pawl tip is located draw-in groove inside fixed the setting.

10. The building fire-proof thermal insulation net frame plate mounting structure according to claim 1, characterized in that: the anchoring rod is provided with a limiting part connected with the heat-insulating panel on the outer side of the heat-insulating panel, and the limiting part is pressed on the outer side of the corresponding mounting panel.

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