CN114658142A - Ceramsite concrete wallboard mounting structure and construction method thereof - Google Patents

Abstract

The invention discloses a ceramsite concrete wallboard mounting structure and a construction method thereof. The wall body comprises a plurality of main wallboards and at least one wiring wallboard, the wiring wallboard and each first wallboard are located in the same plane, and the wiring wallboard is provided with a cavity. The steel fastener is fixed in on the roof, and the steel fastener has two cards that the interval set up, and two cards joint respectively in the both sides of wall body. The box is installed on walking the line wallboard, and box part is located the cavity. The pipeline is accommodated in the cavity, and the cable extends to the box body. The utility model provides a haydite concrete wallboard mounting structure has avoided carrying out the secondary on haydite concrete wallboard and has picked chisel, shutoff including the line wallboard of walking of can walking specially, has improved the structural safety performance of haydite concrete wallboard, has saved the engineering time, has reduced workman intensity of labour, has reduced construction cost, has improved construction quality and efficiency of construction.

Description

Ceramsite concrete wallboard mounting structure and construction method thereof

Technical Field

The invention relates to the technical field of building construction, in particular to a ceramsite concrete wallboard installation structure and a construction method thereof.

Background

With the development of assembly type buildings, the technology of prefabricated internal partition boards is applied and practiced in more projects with excellent properties of earthquake resistance, sound insulation, fire resistance, environmental protection and energy conservation. The prefabricated internal partition wall board technology has a plurality of application directions such as ceramsite concrete wall boards, autoclaved lightweight aerated concrete wall boards, light steel keel gypsum board partition walls, GRC portland cement wall boards and the like. The ceramsite concrete wallboard has the advantages of light weight, high strength, good shock resistance, fire resistance, high temperature resistance and heat insulation, and is widely applied to building construction.

In the installation of the existing ceramsite concrete wallboard, large electrical boxes such as an HD household information box and a lighting distribution box are large in size and dense in pipeline arrangement, so that the wall is seriously cut during pipeline installation, the overall stability of the wall is damaged, and the ceramsite concrete wallboard becomes a pain point for popularization.

In view of the above, the present invention is particularly proposed.

Disclosure of Invention

The invention provides a ceramsite concrete wallboard mounting structure and a construction method thereof.

The following technical scheme is adopted:

the first purpose of the invention is to provide a ceramsite concrete wallboard mounting structure, which comprises:

the wall body comprises a plurality of main wallboards and at least one routing wallboard, the routing wallboard and each main wallboard are positioned in the same plane, and the routing wallboard is provided with a cavity;

the steel clamping piece is fixed on the top plate and provided with two clamping pieces which are arranged at intervals and are respectively clamped on two sides of the wall body;

the box body is arranged on the wiring wallboard, and the box body part is positioned in the cavity;

a conduit housed in the cavity, and the cable extending into the tank.

Optionally, the routing wall board includes a first wall board and a second wall board, the first wall board has a groove, the second wall board is connected to the first wall board, and the second wall board covers a mouth of the groove to form the cavity.

Optionally, the box body is mounted on the first wall plate, and the second wall plate is provided with an avoidance port;

the second wallboard is installed in under the state of first wallboard, the box stretches out dodge the mouth.

Optionally, the first wall panel has a main wall and side walls disposed on two sides of the main wall, the second wall panel is supported on the two side walls, and the second wall panel is fixed to the two side walls by adhesive bonding.

Optionally, the ceramsite concrete wall panel mounting structure further comprises a fixing plate, wherein the fixing plate is located in the cavity and is fixedly connected to the routing wall panel;

the box body is arranged on the fixing plate.

Optionally, the main wall panel with walk the line wallboard and equally divide along width direction's both sides and be provided with tongue-and-groove and tenon respectively, between the adjacent main wall panel, or adjacent main wall panel with walk the tenon concatenation of one between the line wallboard in another's tongue-and-groove.

A second objective of the present application is to provide a construction method of the ceramsite concrete wallboard installation structure, which includes:

step S1, according to the wall position determined by the typesetting drawing, releasing the wall line on the ground, and leading the line to the ceiling and the side wall;

step S2, fixing the steel clamping piece on the concrete structure or the first wall board;

step S3, installing a main wallboard, a wiring wallboard, a box body and a pipeline;

step S4, closing the top and the bottom of the wall;

and step S5, adopting mortar to scrape the gaps formed between the wall boards.

Optionally, the routing wallboard includes a first wallboard and a second wallboard, the first wallboard has a groove, and step S3 includes:

step S31, installing a main wall board and a first wall board;

step S32, installing a pipeline and a box body on the first wall board and covering the second wall board;

wherein, step S31 includes: evenly be full of on the tip of a week on first wallboard and scrape special mortar, aim at the positioning line from top to bottom, push first wallboard in the steel fastener and make the tongue-and-groove of one in first wallboard and the adjacent main wall board splice with the tenon of another, squeeze into the wooden wedge and wedge tightly in the upper portion and the lower part of first wallboard and main wall board, adjust the straightness and the roughness of adjacent face of hanging down.

Optionally, step S32 includes:

s321, snapping ink lines on the first wall plate for positioning, installing a fixing plate, laying pipelines, and installing a box body;

step S322, popping up a box body position line on the second wall plate, and cutting an avoidance opening according to the box body position line;

and S323, smearing adhesive on the side walls of the two sides of the first wallboard, uniformly scraping mortar around the second wallboard, and bonding the second wallboard to the first wallboard.

Optionally, step S4 includes:

step S41, pouring bonding mortar into the top of the wall to form a mortar tenon, and filling the bottom of the wall with dry and hard fine stone concrete;

and step S42, taking out the wooden wedge after the wooden wedge is installed on the wall for a set time, and filling the wedge hole with dry and hard fine stone concrete.

By adopting the technical scheme, the invention has the following beneficial effects:

the utility model provides a haydite concrete wallboard mounting structure is including walking the line wallboard of walking of line specially, has avoided carrying out the secondary on haydite concrete wallboard and has picked chisel, shutoff, has improved the structural safety ability of haydite concrete wallboard, has saved the engineering time, has reduced workman intensity of labour, has reduced construction cost, has improved construction quality and efficiency of construction.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention to its proper form. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a schematic cross-sectional view of a first lightweight, high frequency, partition wall board extruder showing a modified mold cavity;

FIG. 2 illustrates a modified front view of the molding cavity of the first lightweight, high frequency partition wall board extruder;

FIG. 3 is a schematic cross-sectional view of a second extruder for forming a cavity for a lightweight, high frequency partition wall panel;

FIG. 4 is a schematic construction plan view of a ceramsite concrete wall panel mounting structure;

FIG. 5 is a schematic structural view of a ceramsite concrete wallboard mounting structure in a front view;

FIG. 6 is a schematic cross-sectional view of a ceramsite concrete wall panel mounting structure;

figure 7 illustrates a side view cross-sectional view of a ceramsite concrete wall panel mounting structure.

In the figure, 1, a first light high-frequency partition board extruder; 11. a molding cavity; 12. vertically polishing a plate; 2. a second light high-frequency partition board extruder; 21. a molding cavity; 22. vertically polishing a plate; 3. a main wall panel; 4. routing the wallboard; 41. a first wall panel; 411. a main wall; 412. a side wall; 413. a groove; 42. a second wall panel; 421. avoiding the mouth; 5. a steel fastener; 6. a box body; 8. A pipeline; 9. a fixing plate; a. mortises; b. a tenon; c. mortar; d. floor, e, reinforcing steel bar.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or assembly must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

Referring to fig. 1 to 7, an embodiment of the present application provides a ceramsite concrete wall panel installation structure, including: wall, steel fastener 5, box 6 and pipeline 8. The wall body comprises a plurality of main wallboards 3 and at least one routing wallboard 4, wherein the routing wallboard 4 and each main wallboard 3 are located in the same plane, and the routing wallboard 4 is provided with a cavity. The steel clamping piece 5 can be fixed on a top plate (floor plate d), the steel clamping piece 5 is provided with two clamping pieces which are arranged at intervals, the two clamping pieces are respectively clamped on two sides of the wall body (the main wall plate 3 and/or two sides of the wiring wall plate 4), the box body 6 is installed on the wiring wall plate 4, and the box body 6 is partially positioned in the cavity. The line 8 is received in the cavity and the cable extends into the box 6. The box 6 may be an HD home information box, a lighting distribution box or other larger electrical box.

The utility model provides a haydite concrete wallboard mounting structure is including can walking line wallboard 4 specially, has avoided carrying out the secondary on haydite concrete wallboard and has picked chisel, shutoff, has improved the structural safety performance of haydite concrete wallboard, has saved the engineering time, has reduced workman intensity of labour, has reduced construction cost, has improved construction quality and efficiency of construction.

In a possible embodiment, the routing wall plate 4 includes a first wall plate 41 and a second wall plate 42, the first wall plate 41 has a groove 413, the second wall plate 42 is connected to the first wall plate 41, and the second wall plate 42 covers the mouth of the groove 413 to form the cavity. The groove 413 is formed in the first wall plate 41, so that wiring can be conveniently conducted inside the groove 413, and then the groove 413 can be sealed by installing the second wall plate 42.

In a possible embodiment, the box body 6 is mounted on the first wall plate 41, and the second wall plate 42 is provided with an avoiding opening 421. In a state where the second wall plate 42 is mounted on the first wall plate 41, the box body 6 extends out of the escape opening 421.

Referring to fig. 7, the first wall panel 41 includes at least two sub-wall panels, each of the sub-wall panels is sequentially arranged along the longitudinal direction, and the grooves 413 of the first wall panel 41 of at least two of the sub-wall panels face oppositely (referring to fig. 7, the upper part and the lower part are respectively a sub-wall panel). Wherein, the sub-wall boards each include a first wall board 41 and a second wall board 42, and when the groove 413 of the first wall board 41 of the two sub-wall boards are oriented differently, the corresponding installed boxes can be provided for two adjacent households respectively. Referring to fig. 4, the two boxes are oriented differently and have different sizes due to the different functions of the two boxes.

Referring to fig. 4, mortises a and tenons b are respectively disposed on both sides of the main wall boards 3 and the routing wall boards 4 in the width direction, and the tenon b of one of the adjacent main wall boards 3 or the adjacent main wall boards 3 and the routing wall boards 4 is spliced in the mortise a of the other.

The first wall plate 41 has a main wall 411 and side walls 412 disposed on both sides of the main wall 411, the second wall plate 42 is supported on the two side walls 412, and the second wall plate 42 is adhesively fixed on the two side walls 412 by an adhesive.

Referring to fig. 6, the ceramsite concrete wall board installation structure further includes a fixing plate 9, the fixing plate 9 is located in the groove 413, and the fixing plate 9 is fixedly connected to the wiring wall board 4. The box body 6 is mounted on the fixing plate 9. The fixing plate 9 is provided with a fitting flange, and the fitting flange and the inner wall of the groove 413 are fitted and fixed.

The fixed plate 9 comprises a main plate, two attaching flanges are respectively arranged on two sides of the main plate, and the two attaching flanges are respectively attached to the two side walls 412. Wherein, the fixing plate 9 may be formed by bending galvanized steel. In order to facilitate cable arrangement, a wire hole is formed in the fixing plate 9, and the pipeline 8 penetrates through the wire hole.

Example two

Referring to fig. 1 to 7, a second embodiment of the present application provides a construction method for a ceramsite concrete wallboard installation structure in the first embodiment, including:

and step S1, according to the wall body position determined by the typesetting drawing, releasing the wall position line on the ground, and leading the line to the ceiling (floor slab) and the side wall.

Step S2, fixing the steel clips 5 on the concrete structure (e.g. on the floor d) or the first wall panel 41. When steel fastener 5 was installed on roof (floor d), roof beam, 5 intervals of steel fastener were not more than 600mm, and every slat should not be less than 2 fixed points, and when steel fastener 5 was installed on the wall post, 5 intervals of steel fastener were not more than 1000 mm. Can be nailed and fixed on the steel fastener 5 by a nail shooting. The shooting nail can be a PS type shooting nail, the diameter of the top head is 7.6mm, the diameter of the nail rod is 3.7mm, and the length of the nail rod is 37 mm. Every steel fastener 5 can be penetrated the nail by 3 and fixed, penetrates the nail and arranges and be triangle-shaped and arrange.

Step S3, installing the main wall board 3, the wiring wall board 4, the box body and the pipeline 8;

step S4, closing the top and the bottom of the wall;

and step S5, adopting mortar to scrape the gaps formed between the wall boards.

Optionally, the routing wall plate 4 includes a first wall plate 41 and a second wall plate 42, the first wall plate 41 has a groove 413, and the step S3 includes:

step S31, installing main wall panel 3 and first wall panel 41;

step S32, installing the pipeline 8 and the box body 6 on the first wall plate 41 and covering the second wall plate 42;

wherein, step S31 includes: evenly scrape special mortar on the tip of a week on first wallboard 41, aim at the positioning line from top to bottom, push first wallboard 41 into steel fastener 5 and make tongue-and-groove a of one in first wallboard 41 and the adjacent main wall board 3 splice with tenon b of the other, squeeze into the wooden wedge and wedge tightly in first wallboard 41 and main wall board 3's upper portion and lower part, the wooden wedge is preferably placed in the solid rib department of wallboard, adjusts the straightness that hangs down and the roughness of adjacent face. The steel clamping piece 5 can be a U-shaped galvanized steel plate clamping piece, the thickness of the steel clamping piece is 1.5mm thick, the width of the steel clamping piece is the same as the width of the wallboard, and the length of the U-shaped steel clamping piece is 40 mm.

Optionally, step S32 includes:

s321, snapping ink lines on the first wall plate 41 for positioning, installing a fixing plate 9, laying a pipeline 8, and installing a box body, wherein the box body is fixed on the first wall plate 41 and/or the fixing plate 9.

Step S322, popping up a box body position line on the second wall plate 42, and cutting an avoidance opening 421 according to the box body position line; the second wall plate 42 can be adhered with glass fiber mesh cloth at the position of the installation box body to prevent cracking.

Step S323, an adhesive is applied to the side walls 412 (e.g., end surfaces of the side walls 412) on both sides of the first wall panel 41, and the second wall panel 42 is adhered to the first wall panel 41 by uniformly scraping mortar around the second wall panel 42. Can set up steel fastener 5 on the adjacent main wall board 3 of first wallboard 41, steel fastener 5 has two cards, forms the draw-in groove between two cards, in pushing into the draw-in groove with second wallboard 42, and with first wallboard 41 firm connection. Can squeeze into the wooden wedge and wedge tightly in second wallboard 42 lower part, the wooden wedge is placed in second wallboard 42's solid rib department, adjusts the straightness and the roughness of adjacent face of hanging down.

Optionally, step S4 includes:

and step S41, pouring bonding mortar c into the top of the wall (such as the gap between the top of the wall and the beam slab) to form a mortar tenon, and filling the bottom of the wall with dry and hard fine stone concrete.

The bonding mortar can be formed by stirring ordinary portland cement, sand, redispersible latex powder, hydroxypropyl methyl cellulose, polyvinyl alcohol, polypropylene short fibers, a waterproof agent and a water reducing agent, can realize quick bonding between the wallboard and a concrete structure and between the wallboards, and can prevent cracking and prevent water.

And step S42, taking out the wooden wedge after the wooden wedge is installed on the wall for a set time (such as 5 days), and filling the wedge hole with dry and hard fine stone concrete.

In step S5, mortar is used to strike off the gap formed between the wall panels, such as the gap between adjacent main wall panels 3, or the gap between adjacent main wall panel 3 and routing wall panel 4. The middle part of the mortar can be provided with a piece of gridding cloth. The gridding cloth can be glass fiber gridding cloth.

To produce the wiring board 4 of the present application, referring to fig. 1, 2 and 3, the present application also prepares a first light high frequency partition board extruder 1 for producing a first wall board 41 and a second light high frequency partition board extruder 2 for producing a second wall board 42. Referring to fig. 1 and 2, a first light high-frequency partition board extruder 1 adds a vertical smoothing board 12 in a common board extruder, the two sides of the vertical smoothing board are provided with forming cavities 11, the cross section of the vertical smoothing board 12 is a right triangle, and the inclined plane side of the triangle faces the feeding side. Through the arrangement of the vertical smoothing plate, the first wall plate 41 with the groove 413 in the middle can be directly processed. The second light high-frequency partition board extruder 2 adds the vertical smoothing board 22 in the common board extruder, and the two sides of the vertical smoothing board have no gap, thereby extruding and processing a thinner and straight second wall board 42.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A ceramsite concrete wallboard mounting structure is characterized by comprising:

the wall body comprises a plurality of main wallboards and at least one routing wallboard, the routing wallboard and each main wallboard are positioned in the same plane, and the routing wallboard is provided with a cavity;

the steel clamping piece is fixed on the top plate and provided with two clamping pieces which are arranged at intervals and are respectively clamped on two sides of the wall body;

the box body is arranged on the wiring wallboard, and the box body part is positioned in the cavity;

a conduit housed in the cavity, and the cable extending into the tank.

2. A ceramsite concrete wall board mounting structure according to claim 1, wherein the routing wall board comprises a first wall board and a second wall board, the first wall board has a groove, the second wall board is connected to the first wall board, and the second wall board covers the mouth of the groove to form the cavity.

3. A ceramsite concrete wall board mounting structure according to claim 2, wherein the box body is mounted on the first wall board, and the second wall board is provided with an avoiding opening;

the second wallboard is installed in under the state of first wallboard, the box stretches out dodge the mouth.

4. A ceramsite concrete wall board mounting structure according to claim 3, wherein the first wall board has a main wall and side walls provided on both sides of the main wall, the second wall board is supported on both of the side walls, and the second wall board is adhesively fixed to both of the side walls by an adhesive.

5. The ceramsite concrete wall board mounting structure according to claim 4, further comprising a fixing plate, wherein the fixing plate is located in the cavity and is fixedly connected to the wiring wall board;

the box body is arranged on the fixing plate.

6. A ceramsite concrete wall board mounting structure according to claim 5, wherein the main wall board and the routing wall board are respectively provided with a mortise and a tenon on both sides in the width direction, and the tenon of one of the adjacent main wall boards or the adjacent main wall boards and the routing wall boards is spliced in the mortise of the other one.

7. The construction method of the ceramsite concrete wall board installation structure as claimed in any one of claims 1 to 6, comprises the following steps:

step S1, according to the wall position determined by the typesetting drawing, releasing the wall line on the ground, and leading the line to the ceiling and the side wall;

step S2, fixing the steel clamping piece on the concrete structure or the first wall board;

step S3, installing a main wallboard, a wiring wallboard, a box body and a pipeline;

step S4, closing the top and the bottom of the wall;

and step S5, adopting mortar to scrape the gap formed between the wallboards.

8. The construction method according to claim 7, wherein the routing wall board comprises a first wall board and a second wall board, the first wall board has a groove, and the step S3 includes:

step S31, installing a main wall plate and a first wall plate;

step S32, installing a pipeline and a box body on the first wallboard, and covering a second wallboard;

wherein, step S31 includes: evenly be full of on the tip of a week on first wallboard and scrape special mortar, aim at the positioning line from top to bottom, push first wallboard in the steel fastener and make the tongue-and-groove of one in first wallboard and the adjacent main wall board splice with the tenon of another, squeeze into the wooden wedge and wedge tightly in the upper portion and the lower part of first wallboard and main wall board, adjust the straightness and the roughness of adjacent face of hanging down.

9. The construction method according to claim 8, wherein the step S32 includes:

s321, snapping ink lines on the first wall plate for positioning, installing a fixing plate, laying pipelines, and installing a box body;

step S322, popping up a box body position line on the second wall plate, and cutting an avoidance opening according to the box body position line;

and S323, smearing adhesive on the side walls of the two sides of the first wallboard, uniformly scraping mortar around the second wallboard, and bonding the second wallboard to the first wallboard.

10. The construction method according to claim 9, wherein the step S4 includes:

step S41, pouring bonding mortar into the top of the wall to form a mortar tenon, and filling the bottom of the wall with dry and hard fine aggregate concrete;

and step S42, taking out the wooden wedge after the wooden wedge is installed on the wall for a set time, and filling the wedge hole with dry and hard fine stone concrete.

Images