CN110761483B

CN110761483B - Installation method of partition board with good anti-seismic performance

Info

Publication number: CN110761483B
Application number: CN201911169953.XA
Authority: CN
Inventors: 张伟坚; 赖则干; 祝丽平; 胡凤娟; 顾旭中; 孙鑫凯; 屠建锋; 李翰杰; 尉晓军; 周健; 周方均; 吴景春; 邢黎明; 商圣波; 竹伟江
Original assignee: Huahui Construction Group Co ltd; Zhejiang Huahui Decoration Engineering Co ltd
Current assignee: Huahui Construction Group Co ltd; Zhejiang Huahui Decoration Engineering Co ltd
Priority date: 2019-11-26
Filing date: 2019-11-26
Publication date: 2021-10-08
Anticipated expiration: 2039-11-26
Also published as: CN110761483A

Abstract

The invention relates to a method for installing a partition board with good anti-seismic performance, which comprises the following process steps: 1) a through long upper clamping groove is arranged below the building structure beam; 2) installing lower guide grooves corresponding to the head section, the standard combined section and the end socket matching section; 3) installing a head section, then sequentially installing each standard combined section and a head matching section, enabling the bottom of the standard combined section and the head matching section to be embedded into the lower guide groove, clamping the upper part of the standard combined section into the upper clamping groove, and clamping the suspension rope into the anti-seismic hook; 4) installing a guide groove at the lower part of the head sealing section, and then installing the head sealing section; 5) the top of the wall body is provided with a buckle plate, and the lower part of the wall body is provided with a skirting board so as to finish the installation of the partition board. The installation method of the partition board with good seismic performance has the advantages of simple and convenient construction, convenient subsequent dismantling, good performance and the like.

Description

Installation method of partition board with good anti-seismic performance

[ technical field ] A method for producing a semiconductor device

The invention relates to an installation method of a partition board, in particular to an installation method of a partition board with good anti-seismic performance, and belongs to the technical field of constructional engineering.

[ background of the invention ]

At present, the partition boards used in buildings mainly have two types, namely a light partition board which takes concrete materials as main bodies and a light steel keel gypsum board partition board.

The light concrete partition board has relatively large weight, needs to be fixed by steel nails during installation, and then joints are filled with mortar. The partition wall board is troublesome in construction, and meanwhile, the partition wall board is connected with each other by the steel nails and connected with the main structure of the building through the steel nails, and belongs to rigid connection.

The light steel keel gypsum board partition board is relatively complex in construction, a light steel keel frame needs to be erected firstly, then the light steel keel frame is filled with a light sound insulation material and is externally coated with a gypsum board, and finally the light steel keel gypsum board partition board is fixedly connected with a building main body. The partition wall is light in weight, but is troublesome to construct and has a collapse risk under the earthquake effect.

Therefore, in order to solve the above technical problems, it is necessary to provide an innovative method for installing a partition board with good earthquake-resistant performance, so as to overcome the above-mentioned drawbacks in the prior art.

[ summary of the invention ]

In order to solve the problems, the invention aims to provide the method for installing the partition board, which is simple and convenient to construct, convenient to dismantle subsequently and good in seismic performance.

In order to achieve the purpose, the invention adopts the technical scheme that: a method for installing a partition board with good anti-seismic performance comprises the following steps that the partition board comprises a wall body, an upper clamping groove, a lower guide groove, a buckle plate and a skirting board; the wall body is formed by splicing 1 starting section, a plurality of standard combined sections, 1 sealing head section and 1 sealing head matching section; each wall section of the wall body comprises a decoration panel, a structural body, a filling body and a suspension rope; the structural bodies are in columnar structures and are sequentially spliced; the filling body is filled in the cavity of the structural body; the decorative panel is fixed on the outer side surface of the structure body; the suspension rope is arranged at the top of the structure body; an anti-seismic hook is arranged on the upper clamping groove;

the installation method of the partition board comprises the following process steps:

1) a through long upper clamping groove is arranged below the building structure beam;

2) installing lower guide grooves corresponding to the head section, the standard combined section and the end socket matching section;

3) installing a head section, then sequentially installing each standard combined section and a head matching section, enabling the bottom of the standard combined section and the head matching section to be embedded into the lower guide groove, clamping the upper part of the standard combined section into the upper clamping groove, and clamping the suspension rope into the anti-seismic hook;

4) installing a guide groove at the lower part of the head sealing section, and then installing the head sealing section;

5) the top of the wall body is provided with a buckle plate, and the lower part of the wall body is provided with a skirting board so as to finish the installation of the partition board.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the single structural body is in a regular octagonal columnar structure, and splicing surfaces of adjacent structural bodies are connected through bolts or riveting to form an integral structural body.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the splicing surface of the structure body is provided with a section of bulge at the top of the structure body; the suspension rope is arranged at the top of the protrusion; one end of the structural body protrudes out of the decorative panel to form a protruding end; the other end of the structure is recessed into the decorative panel to form a cavity end, so that the protruding ends of adjacent structures are embedded into the cavity end.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the upper clamping groove is in an inverted concave shape, the width of an inner opening of the upper clamping groove is equal to that of the protrusion, the height of the inner opening of the upper clamping groove is larger than that of the protrusion, and the upper clamping groove is clamped on the protrusion; the upper clamping groove is provided with a bolt hole.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the anti-seismic hook is in a combined shape of a right angle and an inverted V shape; one right-angle side is connected with the building beam through a bolt hole of the upper clamping groove by a bolt, and the bolt also fixes the upper clamping groove; the other right-angle side is connected with one bevel edge of the inverted V shape to form a downward acute-angle end; the top of the inverted V shape is abutted against the bottom surface of the upper clamping groove; the suspension rope is clamped into the acute angle end of the anti-seismic hook.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the lower guide groove in the step 2) is in a concave shape, and the width of the inner opening is equal to the width of the transverse section of the structure body; the thickness of the side surface of the lower guide groove is the same as that of the decorative panel; bolt holes are arranged on the bottom surface of the lower guide groove at equal intervals.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the decoration panel is connected with the structural bodies through gluing or nailing, or a connecting piece is arranged in a groove at the splicing position of the adjacent structural bodies and connected with the assembly panel.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the lower guide groove in the step 4) consists of a side edge mounting section and a tooth joint section along the length direction; the side edge installation comprises a bottom plate and a side edge, wherein trapezoidal tooth openings with long inner edges and short outer edges are arranged on the bottom plate at equal intervals; gaps are reserved on the side edges at equal intervals, and bolt holes are arranged at the gaps; the tooth joint section consists of a tooth projection corresponding to the trapezoidal tooth mouth of the side edge mounting section and one side edge; when the side edge installation section is installed, the bolt is firstly used for fixing the side edge installation section, and then the tooth projection of the tooth connection section is installed in place corresponding to the tooth opening from top to bottom.

The installation method of the partition board with good anti-seismic performance further comprises the following steps: the pinch plate is arranged at the top of the decorative panel and is in an L shape which rotates 90 degrees clockwise, and a spring body is arranged between the lower part of the horizontal edge and the top of the decorative panel; when the spring body is installed, the horizontal section of the pinch plate extends into a gap between the decorative panel and the building structure, and the spring body is clamped into the decorative panel to be fixed in place; the skirting board is in a T shape which rotates 90 degrees anticlockwise, and a spring body is arranged between the upper part of the horizontal edge and the bottom of the decoration panel; when the spring body is installed, the horizontal section of the pinch plate extends into a gap between the decorative panel and the guide groove at the lower part, and the spring body is clamped into the decorative panel to be fixed in place.

The installation method of the partition board with good anti-seismic performance can also comprise the following steps: one decorative panel on one side of the head sealing section protrudes and extends for a section; the decoration panel of the end socket matching section is internally contracted by one section; the length of the protruding section is consistent with that of the retracted section.

Compared with the prior art, the invention has the following beneficial effects:

1. the structure body has better rigidity, regular shape and easy splicing, and can also be formed into wall body combined sections with different lengths according to requirements, and a cavity in the structure body can be filled with a filling body so as to achieve the functions of heat preservation and sound insulation.

2. The decoration panel and the structural bodies can be connected through gluing or nailing at the binding surfaces, or can be connected with the assembly panel through arranging the connecting piece in the groove formed at the splicing position of the adjacent structural bodies, thereby providing multiple choices for the selection of decoration panel materials.

3. The wall body can be fixed in position through the upper clamping groove and the lower guiding groove, meanwhile, due to the effects of the guiding grooves and the clamping grooves, the verticality of the wall body does not need to be controlled when the wall body is installed, construction is convenient and rapid, meanwhile, each wall body combined section can be mutually embedded, the wall body can be tightly spliced, and through seams can be avoided.

4. The hanging rope is clamped into the anti-seismic hook, and the hanging rope is not easy to fall off from the anti-seismic hook, so that under the action of earthquake load, after the partition wall fixing piece is damaged, the hanging rope can immediately take effect, the wall board is hung, the collapse of the partition wall board is avoided, and casualty accidents are prevented.

5. The combined partition wall is adopted, and the wall body can be disassembled and assembled again according to the requirements after being installed, so that convenience is provided for the re-partition of the space in a building, the utilization rate of the partition wall is improved, and the waste of materials is avoided.

6. The lower guide groove of the head sealing section is skillfully arranged, after the head sealing section is installed, the head sealing section is lifted upwards to install the installation section, then the tooth joint section is inserted from the bottom of the head sealing section and installed to form a complete lower guide groove, and then the lower head sealing section is placed to complete the installation of the head sealing section.

7. The spring body arranged on the pinch plate and the skirting board better solves the problem of fixing the pinch plate and the skirting board, and provides convenient conditions for nondestructive dismounting in the future.

[ description of the drawings ]

Fig. 1 is a schematic view of the assembled partition board with good seismic performance of the invention after installation.

Fig. 2 is a schematic structural view of the partition plate of fig. 1.

Fig. 3 is a schematic view of the wall of fig. 2.

Fig. 4 is a top view of the wall of fig. 2.

Fig. 5 is a cross-sectional view of the wall of fig. 3 taken along a-a (without the filling body).

Fig. 6 is a plan view of the upper card slot of fig. 2.

Fig. 7 is a cross-sectional view taken along line B-B of fig. 6.

FIG. 8 is a schematic plan view of the lower guide groove in step 2) of the present invention.

FIG. 9 is a schematic plan view of the lower guide groove in step 4) of the present invention.

Fig. 10 is a side view of fig. 9.

Fig. 11 is an exploded view of the wall when not spliced.

[ detailed description ] embodiments

Referring to the attached drawings 1 to 11 in the specification, the invention relates to a method for installing a partition board with good earthquake resistance, wherein the partition board is formed by installing a wall body 1, an upper clamping groove 2, a lower guide groove 3, a buckle plate 4, a skirting board 5 and the like.

The wall body 1 is formed by splicing 1 starting section 10, a plurality of standard combination sections 20, 1 head sealing section 30 and 1 head sealing matching section 40, and only one standard combination section 20 is shown in fig. 11.

Each

wall section

10, 20, 30, 40 is comprised of a trim panel 11, a structural body 12, a filler 13, and a suspension cord 14. The structural body 12 is a columnar structure and is sequentially spliced. In the present embodiment, the individual structural bodies 12 have a regular octagonal columnar structure, and the joint surfaces 121 of the adjacent structural bodies 12 are connected by bolts or rivets to form the integral structural body 12.

One decorative panel 11 at one side of the head sealing section 30 protrudes; the decorative panel 11 of the end socket matching section 40 is contracted inwards by one section; the length of the protruding section is consistent with that of the retracted section.

The filling body 13 is filled in the cavity of the structure body 12 to improve the performance of the wall body 1 such as sound insulation or heat preservation.

The decoration panel 11 is fixed on the outer side surface of the structure body 12, specifically, the decoration panel 11 and the structure body 12 can be connected through gluing or nailing at the outer side surface 123, or can be connected with the assembly panel 11 through arranging a connecting piece in the groove 124 formed at the splicing position of the adjacent structure bodies, thereby providing multiple choices for selecting the material of the decoration panel 11.

Further, the splicing surface 121 of the structural body 12 is provided with a section of protrusion 1211 at the top of the structural body 12. One end of the structural body 12 protrudes out of the decorative panel 11 to form a protruding end 15; the other end of the structural body 12 is recessed into the decorative panel 11 to form a cavity end 16, so that the protruding end 15 of the adjacent structural body 12 is embedded into the cavity end 16, wall body combined sections with different lengths can be formed according to requirements, the wall bodies can be tightly spliced, and a seam can be prevented.

The cords 14 are disposed on top of the structure 12, and specifically, the cords 14 are disposed on top of the protrusions 1211.

The upper clamping groove 2 is clamped at the upper part of the wall body 1, an anti-seismic hook 22 is arranged on the upper clamping groove, and the suspension rope 14 is hung on the anti-seismic hook 22. Specifically, the upper card slot 2 is in a reversed concave shape, the width of the inner opening of the upper card slot is equal to the width of the protrusion 1211, the height of the inner opening is greater than the height of the protrusion 1211, and the upper card slot is clamped on the protrusion 1211; the upper clamping groove 2 is provided with a bolt hole 211.

The anti-seismic hook 22 is in a combined shape of a right angle and an inverted V shape; a right-angle side 222 is connected with the building beam through a bolt hole 211 of the upper clamping groove 2 by a bolt, and the upper clamping groove 2 is also fixed by the bolt; the other cathetus 222 connects to a hypotenuse 223 of the inverted V to form a downwardly pointing acute end 224. The cord 14 snaps into the acute end 224. The top of the inverted V shape is abutted against the bottom surface of the upper clamping groove 2. Because of the anti-seismic hook 22 in the inverted V shape, the suspension rope 14 is not easy to fall off from the anti-seismic hook 22, so that under the action of earthquake load, after the partition wall fixing part is damaged, the suspension rope 14 can immediately take effect to suspend the wall plate 1, the collapse of the partition wall plate is avoided, and casualty accidents are prevented.

The installation method of the partition board comprises the following steps:

1) a through long upper clamping groove 3 is arranged below the building structure beam;

2) installing a lower guide groove 4 corresponding to the starting section 10, the standard combined section 20 and the end socket matching section 30;

3) installing a head section 10, then sequentially installing each standard combined section 20 and a head matching section 30, so that the bottom of the standard combined section is embedded into the lower guide groove 4, the upper bulge is clamped into the upper clamping groove 3, and the suspension rope 14 is clamped into the anti-seismic hook 22;

4) mounting a lower guide groove 3' of the head sealing section, and then mounting a head sealing section 40;

5) a buckle plate 4 is arranged at the top of the wall body 1, and a skirting board 5 is arranged at the lower part of the wall body 1 to complete the installation of the partition board.

Wherein, the lower guide groove 3 in the step 2) is clamped at the bottom of the wall body 1. Specifically, the lower guide groove 3 is in a concave shape, and the width of an inner opening is equal to the width of the transverse section of the structural body 12; the thickness of the side surface 31 of the lower guide groove 3 is the same as that of the decorative panel 11. The lower surface 32 of the lower channel 3 is provided with bolt holes 321 at equal intervals.

The lower guide groove 3 ' in the step 4) is composed of a side edge mounting section 32 ' and a tooth joint section 31 ' along the length direction. The side edge installation 2 'comprises a bottom plate 321' and a side edge 322 ', wherein trapezoidal tooth openings (not numbered) with long inner edges and short outer edges are arranged on the bottom plate 321' at equal intervals; the side edges 322 'are provided with notches at equal intervals, and bolt holes 323' are arranged at the notches. The toothing section 31 ' is composed of a serration 311 ' corresponding to the trapezoidal tooth opening of the side mounting section and a side edge 312 '. The installation method of the lower guide groove 3' in the step 4) is as follows: the side mounting section 32 'is fixed by bolts, and then the tooth protrusions 311' of the tooth connecting section are mounted in position corresponding to tooth openings from top to bottom. Specifically, after the head sealing section 40 is installed, the head sealing section 40 is lifted upwards, then the side installation section 32 ' can be installed, then the tooth connecting section 31 ' is inserted from the bottom of the head sealing section 40 and installed, a complete lower guide groove 3 ' is formed, then the head sealing section 40 is placed, and then the installation of the head sealing section 40 is completed. The installation effect is not different from other combined sections, the sequential problems of installation are well solved, and in addition, convenience is provided for future lossless dismounting.

According to the invention, the position of the wall body 1 can be fixed through the upper clamping groove 2 and the lower guide groove 3, and meanwhile, due to the action of the upper clamping groove 2 and the lower guide groove 3, the wall body 1 does not need to be controlled in the perpendicularity during installation, so that the construction is convenient and rapid.

Further, the buckle plate 4 is arranged at the top of the decorative panel 11 and is in an L shape which rotates 90 degrees clockwise, and a spring body 6 is arranged between the lower part of the horizontal edge and the top of the decorative panel 11. The installation method of the pinch plate 4 is as follows: the horizontal section of the pinch plate extends into a gap between the decorative panel 11 and the building structure, and the spring body 6 is clamped into the decorative panel 11 to be fixed in place.

The skirting board 5 is in a T shape which rotates 90 degrees anticlockwise, and a spring body 6 is arranged between the upper part of the horizontal edge and the bottom of the decoration panel 11. The installation method of the skirting board 5 is as follows: the horizontal section of the pinch plate extends into the gap between the decorative panel 11 and the lower guide groove 3, and then the spring body 6 is clamped into the decorative panel 11 to be fixed in position. Through setting up spring body 6, better solved buckle 4 and baseboard 5's fixed problem, also provide convenient condition for harmless demolising in future simultaneously.

The above embodiments are merely preferred embodiments of the present disclosure, which are not intended to limit the present disclosure, and any modifications, equivalents, improvements and the like, which are within the spirit and principle of the present disclosure, should be included in the scope of the present disclosure.

Claims

1. The installation method of the partition board with good anti-seismic performance is characterized by comprising the following steps: the partition board comprises a wall body, an upper clamping groove, a lower guide groove, a buckle plate and a skirting board; the wall body is formed by splicing 1 starting section, a plurality of standard combined sections, 1 sealing head section and 1 sealing head matching section; each wall section of the wall body comprises a decoration panel, a structural body, a filling body and a suspension rope; the structural bodies are in columnar structures and are sequentially spliced; the filling body is filled in the cavity of the structural body; the decorative panel is fixed on the outer side surface of the structure body; the suspension rope is arranged at the top of the structure body; an anti-seismic hook is arranged on the upper clamping groove;

the anti-seismic hook is in a combined shape of a right angle and an inverted V shape; one right-angle side is connected with the building beam through a bolt hole of the upper clamping groove by a bolt, and the bolt also fixes the upper clamping groove; the other right-angle side is connected with one bevel edge of the inverted V shape to form a downward acute-angle end; the top of the inverted V shape is abutted against the bottom surface of the upper clamping groove; the suspension rope is clamped into the acute angle end of the anti-seismic hook;

5) the top of the wall body is provided with a buckle plate, and the lower part of the wall body is provided with a skirting board to finish the installation of the partition board;

the lower guide groove in the step 4) consists of a side edge mounting section and a tooth joint section along the length direction; the side edge installation comprises a bottom plate and a side edge, wherein trapezoidal tooth openings with long inner edges and short outer edges are arranged on the bottom plate at equal intervals; gaps are reserved on the side edges at equal intervals, and bolt holes are arranged at the gaps; the tooth joint section consists of a tooth projection corresponding to the trapezoidal tooth mouth of the side edge mounting section and one side edge; the installation method of the guide groove at the lower part of the head sealing section comprises the following steps: the side edge mounting section is fixed by a bolt, and then the tooth projection of the tooth connecting section is mounted in place corresponding to the tooth opening from top to bottom.

2. The method for installing the partition board with good seismic performance according to claim 1, wherein: the single structural body is in a regular octagonal columnar structure, and splicing surfaces of adjacent structural bodies are connected through bolts or riveting to form an integral structural body.

3. The method for installing the partition board with good seismic performance according to claim 1, wherein: the splicing surface of the structure body is provided with a section of bulge at the top of the structure body; the suspension rope is arranged at the top of the protrusion; one end of the structural body protrudes out of the decorative panel to form a protruding end; the other end of the structure is recessed into the decorative panel to form a cavity end, so that the protruding ends of adjacent structures are embedded into the cavity end.

4. The method for installing the partition board with good seismic performance according to claim 3, wherein: the upper clamping groove is in an inverted concave shape, the width of an inner opening of the upper clamping groove is equal to that of the protrusion, the height of the inner opening of the upper clamping groove is larger than that of the protrusion, and the upper clamping groove is clamped on the protrusion; the upper clamping groove is provided with a bolt hole.

5. The method for installing the partition board with good seismic performance according to claim 1, wherein: the lower guide groove in the step 2) is in a concave shape, and the width of the inner opening is equal to the width of the transverse section of the structure body; the thickness of the side surface of the lower guide groove is the same as that of the decorative panel; bolt holes are arranged on the bottom surface of the lower guide groove at equal intervals.

6. The method for installing the partition board with good seismic performance according to claim 1, wherein: the decoration panel is connected with the structural bodies through gluing or nailing, or a connecting piece is arranged in a groove at the splicing position of the adjacent structural bodies and connected with the assembly panel.

7. The method for installing the partition board with good seismic performance according to claim 1, wherein: the pinch plate is arranged at the top of the decorative panel and is in an L shape which rotates 90 degrees clockwise, and a spring body is arranged between the lower part of the horizontal edge and the top of the decorative panel; the installation method of the buckle plate comprises the following steps: the horizontal section of the pinch plate extends into a gap between the decorative panel and the building structure, and then the spring body is clamped into the decorative panel to be fixed in place; the skirting board is in a T shape which rotates 90 degrees anticlockwise, and a spring body is arranged between the upper part of the horizontal edge and the bottom of the decoration panel; the installation method of the skirting board comprises the following steps: the horizontal section of the pinch plate extends into the gap between the decorative panel and the guide groove at the lower part, and then the spring body is clamped into the decorative panel to be fixed in place.

8. The method for installing the partition board with good seismic performance according to claim 1, wherein: one decorative panel on one side of the head sealing section protrudes and extends for a section; the decoration panel of the end socket matching section is internally contracted by one section; the length of the protruding section is consistent with that of the retracted section.