阅读说明：本技术 一种龙骨安装结构 (Keel mounting structure ) 是由 裴旭 杨大平 王献 朱快 徐廷博 陈子豪 于斌 于 2020-12-03 设计创作，主要内容包括：本发明公开了一种龙骨安装结构,该结构将隔墙龙骨间隔交错布置,延长振动的传递路径,并通过分流作用将集中振动被分散消减。通过在竖向龙骨上设置减震垫,进一步将振动抵消,有效提高隔墙的隔声减震效果。采用B1级挤塑板与岩棉复合而成的填充块、截面设置成与竖向龙骨截面相吻合的C形开口、开口内侧三面设置减震垫,提高填充效果,并减少振动传递。采用无纺布对填充块外露岩棉的四个面进行满粘包封,避免岩棉碎屑扩散,安全环保。采用配套的固定件用于安装水电管件,相对于传统隔墙结构的水电安装方式,更加牢固,且操作方便。固定件设有不同长度,以适用于不同的安装位置。(The invention discloses a keel mounting structure, which arranges partition keels at intervals in a staggered manner, prolongs the transmission path of vibration, and disperses and reduces concentrated vibration through the shunting action. Through set up the shock pad on vertical fossil fragments, further offset vibration, effectively improve the sound insulation shock attenuation effect of partition wall. The packing block formed by compounding the B1-grade extruded sheet and the rock wool has the C-shaped opening with the cross section matched with the cross section of the vertical keel, and the shock absorption pads are arranged on three inner sides of the opening, so that the packing effect is improved, and the vibration transmission is reduced. Adopt the non-woven fabrics to expose four faces of rock wool to the obturator and fully glue the enclosuring, avoid rock wool piece diffusion, safety ring protects. Adopt supporting mounting to be used for installing water and electricity pipe fitting, for the water and electricity mounting means of traditional partition wall structure, it is more firm, and convenient operation. The fixing pieces are provided with different lengths so as to be suitable for different installation positions.)

1. A keel mounting structure, comprising:

the vertical keels are provided with a frame structure which is formed by enclosing two side edges and a back edge and has an opening at one end; a transverse keel mounting hole is formed in the position, deviating from the central axis, of the back side, and the transverse keel mounting hole is used for realizing the insertion connection of the vertical keel and the transverse keel; two adjacent vertical keels are arranged upside down and in a staggered manner so that the transverse keel mounting holes contained in each vertical keel are positioned on the same straight line;

the horizontal keel, the horizontal keel passes each horizontal keel mounting hole that each vertical keel contained separately in proper order and realizes pegging graft with each vertical keel and link to each other to make the vibration diffusion that acts on a certain vertical keel reach the purpose of extension vibration transmission route to two adjacent vertical keels.

2. The keel mounting structure of claim 1, wherein the vertical keel comprises two shock absorbing pieces, one end surface of each of the two shock absorbing pieces is abutted against and fixedly connected with the surface of the back side; and the opposite surfaces of the two damping sheets are respectively provided with a damping pad, and the damping pads are used for abutting against the surfaces of the transverse keels inserted in the transverse keel mounting holes.

3. The keel mounting structure of claim 2, wherein said cross keel mounting hole has a rectangular configuration, and two of said shock absorbing tabs are located at two opposite hole-edge locations of said cross keel mounting hole, respectively.

4. The keel mounting structure of claim 3, wherein opposite respective surfaces of two said shock absorbing tabs are flush with respective end surfaces of opposite hole edges of said cross keel mounting hole.

5. The keel mounting structure of claim 1, wherein a fixing member is connected between two adjacent vertical keels, and the fixing member is used for realizing the fixed mounting of a water pipe, a switch box and/or a socket box.

6. The keel mounting structure according to claim 5, wherein the fixing member includes a fixing member main body including a first connecting portion and a second connecting portion in a perpendicular state to each other, the first connecting portion having a first mounting hole formed therein, the second connecting portion having a second mounting hole formed therein;

the two adjacent vertical keels comprise a first vertical keel and a second vertical keel; the first connecting part is used for abutting against the back side of the first vertical keel so as to realize the connection of the fixing part main body and the first vertical keel through the first mounting hole and a screw; the second connecting portion are used for being abutted against the side edge of the second vertical keel so as to realize connection of the fixing piece main body and the second vertical keel through the second mounting hole and the screw.

7. The keel mounting structure of claim 6, further comprising a tube clamp, both ends of said tube clamp being connected to said fixture body by screws; the groove of the pipe clamp is used for limiting the water pipe between the pipe clamp and the fixing part main body.

8. The keel mounting structure of claim 1, wherein the interior of the vertical keel is filled with a filler block, the filler block comprising a filler block body comprising a first extruded sheet, a second extruded sheet, and a rock wool layer compounded between the first extruded sheet and the second extruded sheet; the first extruded sheet is inwards sunken to form a C-shaped opening extending along the length direction of the filling block main body; and the two sides and the upper and lower sides of the filling block main body are formed with non-woven fabric layers in a fully-adhesive and enveloping manner.

9. The keel mounting structure of claim 8, wherein said first extruded sheet and said second extruded sheet are both B1 grade extruded sheets.

10. The keel mounting structure of claim 8, wherein said C-shaped opening has a cross-sectional dimension that is the same as a cross-sectional dimension of a vertical keel to be connected; and shock absorption pads are formed on three surfaces contained in the C-shaped openings.

Technical Field

The invention relates to the technical field of assembly type building materials, in particular to a keel mounting structure.

Background

The application of the light steel keel partition wall in interior architectural decoration engineering is more and more common, and the light steel keel partition wall has the advantages of convenience in construction, environmental friendliness and convenience in disassembly and modification, but also has the obvious defects.

Traditional light gauge steel partition wall fossil fragments are the in-line range, and the vibration can directly pass through vertical fossil fragments from one side gypsum board and directly transmit the another side gypsum board, and sound insulation shock attenuation effect is poor, the cavity sense is obvious.

Traditional partition wall adopts soft rock wool as filler material usually, and the rock wool piece scatters in the air in the installation, influences the healthy of operation personnel, and installs back in the partition wall, because its setting effect is poor, can slump gradually, presents more cavity, seriously influences the syllable-dividing shock attenuation effect of partition wall.

Usually, in order to improve the sound insulation and shock absorption effects of the partition wall, the thickness of the partition wall and the thickness and the number of layers of the surface layer plate need to be increased, so that the partition wall not only occupies the indoor space, but also is complex to install and wastes materials, and the shock absorption effect is not ideal.

Disclosure of Invention

The invention provides a keel mounting structure.

The invention provides the following scheme:

a keel mounting structure, comprising:

the vertical keels are provided with a frame structure which is formed by enclosing two side edges and a back edge and has an opening at one end; a transverse keel mounting hole is formed in the position, deviating from the central axis, of the back side, and the transverse keel mounting hole is used for realizing the insertion connection of the vertical keel and the transverse keel; two adjacent vertical keels are arranged upside down and in a staggered manner so that the transverse keel mounting holes contained in each vertical keel are positioned on the same straight line;

the horizontal keel, the horizontal keel passes each horizontal keel mounting hole that each vertical keel contained separately in proper order and realizes pegging graft with each vertical keel and link to each other to make the vibration diffusion that acts on a certain vertical keel reach the purpose of extension vibration transmission route to two adjacent vertical keels.

Preferably: the vertical keel comprises two damping sheets, and one end face of each of the two damping sheets is abutted against and fixedly connected with the surface of the back side; and the opposite surfaces of the two damping sheets are respectively provided with a damping pad, and the damping pads are used for abutting against the surfaces of the transverse keels inserted in the transverse keel mounting holes.

Preferably: the transverse keel mounting hole is of a rectangular structure, and the two damping sheets are respectively located at two hole edge positions opposite to the transverse keel mounting hole.

Preferably: the opposite surfaces of the two damping sheets are flush with the respective end surfaces of the two hole edges opposite to the transverse keel mounting hole respectively.

Preferably: two adjacent vertical keels are connected with the mounting between, the mounting is used for realizing the fixed mounting of water pipe, switch box and/or socket box.

Preferably: the fixing piece comprises a fixing piece main body, wherein the fixing piece main body comprises a first connecting part and a second connecting part which are perpendicular to each other, a first mounting hole is formed in the first connecting part, and a second mounting hole is formed in the second connecting part;

the two adjacent vertical keels comprise a first vertical keel and a second vertical keel; the first connecting part is used for abutting against the back side of the first vertical keel so as to realize the connection of the fixing part main body and the first vertical keel through the first mounting hole and a screw; the second connecting portion are used for being abutted against the side edge of the second vertical keel so as to realize connection of the fixing piece main body and the second vertical keel through the second mounting hole and the screw.

Preferably: the pipe clamp is characterized by further comprising a pipe clamp, wherein two ends of the pipe clamp are connected with the fixing piece main body through screws; the groove of the pipe clamp is used for limiting the water pipe between the pipe clamp and the fixing part main body.

Preferably: the interior of the vertical keel is filled with a filling block, the filling block comprises a filling block main body, and the filling block main body comprises a first extruded sheet, a second extruded sheet and a rock wool layer compounded between the first extruded sheet and the second extruded sheet; the first extruded sheet is inwards sunken to form a C-shaped opening extending along the length direction of the filling block main body; and the two sides and the upper and lower sides of the filling block main body are formed with non-woven fabric layers in a fully-adhesive and enveloping manner.

Preferably: the first extruded sheet and the second extruded sheet are both B1-grade extruded sheets.

Preferably: the size of the cross section of the C-shaped opening is the same as that of the cross section of the vertical keel to be connected; and shock absorption pads are formed on three surfaces contained in the C-shaped openings.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

according to the invention, a keel mounting structure can be realized, and in an implementation mode, the structure can comprise a plurality of vertical keels connected with a fixed object, wherein each vertical keel is provided with a frame structure which is formed by enclosing two side edges and a back edge and has an opening at one end; a transverse keel mounting hole is formed in the position, deviating from the central axis, of the back side, and the transverse keel mounting hole is used for realizing the insertion connection of the vertical keel and the transverse keel; two adjacent vertical keels are arranged upside down and in a staggered manner so that the transverse keel mounting holes contained in each vertical keel are positioned on the same straight line; the horizontal keel, the horizontal keel passes each horizontal keel mounting hole that each vertical keel contained separately in proper order and realizes pegging graft with each vertical keel and link to each other to make the vibration diffusion that acts on a certain vertical keel reach the purpose of extension vibration transmission route to two adjacent vertical keels. The application provides a fossil fragments mounting structure with partition wall fossil fragments interval staggered arrangement, prolongs the transmission path of vibration to will concentrate the vibration through the reposition of redundant personnel effect and be dispersed and subduct. Through set up the shock pad on vertical fossil fragments, further offset vibration, effectively improve the sound insulation shock attenuation effect of partition wall. The packing block formed by compounding the B1-grade extruded sheet and the rock wool has the C-shaped opening with the cross section matched with the cross section of the vertical keel, and the shock absorption pads are arranged on three inner sides of the opening, so that the packing effect is improved, and the vibration transmission is reduced. Adopt the non-woven fabrics to expose four faces of rock wool to the obturator and fully glue the enclosuring, avoid rock wool piece diffusion, safety ring protects. Adopt supporting mounting to be used for installing water and electricity pipe fitting, for the water and electricity mounting means of traditional partition wall structure, it is more firm, and convenient operation. The fixing pieces are provided with different lengths so as to be suitable for different installation positions.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Figure 1 is a schematic structural view of a keel mounting structure provided in an embodiment of the invention;

figure 2 is a schematic structural view of a vertical keel provided by an embodiment of the invention;

FIG. 3 is a cross-sectional view taken along plane A-A in accordance with an embodiment of the present invention;

FIG. 4 is a cross-sectional view taken along plane B-B in accordance with an embodiment of the present invention;

figure 5 is a schematic structural view of a cross runner provided by an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a main body of a fixing member according to an embodiment of the present invention;

FIG. 7 is a front view of a fastener body provided in accordance with an embodiment of the present invention;

FIG. 8 is a cross-sectional view taken along plane C-C provided by an embodiment of the present invention;

FIG. 9 is a schematic structural view of a fixing member for fixing a water pipe according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a fixing member for fixing a switch box and a socket box according to an embodiment of the present invention;

FIG. 11 is a schematic structural diagram of a filler block body according to an embodiment of the present invention;

FIG. 12 is a schematic cross-sectional view of a body of a spacer provided in accordance with an embodiment of the present invention;

FIG. 13 is a schematic view of the installation state of the filling block main body according to the embodiment of the present invention;

fig. 14 is a structural view illustrating a conventional partition keel coupling method.

In the figure: vertical fossil fragments 1, side 11, back 12, horizontal fossil fragments mounting hole 121, shock attenuation piece 13, shock pad 14, horizontal fossil fragments 2, mounting main part 3, first connecting portion 31, first mounting hole 311, second connecting portion 32, second mounting hole 321, screw mounting groove 322, pipe strap 4, screw 5, water pipe 6, switch box 7, socket box 8, obturator main part 9, first extruded sheet 91, C type opening 911, second extruded sheet 92, rock wool layer 93, non-woven fabrics layer 94, shock pad 95, panel layer 100.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Examples

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, a keel mounting structure provided by an embodiment of the invention comprises a plurality of vertical keels 1 connected with a fixed object, wherein each vertical keel 1 is provided with a frame structure which is formed by two sides 11 and a back 12 which are enclosed together and is open at one end, as shown in fig. 1, 2, 3 and 4; a transverse keel mounting hole 121 is formed in the position, deviating from the central axis, of the back side 12, and the transverse keel mounting hole 121 is used for realizing the insertion connection of the vertical keel 1 and the transverse keel 2; two adjacent vertical keels 1 are arranged upside down and in a staggered manner so that the installation holes of the transverse keels 2 contained in each vertical keel 1 are positioned on the same straight line; when the vertical keel is actually manufactured, a metal plate can be processed and manufactured through a bending process. The metal plate can be made of steel plate, aluminum alloy plate and the like. The transverse keel mounting holes are located at positions deviated from the central axis of the keel main body, the deviated directions can be selected to be deviated to the left or the right, and the deviation directions and the distances of all the transverse keel mounting holes are the same. The purpose of making horizontal fossil fragments mounting hole be located deviating from its axle position on the back is in order to realize can linking to each other with same horizontal fossil fragments after arranging vertical fossil fragments staggered arrangement, adopts vertical fossil fragments staggered arrangement's purpose for the transmission route of extension vibration to will concentrate the vibration and be dispersed and subduct through the reposition of redundant personnel effect. Simultaneously through set up the shock pad on vertical fossil fragments, further offset vibration, effectively improve the sound insulation shock attenuation effect of partition wall.

The horizontal keel 2, as shown in fig. 5, the horizontal keel 2 sequentially passes through the horizontal keel mounting hole 121 that each vertical keel 1 contains respectively and is connected with each vertical keel 1 in an inserting manner, so that the vibration acting on a certain vertical keel 1 is diffused to two adjacent vertical keels 1 to prolong the vibration transmission path.

As shown in fig. 14, the transmission path of vibration in the conventional partition wall keel system: the 1 st surface plywood → vertical keel → the 2 nd surface plywood, the transfer path is short and direct, and all be rigid connection, no buffering, and the whole sound insulation shock attenuation effect of wall body is relatively poor.

As shown in fig. 1, the transmission path of vibration in the partition wall keel mounting structure provided in the present application is: 1 st face plate → 1 st vertical keel → 1 st keel cushion → transverse keel (through transverse diversion) → 2 nd, 3 rd vertical keel cushion → 2 nd, 3 rd vertical keel → 2 nd face plate.

In contrast, the following: the vibration transmission path is greatly prolonged, so that the vibration is obviously attenuated in the transmission process; through shunting, the vibration received by one vertical keel is diffused to two adjacent keels, so that the concentrated vibration of a certain point is uniformly diffused and reduced, and the influence caused by vibration is reduced; through the multiple damping action of the damping pad in the transmission route, the transmission of sound and vibration is greatly reduced.

It should be noted that under the unchangeable condition of partition wall thickness, this structure fossil fragments cross-section reduces than traditional cross-section, reduces the material of single fossil fragments, nevertheless for guaranteeing the overall stability of partition wall, need reduce the fossil fragments interval.

Further, the vertical keel 1 comprises two damping sheets 13, and one end surface of each of the two damping sheets 13 is abutted against and fixedly connected with the surface of the back side 12; the two shock absorbing sheets 13 are formed with shock absorbing pads 14 on their respective opposite surfaces, and the shock absorbing pads 14 are used for abutting against the surfaces of the cross keels 2 inserted into the cross keel mounting holes 121. The cross keel mounting hole 121 may have a rectangular structure, and the two shock absorbing pieces are respectively located at two opposite hole edges of the cross keel mounting hole. The opposite surfaces of the two damping sheets are flush with the respective end surfaces of the two hole edges opposite to the transverse keel mounting hole respectively.

In practical application, the transverse keel mounting hole has a rectangular structure, and the two damping sheets are respectively located at two hole edge positions opposite to the transverse keel mounting hole. The rectangular transverse keel mounting hole can ensure that the adaptation has the transverse keel with a rectangular cross section, so that the problem of relative rotation between the vertical keel and the transverse keel after the vertical keel and the transverse keel are continuously spliced can be avoided. In order to facilitate the processing and manufacturing of the shock absorption sheets, the surfaces of the two shock absorption sheets opposite to each other are flush with the end surfaces of the two hole edges opposite to the transverse keel mounting hole respectively. In actual manufacturing, two damping sheets can be formed by punching and reserving edges. And punching by adopting a tool at a proper position while ensuring that blanking in the hole forms two parts, the respective end parts of the two parts are not cut off from the main body, and then bending the two reserved parts in the same direction to form two damping sheets. Further, the shock pad is an elastic plate body with a certain thickness. The shock pad can be made of a plate body made of elastic materials such as resin, sponge, plastic and the like. This shock pad and horizontal fossil fragments contact the back, can with horizontal fossil fragments because the vibration that the noise produced is effectual to be eliminated, the vibration that prevents the noise production is transmitted along horizontal fossil fragments, reaches the effect of making an uproar of falling. The vertical keel is provided with a transverse keel mounting hole at a position deviating from the center shaft, shock absorption sheets are arranged on two sides of the hole, and shock absorption pads are arranged on the inner sides of the shock absorption sheets and used for reducing vibration transmission between the vertical keel and the transverse keel and playing a role in sound insulation and noise reduction. The vertical interval between the adjacent horizontal mounting holes is uniform, the interval is equal to the height of the U-shaped filler, and the U-shaped filler can be smoothly filled.

In practical application, in order to further improve the sound insulation and noise reduction performance of the structure, the transverse keel mounting hole comprises a plurality of transverse keel mounting holes which are arranged at intervals along the length direction of the keel main body. Can guarantee through a plurality of mounting holes that set up with being connected of many horizontal keels, the vibration of every horizontal keel of effectual separation simultaneously. In order to facilitate the installation of the filler in the vertical keel, the purpose of further sound insulation and noise reduction is achieved, and the distance between every two adjacent transverse keel installation holes is equal to the height of the U-shaped filler.

When the self-tapping keel is used specifically, the vertical keel is mounted on the inner side of the ceiling keel through self-tapping screws, and the keels are arranged at intervals in a staggered mode. The vertical keels are turned upside down, and the vertical keels are respectively used for installing the first row of vertical keels and the second row of vertical keels before and after the vertical keels are turned upside down, so that after the first row of keels and the second row of keels are installed in a staggered mode, the transverse keel installing holes are located on the same straight line.

In order to facilitate the installation of the water pipe, the equal parts and the vertical keel, as shown in fig. 6, 7, 8, 9 and 10, the fixing member includes a fixing member main body 3, the fixing member main body 3 includes a first connecting portion 31 and a second connecting portion 32 which are perpendicular to each other, a first installation hole 311 is formed on the first connecting portion 31, and a second installation hole 321 is formed on the second connecting portion 32;

the two adjacent vertical keels comprise a first vertical keel and a second vertical keel; the first connecting part 31 is used for abutting against the back side of the first vertical keel so as to connect the fixing piece main body with the first vertical keel through the first mounting hole 311 and the screw 5; the second connecting portion 32 is used for abutting against the side edge of the second vertical keel so as to connect the fixing member main body with the second vertical keel through the second mounting hole 321 and the screw 5.

The application provides a mounting main part can form L type structure, and both ends link to each other with the back of the body limit and the side of the vertical fossil fragments that correspond respectively, and the installation is firm reliable and convenient operation. In order to be connected with a water pipe conveniently, the water pipe fixing device further comprises a pipe clamp 4, and two ends of the pipe clamp 4 are connected with the fixing part main body 3 through screws; the groove of the pipe clamp 4 is used for limiting the water pipe 6 between the pipe clamp 4 and the fixing part main body 3. In order to improve the application range of the pipe clamp 4, the width of the groove is determined according to the outer diameter of the water pipe. The groove has a U-shaped structure. The pipe strap can be in the form of a horseback strap, and a horseback strap which is commercially available and can be fixed with a water pipe can be selected when the pipe strap is used. After the fixing part main body and the vertical keel are connected and completed, the pipe clamp, the water pipe and the fixing part main body can be fixed by the self-tapping screws, the installation positions of the pipe clamp and the fixing part main body are not limited specifically, and the pipe clamp and the fixing part main body can be determined on site as required.

Furthermore, the length of the fixing part main body can be ensured to be suitable for various occasions. The length of the second connecting portion is determined according to the distance between the first vertical keel and the second vertical keel. The fixing member main body can also be used for realizing the fixing of other members to be fixed, and particularly, the surface of the second connecting part 32 is used for realizing the connection with the switch box 7 and/or the socket box 8.

Further, the second connecting portion may be further formed with a screw mounting groove 322, and the bolt mounting groove 322 is used for providing vertical restraint for screw mounting when the pipe clamp is mounted. The screw mounting groove extends along the long direction of the second connecting portion. The screw mounting groove can provide the restraint of vertical direction for the screw installation when the pipe strap of installation water and electricity pipe fitting, prevents that screw point portion from taking place to slide when the installation, reduces the operation degree of difficulty to ensure that the screw installation is located same height, improve water and electricity pipe fitting installation accuracy. Meanwhile, the mounting groove can improve the overall rigidity of the fixing piece, so that the fixing piece is not easy to deform under stress, and the mounting quality of the water and electricity pipe fitting is further ensured.

When the fixing piece is used, the first vertical keel and the second vertical keel are mounted on the inner side of the ceiling keel through self-tapping screws, and the first vertical keel and the second vertical keel are arranged in a staggered mode at intervals. The first vertical keel and the second vertical keel are turned upside down, and the first row of vertical keels and the second row of vertical keels are installed before and after the first vertical keel and the second vertical keel are turned upside down respectively, so that after the first row of keels and the second row of keels are installed in a staggered mode, the transverse keel installation holes are located on the same straight line. Then according to the position of water and electricity pipe fitting, install the mounting main part on corresponding vertical keel through the self tapping screw, adopt the pipe strap to install the water and electricity pipe fitting again in the mounting main part. The fixing part main body is provided with different lengths so as to be suitable for different installation positions. The vertical fossil fragments that this mounting had solved traditional partition wall are a style of calligraphy and arrange, the problem of installation mounting not convenient for. The vertical keels are arranged in a staggered mode, two ends of the specially-made L-shaped fixing piece main body can be fixed to the back side and the side of the corresponding vertical keel respectively, the water pipe is connected with the fixing piece main body through the pipe clamp, connection is firm and reliable, and operation is convenient. Is worthy of large-area popularization and application.

In order to further achieve the noise reduction effect, the interior of the vertical keel is filled with a filling block, as shown in fig. 9, 11, 12 and 13, the filling block comprises a filling block main body 9, and the filling block main body 9 comprises a first extruded sheet 91, a second extruded sheet 92 and a rock wool layer 93 compounded between the first extruded sheet 91 and the second extruded sheet 92; the first extruded sheet 91 is recessed inwards to form a C-shaped opening 911 extending along the length direction of the filling block main body 9; the non-woven fabric layers 94 are formed on both sides and upper and lower sides of the filling block main body 9 in a fully adhesive and enveloping manner. Both the first extruded sheet 91 and the second extruded sheet 92 may be B1 grade extruded sheets. The size of the cross section of the C-shaped opening is the same as that of the cross section of the vertical keel to be connected; three sides that the C type opening contains all are formed with shock pad 95.

The filling block main body 9 is formed by compounding an extruded sheet and rock wool, combines the shaping advantage of the extruded sheet and the sound insulation and shock absorption advantages of the rock wool, and improves the filling effect of the partition wall. Carry out full sticky envelope with the non-woven fabrics to filling block both sides limit and upper and lower both sides, when improving the filling block wholeness, avoid rock wool piece to scatter into the air, inhaled the health by people and cause harm, healthy environmental protection. The cross section of the filling block is C-shaped, the size of the opening of the C-shaped is matched with that of the cross section of the vertical keel, and shock-absorbing pads are arranged on three sides of the opening, so that the filling block is tightly connected with the keel, and the shock transmission is reduced.

The thickness of the filling block is slightly larger than the width of the top and bottom keel by 1-2mm, so that when the surface plate is arranged on the vertical keel, the surface plate can be tightly attached to the filling block, namely a lining plate of an extruded plate is added to the surface plate, the obvious feeling of thin walls and cavities when the traditional light partition wall is knocked is effectively reduced, and the texture is closer to that of a solid wall. Meanwhile, the rock wool is arranged inside the filling block, so that the filling block has certain elasticity in the thickness direction, and when the surface plate is installed, the filling block can deform under pressure, so that the influence on the flatness of the surface plate due to the fact that the thickness of the filling block is higher than that of the keel is avoided, and the overall quality of the partition wall is further influenced. The extruded sheet has a combustion grade of B1, so that the use safety is ensured.

This packing block simple structure is reasonable, and installation convenient to use can realize with the rapid Assembly of vertical fossil fragments, adopts packing block, the cross-section setting that B1 level extruded sheet and rock wool complex formed to set to with the identical C shape opening in vertical fossil fragments cross-section, the trilateral shock pad that sets up of opening inboard, improves the packing effect to reduce the vibration transmission. Adopt the non-woven fabrics to expose four faces of rock wool to the obturator and fully glue the enclosuring, avoid rock wool piece diffusion, safety ring protects.

In a word, the fossil fragments mounting structure that this application provided, with partition wall fossil fragments interval staggered arrangement, the transmission path of extension vibration to will concentrate the vibration and be subducted by the dispersion through the reposition of redundant personnel effect. Through set up the shock pad on vertical fossil fragments, further offset vibration, effectively improve the sound insulation shock attenuation effect of partition wall. The packing block formed by compounding the B1-grade extruded sheet and the rock wool has the C-shaped opening with the cross section matched with the cross section of the vertical keel, and the shock absorption pads are arranged on three inner sides of the opening, so that the packing effect is improved, and the vibration transmission is reduced. Adopt the non-woven fabrics to expose four faces of rock wool to the obturator and fully glue the enclosuring, avoid rock wool piece diffusion, safety ring protects. Adopt supporting mounting to be used for installing water and electricity pipe fitting, for the water and electricity mounting means of traditional partition wall structure, it is more firm, and convenient operation. The fixing pieces are provided with different lengths so as to be suitable for different installation positions.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a branch … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.