CN204435585U - Sound absorption Thistle board - Google Patents

Abstract

The open a kind of sound absorption Thistle board of the utility model, be provided with multiple perforation along this Paper-faced gyp plate thickness direction, this perforation configuration is: the length of side is the square hole of 12mm; Or the slot of length 80mm, width 6mm; Or the length of side is the regular hexagon hole of 6mm.The utility model is bored a hole by arranging on Thistle board and controls punching rate, improves the acoustically effective of Thistle board.

Description

Sound absorption Thistle board

Technical field

The utility model relates to a kind of Thistle board, is specifically related to a kind of sound absorption Thistle board.

Background technology

Thistle board has good heat insulation, defening effect and is widely used in office and public place, by stamping out through hole on Thistle board, can be difformity, aperture, by the principle of sound absorption, realize good acoustically effective, and effect attractive in appearance, be easy to install.

Summary of the invention

The purpose of this utility model is to provide the better Thistle board of a kind of acoustical absorptivity.

According to scheme of the present utility model, a kind of sound absorption Thistle board, be provided with multiple perforation along this Paper-faced gyp plate thickness direction, it is characterized in that, this perforation configuration is: the length of side is the square hole of 12mm; Or the slot of length 80mm, width 6mm; Or the length of side is the regular hexagon hole of 6mm.

Wherein, this perforation being configured to square hole is formed first group with the form of 20 × 20, and this first group form 4 × 2 layout.

Wherein, this perforation being configured to square hole is formed multiple first group with the form of 20 × 4, and this first group form 4 × 6 layout.

Wherein, this perforation being configured to square hole is formed multiple first group with the form of 17 × 9, and this first group form 4 × 3 layout.

Wherein, this perforation being configured to square hole is formed multiple first group with the form of 16 × 16, and this first group form 4 × 2 layout.

Wherein, this perforation being configured to square hole is formed multiple first group with the form of 4 × 4, and this first group form 12 × 6 layout.

Wherein, this perforation being configured to square hole is formed multiple first group with the form of 8 × 9, and this first group form 8 × 3 layout.

Wherein, this perforation being configured to square hole is formed multiple first group with 20 × 25 forms, and the layout of this first group formation 4 × 1.

In addition, every six this be configured to the parallel formation of perforation second group of slot.

Wherein, multiple described second group is formed large group in 4 × 4 modes, and the layout of described large group of formation 4 × 2.

Wherein, multiple described second group is formed large group in 3 × 4 modes, and the layout of described large group of formation 4 × 2.

Wherein, multiple described second group with 3 × 3 mode formed large group, and multiple described large group form 4 × 2 layout.

Wherein, multiple described second group with 4 × 3 mode formed large group, and multiple described large group form 4 × 2 layout.

Wherein, multiple described second group with 4 × 5 mode formed large group, and multiple described large group form 4 × 1 layout.

Wherein, this perforation being configured to regular hexagon hole is formed the 3rd group with the form of 24 × 24, multiple 3rd group form 4 × 2 layout.

Wherein, this sound absorption Thistle board is also provided with baffle blanket, and this baffle blanket is arranged on the back side of this sound absorption Thistle board.

Technique effect of the present utility model is, boring a hole and controlling punching rate, improve the acoustically effective of Thistle board by arranging on Thistle board.

Accompanying drawing explanation

Fig. 1 illustrates according to embodiment 1 of the present utility model.

Fig. 2 illustrates according to embodiment 2 of the present utility model.

Fig. 3 illustrates according to embodiment 3 of the present utility model.

Fig. 4 illustrates according to embodiment 4 of the present utility model.

Fig. 5 illustrates according to embodiment 5 of the present utility model.

Fig. 6 illustrates according to embodiment 6 of the present utility model.

Fig. 7 illustrates according to embodiment 7 of the present utility model.

Fig. 8 illustrates according to embodiment 8 of the present utility model.

Fig. 9 illustrates according to embodiment 9 of the present utility model.

Figure 10 illustrates according to embodiment 10 of the present utility model.

Figure 11 illustrates according to embodiment 11 of the present utility model.

Figure 12 illustrates according to embodiment 12 of the present utility model.

Figure 13 illustrates according to embodiment 13 of the present utility model.

Detailed description of the invention

Embodiment of the present utility model is specifically described below in conjunction with accompanying drawing.

For Thistle board, common size can be such as 2400mm × 1200mm.In this manual, described " longitudinal direction " refers to the long side direction of gypsum plank, and described " transverse direction " refers to the short side direction of gypsum plank.In unspecified situation, represent longitudinally for X and laterally for Y with " X × Y " herein.Such as, in embodiment 1 below, foursquare hole is formed first group with the form of 20 × 20, refer to longitudinally 20 holes and laterally 20 holes form first group.

According to the utility model, Thistle board is provided with perforation, and it is configured to square hole, slot or regular hexagon hole.This sound absorption Thistle board is also provided with baffle blanket, and this baffle blanket is arranged on the back side of this sound absorption Thistle board.

Provide specific embodiment below, so that details of the present utility model to be described.

Embodiment 1

Fig. 1 illustrates according to embodiment 1 of the present utility model, and Thistle board 100 is provided with multiple perforation 110 along its thickness direction, and its middle punch 110 is the square hole of length of side 12mm.

As shown in Figure 1, the perforation 110 on Thistle board 100 forms multiple groups.In order to the convenience stated instead of restriction the utility model, the group described in the present embodiment is called first group.Wherein often group comprises multiple perforation 110.

In the present embodiment, perforation 110 is formed first group 120 with the form of 20 × 20, and this first group 120 form 4 × 2 layout, wherein respectively adjacent perforated is spaced apart 13mm in this first group, adjacent this first group be spaced apart 113mm.

Embodiment 2

Perforation in embodiment 2 is identical with embodiment 1.

With reference to Fig. 2, in the present embodiment, perforation 110 is formed multiple first group 120 with the form of 20 × 4, and the layout of this first group formation 4 × 6, and the adjacent punched interval wherein respectively in this first group is 13mm, adjacent this first group be spaced apart 113mm.

Embodiment 3

Perforation in embodiment 3 is identical with embodiment 1.

With reference to Fig. 3, in the present embodiment, perforation 110 is formed multiple first group 120 with the form of 17 × 9, and the layout of this first group formation 4 × 3, and the adjacent punched interval wherein respectively in this first group is 13mm, adjacent this first group be spaced apart 188mm.

Embodiment 4

Perforation in embodiment 4 is identical with embodiment 1.

With reference to Fig. 4, in the present embodiment, perforation 110 is formed multiple first group 120 with the form of 16 × 16, and the layout of this first group formation 4 × 2, and the adjacent punched interval wherein respectively in this first group is 13mm, adjacent this first group be spaced apart 213mm.

Embodiment 5

Perforation in embodiment 5 is identical with embodiment 1.

With reference to Fig. 5, in the present embodiment, perforation 110 is formed multiple first group 120 with the form of 4 × 4, and the layout of this first group formation 12 × 6, and the adjacent punched interval wherein respectively in this first group is 13mm, adjacent this first group be spaced apart 113mm.

Embodiment 6

Perforation in embodiment 6 is identical with embodiment 1.

With reference to Fig. 6, in the present embodiment, perforation 110 is formed multiple first group 120 with the form of 8 × 9, and the layout of this first group formation 8 × 3, adjacent punched interval wherein respectively in this first group is 13mm, wherein, longitudinally adjacent this first group be spaced apart 113mm, and laterally adjacent this first group be spaced apart 188mm.

Embodiment 7

Perforation in embodiment 7 is identical with embodiment 1.

With reference to Fig. 7, in the present embodiment, perforation 110 is formed multiple first group 120 with 20 × 25 forms, and the layout of this first group formation 4 × 1.

Wherein, the adjacent punched interval respectively in this first group is 13mm, adjacent this first group be spaced apart 113mm.

Embodiment 8

Fig. 8 illustrates according to embodiment 8 of the present utility model.

Similarly, Thistle board 200 is provided with the perforation 210 along its thickness direction, and its middle punch 210 is configured to the slot of long 80mm, wide 6mm.Similarly, bored a hole for 210 multiple groups (similarly, for convenience of description, being called second group) of formation.

As shown in Figure 8, in concrete example, each second group 220 is made up of six perforation be arranged in juxtaposition 210, and the spacing between wherein adjacent slot 210 is 9mm.

In the embodiment of Fig. 8, the arrangement form of a kind of second group is shown, wherein multiple described second group 20 is formed large group 230 in 4 × 4 modes, and described large group 230 form 4 × 2 layout.

Described second group that longitudinal direction wherein respectively in this large group is adjacent be spaced apart 40mm, and laterally adjacent described second group be spaced apart 39mm.In addition, longitudinally adjacent described large group be spaced apart 160mm, laterally adjacent described large group be spaced apart 159mm.

Embodiment 9

Perforation in embodiment 9 is identical with embodiment 8.

With reference to Fig. 9, in the present embodiment, 6 perforation be arranged in juxtaposition 210 form one second group 220, and multiple described second group 220 is formed large group 230 in 3 × 4 modes, and described large group 230 form 4 × 2 layout.

Wherein, described second group that the longitudinal direction respectively in this large group is adjacent be spaced apart 100mm, and laterally adjacent described second group be spaced apart 39mm, wherein longitudinally adjacent described large group be spaced apart 160mm, laterally adjacent described large group be spaced apart 159mm.

Embodiment 10

Perforation in embodiment 10 is identical with embodiment 8.

With reference to Figure 10, in the present embodiment, 6 perforation be arranged in juxtaposition 210 form one second group 220, multiple described second group with 3 × 3 mode formed large group 230, and multiple described large group form 4 × 2 layout.

Wherein, described second group that the longitudinal direction respectively in this large group 230 is adjacent be spaced apart 40mm, and laterally adjacent described second group be spaced apart 39mm, wherein longitudinally adjacent described large group be spaced apart 280mm, laterally adjacent described large group be spaced apart 159mm.

Embodiment 11

Perforation in embodiment 11 is identical with embodiment 8.

With reference to Figure 11, in the present embodiment, 6 perforation be arranged in juxtaposition 210 form one second group 220, multiple described second group with 4 × 3 mode formed large group 230, and multiple described large group form 4 × 2 layout.

Wherein, described second group that the longitudinal direction respectively in this large group 230 is adjacent be spaced apart 40mm, and laterally adjacent described second group be spaced apart 39mm, wherein longitudinally adjacent described large group be spaced apart 160mm, laterally adjacent described large group be spaced apart 399mm.

Embodiment 12

Perforation in embodiment 12 is identical with embodiment 8.

With reference to Figure 12, in the present embodiment, 6 perforation be arranged in juxtaposition 210 form one second group 220, multiple described second group with 4 × 5 mode formed large group 230, and multiple described large group form 4 × 1 layout.

Wherein, described second group that the longitudinal direction respectively in this large group 230 is adjacent be spaced apart 40mm, and laterally adjacent described second group be spaced apart 39mm, wherein adjacent described large group be spaced apart 160mm.

Embodiment 13

Figure 13 illustrates according to embodiment 13 of the present utility model.

Thistle board 300 is provided with some perforation 310 along its thickness direction, and its middle punch 310 is configured to the regular hexagon hole of length of side 6mm.Obviously its catercorner length is 12mm.

In the embodiment show in figure 13, bore a hole 310 with 24 × 24 form formed the 3rd group and formed the 3rd group 320.Wherein, the center to center distance of adjacent in each 3rd group perforation 310 is 20mm.

The layout of the 3rd group of formation 4 × 2.Wherein, the center square of the Spaced perforations of the 3rd group of longitudinally adjacent respective adjacent side is 128mm, and laterally adjacent the 3rd group be spaced apart 129.61mm.

In superincumbent description, set forth the details of the technical solution of the utility model, but those skilled in the art can understand, the utility model is not limited to the detail listed by above-described embodiment, but can change in claim limited range.

Claims (16)

1. absorb sound a Thistle board, and be provided with multiple perforation along this Paper-faced gyp plate thickness direction, it is characterized in that, this perforation configuration is:

The length of side is the square hole of 12mm; Or

The slot of length 80mm, width 6mm; Or

The length of side is the regular hexagon hole of 6mm.

2. sound absorption Thistle board according to claim 1, is characterized in that, this perforation being configured to square hole is formed first group with the form of 20 × 20, and this first group form 4 × 2 layout.

3. sound absorption Thistle board according to claim 1, is characterized in that, this perforation being configured to square hole is formed multiple first group with the form of 20 × 4, and this first group form 4 × 6 layout.

4. sound absorption Thistle board according to claim 1, is characterized in that, this perforation being configured to square hole is formed multiple first group with the form of 17 × 9, and this first group form 4 × 3 layout.

5. sound absorption Thistle board according to claim 1, is characterized in that, this perforation being configured to square hole is formed multiple first group with the form of 16 × 16, and this first group form 4 × 2 layout.

6. sound absorption Thistle board according to claim 1, is characterized in that, this perforation being configured to square hole is formed multiple first group with the form of 4 × 4, and this first group form 12 × 6 layout.

7. sound absorption Thistle board according to claim 1, is characterized in that, this perforation being configured to square hole is formed multiple first group with the form of 8 × 9, and this first group form 8 × 3 layout.

8. sound absorption Thistle board according to claim 1, is characterized in that, this perforation being configured to square hole is formed multiple first group with 20 × 25 forms, and the layout of this first group formation 4 × 1.

9. sound absorption Thistle board according to claim 1, is characterized in that, every six this be configured to the parallel formation of perforation second group of slot.

10. sound absorption Thistle board according to claim 9, is characterized in that, multiple described second group is formed large group in 4 × 4 modes, and the layout of described large group of formation 4 × 2.

11., according to sound absorption Thistle board according to claim 9, is characterized in that, multiple described second group is formed large group in 3 × 4 modes, and the layout of described large group of formation 4 × 2.

12., according to sound absorption Thistle board according to claim 9, is characterized in that, multiple described second group with 3 × 3 mode formed large group, and multiple described large group form 4 × 2 layout.

13., according to sound absorption Thistle board according to claim 9, is characterized in that, multiple described second group with 4 × 3 mode formed large group, and multiple described large group form 4 × 2 layout.

14., according to sound absorption Thistle board according to claim 9, is characterized in that, multiple described second group with 4 × 5 mode formed large group, and multiple described large group form 4 × 1 layout.

15. sound absorption Thistle boards according to claim 1, is characterized in that, this perforation being configured to regular hexagon hole is formed the 3rd group with the form of 24 × 24, multiple 3rd group form 4 × 2 layout.

16. sound absorption Thistle boards according to claim 1, is characterized in that, this sound absorption Thistle board is also provided with baffle blanket, and this baffle blanket is arranged on the back side of this sound absorption Thistle board.