CN211622059U - Sound insulation building board for building - Google Patents

Abstract

The utility model relates to a sound insulation building board for building, which comprises a sound insulation board, wherein a main convex strip is protruded on the side surface of the sound insulation board, a main sliding groove is arranged on the side surface of the sound insulation board far away from the main convex strip, a main clamping block is protruded on the side surface of the sound insulation board, and a main clamping groove is arranged on the side surface of the sound insulation board far away from the main clamping block; the side surface of the transverse wire groove and the side surface of the vertical wire groove are respectively communicated with a transverse channel and a vertical channel, the side surface of the transverse wire groove adjacent to the transverse channel is protruded with an auxiliary raised line, the side surface of the transverse wire groove far away from the auxiliary raised line is provided with an auxiliary sliding groove, and the end surface of the transverse wire groove is provided with a transverse opening communicated with the transverse channel; the side surface of the vertical line groove adjacent to the vertical channel is provided with an auxiliary clamping block in a protruding mode, the side surface of the vertical line groove far away from the auxiliary clamping block is provided with an auxiliary clamping groove, and the end face of the vertical line groove is provided with a vertical opening. Through adopting above-mentioned technical scheme, have on the wall body that the building panel that gives sound insulation formed, be convenient for arrange the cable to shorten construction period's advantage.

Description

Sound insulation building board for building

Technical Field

The utility model belongs to the technical field of the building panel technique that gives sound insulation and specifically relates to a building panel gives sound insulation for building is related to.

Background

The sound insulation building board is also called as a sound insulation board, and is a plate block acting on sound insulation effect. The sound insulation building board is mainly used for urban rail transit sound insulation barriers, highway sound insulation barriers, indoor sound insulation barriers and the like. In many working environments, in order to keep the indoor space in an installed state, the indoor partition walls are generally built up by using sound insulation building panels to form partition walls, so as to ensure that the adjacent rooms are kept quiet.

However, the existing sound insulation building boards are spliced or poured to form a wall, when cables need to be arranged on the wall, channels for the cables to pass through are often required to be cut on the wall, the channels are cut on the wall, the processing cost can be increased, the construction period can be prolonged, and the condition of inconvenient work operation exists. Therefore, there is room for improvement.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a building that gives sound insulation of building board has on the wall body that the building board that gives sound insulation formed, is convenient for arrange the cable to shorten construction period's advantage.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a sound insulation building board for a building comprises a sound insulation board, wherein a main convex strip is protruded on the side surface of the sound insulation board, a main sliding groove for the sliding connection of adjacent sound insulation boards is formed in the side surface, away from the main convex strip, of the sound insulation board, a main clamping block is protruded on the side surface, located between the main convex strip and the main sliding groove, of the sound insulation board, and a main clamping groove for the clamping matching of the main clamping block of the adjacent sound insulation board is formed in the side surface, away from the main clamping block, of the sound insulation board; the sound insulation board is characterized by further comprising a transverse wire groove and a vertical wire groove which are used for wiring, wherein a transverse channel and a vertical channel for cables to pass through are respectively communicated with the side faces of the transverse wire groove and the vertical wire groove, an auxiliary convex strip which is in sliding connection with a main sliding groove of the sound insulation board is protruded on the side face, adjacent to the transverse channel, of the transverse wire groove, an auxiliary sliding groove for the main convex strip of the sound insulation board to be in sliding connection is formed in the side face, away from the auxiliary convex strip, of the transverse wire groove, and a transverse opening communicated with the transverse channel is formed in the end face, located between the auxiliary convex strip and the auxiliary sliding; the side surface of the vertical line groove adjacent to the vertical channel is protruded with an auxiliary clamping block in inserting fit with the main clamping block of the sound insulation board, the side surface of the vertical line groove far away from the auxiliary clamping block is provided with an auxiliary clamping groove for the main clamping block of the sound insulation board to be in inserting fit with the main clamping block, and the end surface of the vertical line groove between the auxiliary clamping block and the auxiliary clamping groove is provided with a vertical opening communicated with the vertical channel.

By adopting the technical scheme, the main raised strips and the main sliding grooves are respectively arranged on the two opposite side surfaces of the sound insulation boards, and the main raised strips of the sound insulation boards are in sliding connection with the main sliding grooves of the adjacent sound insulation boards, so that the plurality of sound insulation boards can be spliced in one direction conveniently; similarly, main fixture blocks and main clamping grooves are respectively arranged on two opposite side surfaces of the sound insulation boards between the main raised strips and the main sliding grooves, and the main fixture blocks of the sound insulation boards are clamped and matched with the main clamping grooves of the adjacent sound insulation boards, so that the plurality of sound insulation boards are spliced along the vertical direction of a connecting line of the main raised strips and the main sliding grooves, and then the plurality of sound insulation boards are spliced along two mutually vertical directions to form a wall body consisting of the sound insulation boards; by arranging the transverse wire grooves and the vertical wire grooves, the auxiliary raised strips of the transverse wire grooves are in sliding connection with the main sliding grooves, or the main raised strips of the sound insulation board are in sliding connection with the auxiliary sliding grooves, so that the transverse wire grooves are conveniently connected with the sound insulation board; meanwhile, the auxiliary clamping block of the vertical line groove is matched with the main clamping groove of the sound insulation board in a clamping manner, or the main clamping block of the sound insulation board is matched with the auxiliary clamping groove of the vertical line groove in a clamping manner, so that the vertical line groove is connected with the sound insulation board; meanwhile, through setting up horizontal opening and erecting the opening, connect a plurality of horizontal wire casing and perpendicular wire casing and a plurality of interconnect's acoustic celotex board and cooperate, and make the horizontal passageway of a plurality of horizontal wire casings be linked together, and horizontal open-ended orientation is unanimous, make the perpendicular passageway of a plurality of vertical wire casings be linked together simultaneously, and erect open-ended orientation unanimous, and then make the horizontal passageway that is linked together and the end of the perpendicular passageway that leads to that is linked together set up mutually, and then make things convenient for the staff to carry out the operation of arranging of cable in horizontal wire casing and the vertical wire casing outside the wall body of constituteing by the acoustic celotex board, the cable of being convenient for arranging is on the wall body that the building panel formed gives sound insulation.

The utility model discloses further set up to: the transverse wire groove is connected with a transverse cover plate for sealing the transverse opening in a sliding manner, and the vertical wire groove is connected with a vertical cover plate for sealing the vertical opening in a sliding manner.

Through adopting above-mentioned technical scheme, through setting up horizontal apron and horizontal wire casing sliding connection to seal horizontal opening, erect apron and perpendicular wire casing sliding connection through setting up simultaneously, in order to seal perpendicular opening, be favorable to reducing the cable in horizontal wire casing and the perpendicular wire casing and expose or with the condition of horizontal wire casing and perpendicular wire casing mutual separation.

The utility model discloses further set up to: the transverse groove faces the end face of the transverse opening, a transverse dovetail groove is formed in the end face of the transverse groove, the transverse dovetail groove extends along the depth direction of a transverse channel of the transverse groove, a transverse dovetail strip protrudes from the end face of the transverse groove and faces the transverse cover plate, and the transverse dovetail strip is connected with the transverse dovetail groove in a clamped mode and slides.

By adopting the technical scheme, the transverse dovetail grooves of the transverse dovetail strips and the transverse wire grooves are arranged on the transverse cover plate in a clamped and sliding mode, so that the guidance of the sliding motion of the transverse cover plate is improved, and the sliding motion of the transverse cover plate is smooth.

The utility model discloses further set up to: the vertical slot faces the end face of the vertical opening, a vertical dovetail groove is formed in the end face of the vertical opening, the vertical dovetail groove extends along the depth direction of a vertical channel of the vertical slot, a vertical dovetail strip protrudes from the end face of the vertical slot, which faces the vertical cover plate, and the vertical dovetail block is clamped and slides with the vertical dovetail groove.

By adopting the technical scheme, the vertical dovetail groove which is provided with the vertical dovetail strip and the vertical line groove in the vertical cover plate is clamped and slides, so that the guidance of the sliding motion of the vertical cover plate is favorably improved, and the sliding motion of the book cover plate is smooth.

The utility model discloses further set up to: a plurality of cross bars which are arranged in parallel are fixedly connected to the inner bottom wall of the transverse channel of the transverse slot far away from the transverse opening, the depth directions of the cross bars and the transverse channel are arranged in parallel, and a distance for a cable to pass through is reserved between every two adjacent cross bars; keep away from in the perpendicular passageway of perpendicular wire casing erect open-ended interior diapire fixedly connected with a plurality of vertical bars of parallel arrangement each other, the vertical bar with the depth direction of erecting the passageway sets up in parallel to each other, and is adjacent there is the distance that the power supply cable passes through between the vertical bar.

Through adopting above-mentioned technical scheme, through the horizontal bar that sets up a plurality of mutual parallel arrangement in horizontal groove for the cable can pass in the position between adjacent horizontal bar, simultaneously through the vertical retort that sets up a plurality of mutual parallel arrangement in vertical inslot, makes the cable can pass in the position between adjacent vertical retort, is favorable to improving the regularity that the cable was arranged, is favorable to reducing the cable in horizontal groove and vertical retort to be qualified for the next round of competitions the complicated condition of being qualified for the next round of competitions simultaneously.

The utility model discloses further set up to: the end face, facing the transverse dovetail strip, of the transverse cover plate is fixedly connected with a plurality of transverse pressing strips which are arranged in parallel, when the transverse cover plate is in sliding connection with the transverse wire grooves, the transverse pressing strips and the transverse strips are arranged in parallel, and the positions between the transverse pressing strips and the adjacent transverse strips are opposite to each other; the vertical cover plate faces the end face of the vertical dovetail strip and is fixedly connected with a plurality of vertical pressing strips which are arranged in parallel, when the vertical cover plate is connected with the vertical line grooves in a sliding mode, the vertical pressing strips are arranged in parallel with the vertical strips, and the vertical pressing strips are opposite to the vertical strips in position.

Through adopting above-mentioned technical scheme, when horizontal apron and horizontal wire casing sliding connection, utilize the horizontal depression bar of horizontal apron to compress tightly the cable between the adjacent horizontal bar, equally, when erecting apron and perpendicular wire casing sliding connection, utilize the perpendicular depression bar of erecting the apron to extrude the cable between the adjacent vertical bar, be favorable to improving the stability that the cable was arranged in horizontal wire casing and perpendicular wire casing to in the condition of reducing cable and horizontal wire casing and perpendicular wire casing separation.

The utility model discloses further set up to: including hollow connecting block, two adjacent sides of connecting block all link up the logical groove that has the power supply cable to pass, work as cross slot and acoustic celotex board sliding connection, just it is same with perpendicular wire casing when the cooperation is connected to the acoustic celotex board, the connecting block is located position between cross slot and the perpendicular wire casing, and with cross slot and perpendicular wire casing fixed connection, the logical groove of connecting block with cross passageway and perpendicular passageway are linked together.

Through adopting above-mentioned technical scheme, through setting up connecting block and logical groove, after turning round when being located the cable that the cross line inslot that communicates each other and set up, need get into the vertical line inslot that communicates each other and set up, can be to the passageway that passes two adjacent sides of connecting block, after turning round in order to form, get into the vertical line inslot that communicates each other and set up, and then place the junction between cross line groove and vertical line groove with the connecting block, and make connecting block and cross line groove and vertical line groove communicate mutually, be favorable to reducing the cable and expose the position of junction between cross line groove and vertical line groove, thereby make arranging of cable neat, make the cross line groove simultaneously, the surfacing of vertical line groove and acoustic celotex board.

The utility model discloses further set up to: the length of the transverse line groove along the depth direction of the transverse channel is equal to the distance between the main clamping groove and the main clamping block of the sound insulation board; the length of the vertical line groove along the depth direction of the vertical channel is equal to the distance between the main raised line of the sound insulation board and the main sliding groove.

Through adopting above-mentioned technical scheme, through injecing the length of horizontal line groove along its cross access to injecing the length of vertical line groove along its vertical access, when horizontal line groove and vertical line groove all are connected with the acoustic celotex board, can reduce the clearance between horizontal line groove, vertical line groove and the acoustic celotex board, and then make the whole surface of a plurality of horizontal line grooves of splicing each other, vertical line groove and acoustic celotex board level and smooth pleasing to the eye.

To sum up, the utility model discloses following beneficial effect has:

1. through the arrangement of the sound insulation boards, the plurality of transverse wire grooves and the plurality of vertical wire grooves are connected with the sound insulation boards, so that workers can conveniently arrange cables in the transverse wire grooves and the vertical wire grooves outside the wall body formed by the sound insulation boards, and the sound insulation board has the advantages that the cables can be conveniently arranged on the wall body formed by the sound insulation building boards, and the construction period is shortened;

2. the transverse cover plate and the vertical cover plate are arranged, so that cables in the transverse wire grooves and the vertical wire grooves can be conveniently sealed, and the situation that the cables protrude out of the transverse wire grooves and the vertical wire grooves can be favorably reduced;

3. through setting up connecting block and logical groove, be favorable to reducing the cable and expose the position at junction between horizontal line groove and perpendicular line groove to make arranging of cable neat, make the surfacing of horizontal line groove, perpendicular line groove and acoustic celotex board simultaneously.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is an exploded view of the present embodiment;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is a schematic view of another embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at C;

fig. 7 is a partial enlarged view of fig. 5 at D.

Reference numerals: 1. a sound insulating board; 11. a main convex strip; 12. a main chute; 13. a main card slot; 14. a main clamping block; 2. a transverse wire groove; 21. a horizontal bar; 22. auxiliary convex strips; 23. an auxiliary chute; 24. a transverse dovetail groove; 25. a transverse channel; 26. a transverse opening; 3. a transverse cover plate; 31. transverse layering; 32. a transverse dovetail bar; 4. a vertical line slot; 41. vertical bars; 42. a secondary fixture block; 43. an auxiliary card slot; 44. erecting a dovetail groove; 45. a vertical channel; 46. a vertical opening is formed; 5. a vertical cover plate; 51. vertically layering; 52. a vertical dovetail bar; 6. connecting blocks; 61. a through groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1 to 2, the utility model discloses a sound insulation building board for building, including acoustic celotex board 1, acoustic celotex board 1 is the cuboid form, and the transversal square shape of personally submitting of the terminal surface of its thickness direction of acoustic celotex board 1 perpendicular to, one of them side arch of acoustic celotex board 1 has main sand grip 11, and the transversal swallowtail form of personally submitting of main sand grip 11, and main sand grip 11 extends along the length direction of side, and main sand grip 11 sets up with the both ends coplane of side along length direction.

The side of the acoustic panel 1 far away from the main protruding strip 11 is provided with a main sliding groove 12 for the sliding connection of the main protruding strips 11 of the adjacent acoustic panel 1, the cross section of the main sliding groove 12 is in a dovetail shape, the main sliding groove 12 and the main protruding strips 11 are arranged opposite to each other, the main sliding groove 12 extends along the length direction of the main protruding strips 11, and the main sliding groove 12 is communicated with the two sides of the acoustic panel 1 along the length direction of the main protruding strips 11.

The acoustic baffle 1 is located the position between main sand grip 11 and the main spout 12, and the side arch that is on a parallel with 1 thickness direction of acoustic baffle and mutual parallel arrangement has two main fixture blocks 14, and main fixture block 14 is the cylinder form, and the axis of main fixture block 14 is perpendicular to 1 thickness direction of acoustic baffle and sets up, and two main fixture blocks 14 branch are listed in 1 the centre of acoustic baffle's 1 both sides of vertical plane, and mutual symmetry sets up, and the length direction of the line of two main fixture blocks 14 is perpendicular to 1 thickness direction of acoustic baffle.

The side surface of the sound insulation board 1 far away from the main clamping block 14 is provided with two main clamping grooves 13 for clamping and matching the two main clamping blocks 14 of the adjacent sound insulation board 1, and the two main clamping grooves 13 are opposite to the two main clamping blocks 14 of the sound insulation board 1.

The sound insulation building board for the building further comprises a transverse wire groove 2 and a vertical wire groove 4, wherein cables penetrate through the transverse wire groove 2 and the vertical wire groove 4, the transverse wire groove 2 and the vertical wire groove 4 are both in a long strip shape, a transverse channel 25, through which the cables penetrate, is arranged on the end face of the transverse wire groove 2 in the length direction, the cross section of the transverse channel 25 is in a rectangular shape, the length of the transverse wire groove 2 is equal to that of the main raised line 11, and the thickness of the transverse wire groove 2 is equal to that of the sound insulation board 1.

The transverse groove 2 is provided with an auxiliary raised line 22 in sliding connection with the main sliding groove 12 of the sound insulation board 1 along one side surface perpendicular to the thickness direction of the transverse groove 2, the auxiliary raised line 22 and the transverse groove 2 are arranged in parallel, the cross section of the auxiliary raised line 22 is in a dovetail shape, the side surface of the transverse groove 2 far away from the auxiliary raised line 22 is provided with an auxiliary sliding groove 23 for sliding connection of the main raised line 11 of the sound insulation board 1, the cross section of the auxiliary sliding groove 23 is in a dovetail shape, the auxiliary sliding groove 23 extends along the length direction of the transverse groove 2, and the auxiliary sliding groove 23 and the transverse groove 2 are arranged in parallel.

The transverse slot 2 is located between the auxiliary raised line 22 and the auxiliary sliding groove 23, a transverse opening 26 communicated with the transverse channel 25 is formed in one side face of the transverse slot 2 in the thickness direction, and the transverse opening 26 is communicated with two end faces of the transverse slot 2 in the length direction.

The lateral surface of the transverse slot 2 facing the transverse opening 26 is connected with a transverse cover plate 3 for sealing the transverse opening 26 in a sliding mode, the transverse cover plate 3 is in a strip shape, the length of the transverse cover plate 3 is consistent with that of the transverse slot 2, a transverse dovetail groove 24 is formed in the end face of the transverse slot 2 facing the transverse opening 26, the transverse dovetail groove 24 extends along the length direction of the transverse slot 2, the transverse dovetail groove 24 is communicated with the two end faces of the transverse slot 2 along the length direction of the transverse slot, a transverse dovetail strip 32 protrudes from the end face of the transverse slot 3 facing the transverse slot 2, the transverse dovetail strip 32 extends along the length direction of the transverse cover plate 3, the transverse dovetail strip 32 and the transverse cover plate 3 are arranged in a coplanar mode along the two end faces of the length direction of the transverse cover plate, and the transverse dovetail strip.

Keep away from horizontal opening 26's interior diapire fixedly connected with a plurality of crossbands 21 of parallel arrangement each other in horizontal channel 25 of horizontal groove 2, the length direction of crossband 21 and the length direction of horizontal groove 2 parallel arrangement each other, the length of crossband 21 equals the length of horizontal groove 2, has the distance that the power cable passes through between the adjacent crossband 21.

The end face of the transverse cover plate 3 facing the transverse dovetail strip 32 is fixedly connected with a plurality of transverse pressing strips 31 arranged in parallel, the length directions of the transverse pressing strips 31 and the transverse cover plate 3 are arranged in parallel, and when the transverse cover plate 3 is in sliding connection with the transverse dovetail groove 24 of the transverse wire groove 2 through the transverse dovetail strip 32, the transverse pressing strips 31 and the adjacent transverse strips 21 are arranged just opposite to each other. The protruding heights of the transverse strips 21 and the transverse pressing strips 31 are smaller than the distance from the transverse cover plate 3 to the inner bottom surface of the transverse wire casing 2 far away from the transverse opening 26.

The end face of the vertical line groove 4 in the length direction is penetrated with a vertical passage 45 for a cable to pass through, the cross section of the vertical passage 45 is rectangular, the length of the vertical line groove 4 is equal to the distance between the main raised line 11 and the main sliding groove 12 of the sound insulation board 1, and the thickness of the horizontal line groove 2 is equal to the thickness of the sound insulation board 1.

Two auxiliary fixture blocks 42 in clamping fit with the main fixture blocks 14 of the sound insulation board 1 are protruded from one side surface of the vertical line groove 4 in the direction perpendicular to the thickness direction of the vertical line groove 4, the two auxiliary fixture blocks 42 are cylindrical, the two auxiliary fixture blocks 42 are respectively arranged on two sides of a vertical line groove 4 in the length direction of the vertical line groove and are symmetrically arranged with each other, and the line of the axes of the two auxiliary fixture blocks 42 is perpendicular to the thickness direction of the vertical line groove 4. The side surface of the vertical line groove 4 far away from the auxiliary clamping block 42 is provided with two auxiliary clamping grooves 43 for the main clamping block 14 of the sound insulation board 1 to be in inserted connection and matched, and the two auxiliary clamping grooves 43 are opposite to the two auxiliary clamping blocks 42 of the vertical line groove 4.

The vertical line groove 4 is positioned between the auxiliary clamping block 42 and the auxiliary clamping groove 43, one side surface in the thickness direction of the book line groove is provided with a vertical opening 46 communicated with a vertical channel 45, and the vertical opening 46 is communicated with two end surfaces of the vertical line groove 4 in the length direction.

The side face, facing the vertical opening 46, of the vertical line groove 4 is connected with a vertical cover plate 5 for sealing the vertical opening 46 in a sliding mode, the vertical cover plate 5 is long in strip shape, and the length of the vertical cover plate 5 is consistent with that of the vertical line groove 4. The end face, facing the vertical opening 46, of the vertical line groove 4 is provided with a vertical dovetail groove 44, the vertical dovetail groove 44 extends along the length direction of the vertical line groove 4, the vertical dovetail groove 44 is communicated with the two end faces, along the length direction, of the vertical line groove 4, the vertical cover plate 5 is provided with a vertical dovetail strip 52 protruding towards the end face of the vertical line groove 4, the vertical dovetail strip 52 extends along the length direction of the vertical cover plate 5, the vertical dovetail strip 52 and the vertical cover plate 5 are arranged in a coplanar mode along the two end faces in the length direction, and the vertical dovetail strip 52 is connected with the vertical dovetail groove 44 in a clamped sliding mode.

The inner bottom wall of the vertical channel 45 of the vertical line groove 4, which is far away from the transverse opening 26, is fixedly connected with a plurality of vertical bars 41 which are arranged in parallel, the length direction of each vertical bar 41 and the length direction of the vertical line groove 4 are arranged in parallel, the length of each vertical bar 41 is equal to that of the vertical line groove 4, and a distance for passing a cable is arranged between every two adjacent vertical bars 41.

The end face, facing the vertical dovetail strip 52, of the vertical cover plate 5 is fixedly connected with a plurality of vertical pressing strips 51 which are arranged in parallel, the length direction of each vertical pressing strip 51 is arranged in parallel with the length direction of the vertical cover plate 5, and when the vertical cover plate 5 is in sliding connection with the vertical dovetail groove 44 of the vertical line groove 4 through the vertical dovetail strip 52, the vertical pressing strips 51 and the adjacent vertical strips 41 are arranged in a mutually opposite mode. The heights of the vertical strips 41 and the vertical strips 51 are smaller than the distance from the vertical cover plate 5 to the inner bottom surface of the vertical line groove 4 far away from the vertical opening 46.

The sound insulation building board for building still includes hollow connecting block 6, and connecting block 6 is the cuboid form, and the thickness of connecting block 6 is unanimous with acoustic celotex board 1's thickness, and connecting block 6 all link up the logical groove 61 that has the power cable to pass along two adjacent sides of the thickness direction of perpendicular to connecting block 6, and the transversal rectangular form of personally submitting that leads to groove 61.

When horizontal line groove 2 and acoustic celotex board 1 sliding connection, and erect line groove 4 and same acoustic celotex board 1 and be connected the cooperation, connecting block 6 is located the position that intersects between the length direction of the cross passage 25 of horizontal line groove 2 and the length direction of the perpendicular passageway 45 of erecting line groove 4, and connecting block 6 and horizontal line groove 2 and erect line groove 4 fixed connection, two logical grooves 61 of connecting block 6 are linked together the setting with horizontal passage 25 and perpendicular passageway 45 respectively.

The working conditions and principles of the embodiment are as follows:

during operation, splice a plurality of acoustic celotex boards 1 and constitute the wall body as required, when arranging the space that the power cable passes through on acoustic celotex board 1 simultaneously, under the prerequisite of guaranteeing operation safety. Firstly, the side surface of the first sound insulation board 1 provided with the main sliding chute 12 is fixed on the ground according to the specified requirements, and the splicing and installation operation is carried out on the next sound insulation board 1, the transverse wire groove 2 and the vertical wire groove 4 by taking the secondary sound insulation board 1 as the reference.

And then, inserting and matching the main clamping groove 13 of the other sound insulation board 1 with the main clamping block 14 of the first sound insulation board 1 fixed on the ground, sequentially operating, and splicing the plurality of sound insulation boards 1 along the same horizontal direction. Next, the main chutes 12 of the other baffle plate 1 are slidably connected to the main ridges 11 of the lower baffle plate 1, and the upper baffle plate 1 and the lower baffle plate 1 are connected by sequential operations.

Above-mentioned operation in proper order splices a plurality of acoustic celotex board 1 along horizontal and vertical to form holistic structure, when the concatenation to the position that needs arrange the cable, stop the concatenation operation of acoustic celotex board 1.

And then, the auxiliary fixture block 42 of the first vertical line slot 4 is in inserting fit with the main fixture slot 13 of the sound insulation board 1 which is arranged at the edge of the sound insulation board 1 at the lowest part and is close to the appointed cable arrangement position, so that the first vertical line slot 4 is installed. Sequentially, the vertical line grooves 4 and the corresponding acoustic panels 1 are spliced one by one from bottom to top along the vertical direction. When the vertical line slot 4 is installed to a designated position where the cables are arranged, the installation operation of the vertical line slot 4 is stopped.

Next, the sub-chute 23 of the first transverse groove 2 is slidably connected to the sub-protrusion 22 of the most peripheral baffle plate 1 in the uppermost row of baffle plates 1 and close to the predetermined cable arrangement position, so that the first transverse groove 2 is mounted. Operating in sequence, the transverse wire chase 2 is installed one by one in the transverse direction.

And then, continuously installing the sound insulation boards 1 on one sides of the plurality of vertical line grooves 4 which are vertically arranged and far away from the plurality of sound insulation boards 1 which are spliced with each other, and inserting and matching the main clamping blocks 14 of the sound insulation boards 1 with the auxiliary clamping grooves 43 of the vertical line grooves 4. Then, the main engaging block 14 of the next baffle plate 1 is engaged with the main engaging groove 13 of the previous baffle plate 1, so that the splicing operation of the lowermost baffle plate 1 is completed from the lateral position.

According to the above operation, the acoustic panel 1 is gradually connected to the corresponding vertical line groove 4 from bottom to top, and the same horizontal acoustic panel 1 is spliced at the same time. When the splicing of the sound insulation board 1 to the position of the transverse line groove 2 is gradually completed from bottom to top.

And then splicing the transverse wire grooves 2 with the plurality of mutually spliced transverse wire grooves 2 along the same direction. Then, the vertical line groove 4 and the baffle plate 1 are spliced together in accordance with the above-described operation, thereby completing the splicing and mounting operation of the baffle plate 1, the vertical line groove 4, and the horizontal line groove 2.

Then, cables are arranged in the cross channels 25 of the interconnected cylinders of the interconnected cross wire grooves 2 to the intersection of the interconnected vertical channels 45 close to the vertical wire grooves 4, and the cables pass through the two adjacent through grooves 61 of the connecting block 6, so that after the cables are bent, the cables are arranged in the interconnected vertical channels 45 of the interconnected vertical wire grooves 4. And then, fixedly connecting the connecting block 6 with the transverse line groove 2 and the vertical line groove 4, and sealing the intersection between the vertical line groove 4 and the transverse line groove 2.

The transverse cover plate 3 is then slidably connected to the transverse trunking 2 so as to seal the transverse opening 26, while the vertical cover plate 5 is slidably connected to the vertical trunking 4 so as to seal the vertical opening 46. Therefore, the cable arrangement and installation operation is completed, and the cable arrangement device has the advantages that the cables can be conveniently arranged on the wall formed by the sound insulation building boards, so that the construction period is shortened.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A sound insulation building panel for construction, characterized by: the novel sound insulation board comprises a sound insulation board (1), wherein a main convex strip (11) is arranged on the side surface of the sound insulation board (1) in a protruding mode, a main sliding groove (12) for sliding connection of adjacent sound insulation boards (1) is formed in the side surface, away from the main convex strip (11), of the sound insulation board (1), a main clamping block (14) is arranged on the side surface, located between the main convex strip (11) and the main sliding groove (12), of the sound insulation board (1) in a protruding mode, and a main clamping groove (13) for clamping and matching the main clamping block (14) of the adjacent sound insulation board (1) is formed in the side surface, away from the main clamping block (14), of the; the sound insulation board is characterized by further comprising a transverse wire groove (2) and a vertical wire groove (4) which are used for wiring, wherein a transverse channel (25) and a vertical channel (45) for passing cables are respectively penetrated through the side faces of the transverse wire groove (2) and the vertical wire groove (4), an auxiliary convex strip (22) which is in sliding connection with a main sliding groove (12) of the sound insulation board (1) is protruded on the side face, adjacent to the transverse channel (25), of the transverse wire groove (2), an auxiliary sliding groove (23) which is in sliding connection with the main convex strip (11) of the sound insulation board (1) is formed in the side face, away from the auxiliary convex strip (22), of the transverse wire groove (2), and a transverse opening (26) communicated with the transverse channel (25) is formed in the end face, located between the auxiliary convex strip (22) and the auxiliary sliding groove (23), of the transverse wire groove (; vertical line groove (4) rather than the side arch that erects passageway (45) is adjacent have with vice fixture block (42) of the cooperation of pegging graft of main fixture block (14) of acoustic celotex board (1), vertical line groove (4) are kept away from the side of vice fixture block (42) is opened and is supplied main fixture block (14) of acoustic celotex board (1) are pegged graft complex vice draw-in groove (43), vertical line groove (4) are located terminal surface between vice fixture block (42) and vice draw-in groove (43) open have with erect opening (46) that passageway (45) are linked together.

2. A sound-insulating building panel for construction as claimed in claim 1, wherein: the transverse wire groove (2) is connected with a transverse cover plate (3) for sealing the transverse opening (26) in a sliding mode, and the vertical wire groove (4) is connected with a vertical cover plate (5) for sealing the vertical opening (46) in a sliding mode.

3. A sound-insulating building panel for construction as claimed in claim 2, wherein: horizontal wire casing (2) orientation the terminal surface of horizontal opening (26) is opened there is horizontal dovetail (24), horizontal dovetail (24) are followed the direction of depth of horizontal passageway (25) of horizontal wire casing (2) extends, horizontal apron (3) orientation the terminal surface arch of horizontal wire casing (2) has horizontal dovetail (32), horizontal dovetail (32) with horizontal dovetail (24) joint slides.

4. A sound-insulating building panel for construction as claimed in claim 3, wherein: perpendicular wire casing (4) orientation the terminal surface of erecting opening (46) is opened there is perpendicular dovetail (44), erect dovetail (44) and follow the degree of depth direction of the perpendicular passageway (45) of perpendicular wire casing (4) extends, erect apron (5) orientation the terminal surface arch of perpendicular wire casing (4) has perpendicular dovetail (52), erect the swallow piece with perpendicular dovetail (44) joint slides.

5. A sound-insulating building panel for construction as claimed in claim 4, wherein: a plurality of transverse strips (21) which are arranged in parallel are fixedly connected to the inner bottom wall of a transverse channel (25) of the transverse line groove (2) far away from the transverse opening (26), the depth directions of the transverse strips (21) and the transverse channel (25) are arranged in parallel, and a distance for a cable to pass through is reserved between every two adjacent transverse strips (21); keep away from in perpendicular passageway (45) of perpendicular wire casing (4) interior diapire fixedly connected with of perpendicular opening (46) a plurality of mutual parallel arrangement's vertical bar (41), vertical bar (41) with the mutual parallel arrangement of the depth direction of perpendicular passageway (45), it is adjacent there is the distance that the power supply cable passes through between vertical bar (41).

6. A sound-insulating building panel for construction as claimed in claim 5, wherein: the end face, facing the transverse dovetail strip (32), of the transverse cover plate (3) is fixedly connected with a plurality of transverse pressing strips (31) which are arranged in parallel, when the transverse cover plate (3) is in sliding connection with the transverse wire casing (2), the transverse pressing strips (31) and the transverse strips (21) are arranged in parallel, and the positions between the transverse pressing strips (31) and the adjacent transverse strips (21) are arranged in a mutually opposite mode; erect apron (5) orientation the terminal surface fixedly connected with of erecting dovetail strip (52) a plurality of perpendicular layering (51) of parallel arrangement each other, work as erect apron (5) with during vertical line groove (4) sliding connection, erect layering (51) with vertical strip (41) parallel arrangement each other, just erect layering (51) and adjacent position between vertical strip (41) is just to setting up each other.

7. A sound-insulating building panel for construction as claimed in claim 1, wherein: including hollow connecting block (6), two adjacent sides of connecting block (6) are all link up logical groove (61) that have the power supply cable to pass, work as horizontal wire casing (2) and acoustic celotex board (1) sliding connection, just it is with same to erect wire casing (4) when acoustic celotex board (1) is connected the cooperation, connecting block (6) are located position between horizontal wire casing (2) and the perpendicular wire casing (4), and with horizontal wire casing (2) and perpendicular wire casing (4) fixed connection, the logical groove (61) of connecting block (6) with cross aisle (25) are linked together with perpendicular passageway (45).

8. A sound-insulating building panel for construction as claimed in claim 1, wherein: the length of the transverse line groove (2) along the depth direction of a transverse channel (25) is equal to the distance between a main clamping groove (13) and a main clamping block (14) of the sound insulation board (1); the length of the vertical line groove (4) along the depth direction of the vertical channel (45) is equal to the distance between the main raised line (11) of the sound insulation board (1) and the main sliding groove (12).

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