CN220133109U - Detachable sound insulation structure - Google Patents

Abstract

The utility model discloses a detachable sound insulation structure, and belongs to the field of building structures. The detachable sound insulation construction includes: the sound insulation space elements are of wall elements, door elements, window elements, top elements and bottom elements, wherein the wall elements, the door elements and the window elements are used for enclosing and connecting the top elements and the bottom elements to form a detachable sound insulation space, connecting joints exist between adjacent sound insulation space elements, the acoustic covering elements are covered on at least one connecting joint, the acoustic covering materials are made of acoustic materials, the acoustic covering elements are covered on the frames of the door elements and/or the window elements, and the visible surfaces of the sound insulation space elements are made of the same materials as the surfaces of the acoustic covering elements. According to the utility model, the acoustic covering element is used for covering the connecting joint of the sound insulation space element, so that the acoustic quality of the outer surface of the sound insulation space to the environment and the aesthetic quality of the outer surface of the sound insulation space to the environment are greatly improved.

Description

Detachable sound insulation structure

Technical Field

The utility model belongs to the technical field of building construction, and particularly relates to a detachable sound insulation structure.

Background

The prior Chinese patent with publication No. CN110593609A discloses a sound insulation structure independent of the external environment, which is a detachable sound insulation space assembled by vertical face parts and plane parts; the facade element comprises a plurality of wall parts, the plane element comprises a base part and a top wall part, but the facade element is used as a door frame on the facade because the structural section with the same edge as the door element, the joint seam between the facade element and the door frame is not subjected to acoustic treatment, and the surface material of the structural section used as the door frame and the surface material of the facade element are not the same material.

This results in the exterior surface of the existing sound insulation space being deficient in both acoustic and aesthetic qualities of the environment in which it is located.

Disclosure of Invention

The utility model aims to: a removable sound insulating structure is provided that provides an exterior surface that provides good acoustic and aesthetic qualities to the environment in which it is located.

The technical scheme of the utility model is as follows: in a first aspect, a detachable sound insulation construction includes: the sound insulation space elements are of the type of wall elements, door elements, window elements, top elements and bottom elements, wherein the wall elements, the door elements and the window elements are used for enclosing and connecting the top elements and the bottom elements to form a detachable sound insulation space, and connecting joints are arranged between adjacent sound insulation space elements.

Further comprises: an acoustic cover element covering the at least one connection seam, the acoustic cover element being made of an acoustic material.

The acoustic cover element covers the border of the door element and/or the window element.

The visible surface of the sound insulation space element is made of the same material as the surface of the acoustic covering element.

In a further embodiment, the visible face of the sound-insulating spatial element and the acoustic cover element are made of a porous sound-absorbing material having a sound-absorbing effect.

In a further embodiment, the acoustic cover element comprises at least one layer of surface acoustic material and at least one layer of internal acoustic material.

The surface acoustic material is a fireproof plate material, a veneer material or a facing material of a metal plate material with the thickness of less than 1.5 mm.

The internal acoustic material is a medium density fiberboard material, a multi-layer board material or a metal plate material.

The material of the visible face of the sound-insulating spatial element is the same as the surface acoustic material of the acoustic cover element.

In a further embodiment, the acoustic cover element covers a predetermined area of the surface of the sound insulation space element, so that the local thickness of the sound insulation structure can be adjusted, the surface flatness of the sound insulation structure is further improved, and the aesthetic quality is improved.

In a further embodiment, the thickness of the acoustic cover elements is below 30mm, at least two of the acoustic cover elements are overlapped on the connection joint, and the overall thickness of the acoustic cover elements can be adjusted according to the thickness of the connection joint of the sound insulation space element.

In a further embodiment, the acoustic covering element is a plate with a cross section in a shape of a straight line, an L or a U, so that the acoustic performance can be further improved by effectively covering the joint of the sound insulation space element, and the aesthetic quality of the appearance can be effectively improved by selecting the acoustic covering element with a corresponding shape according to design requirements.

In a further embodiment, the thickness of the acoustic cover element is below 2mm, and the surface of the acoustic cover element is made of a metal material.

The inside magnetic connection spare that has preset of sound insulation space component, magnetic connection spare is used for connecting acoustic covering element and sound insulation space component, adsorbs the metal material on acoustic covering element surface through magnetic connection spare, can reduce acoustic covering element thickness to when adapting to the lower sound insulation space component of thickness, not only can guarantee that acoustic covering element and sound insulation space component's connection location, and then play reinforcing acoustic treatment effect to the joint seam, can improve the surface smoothness in sound insulation space simultaneously and provide a succinct outward appearance effect that has aesthetic appeal for whole sound insulation space.

In a further embodiment, a detachable sound insulation construction further comprises: at least one connection piece is provided inside the acoustic cover element and the sound-proof space element.

The connector is pre-set to protrude/recess the acoustic cover element/sound insulating space element in which it is located.

In a further embodiment, the connection is a magnetic connection or a screw arrangement or a plug-in structure or a mortise-tenon structure protruding/recessed into the acoustic cover element/sound insulation space element in which it is located.

The connector is arranged in advance on the acoustic covering element/sound insulation space element at least 2mm, the relative positions of the acoustic covering element and the sound insulation space element in a covering connection can be properly adjusted through proper adjustment of the protruding and recessed depths, the adjacent acoustic covering elements can be mutually positioned so as to ensure the accuracy and flatness of the installation of the acoustic covering elements, and some possible deformation of the acoustic covering elements along the length direction is adjusted and eliminated, so that the sealing and acoustic performance are enhanced. Further, the creation of an aesthetically attractive appearance effect that is compact to the sound deadening space provides a beneficial aid.

In a further embodiment, the visible face of the sound-insulating spatial element and/or the acoustic cover element is provided with a moulding, which is a straight line segment and/or a curve of a predetermined curvature.

The molding is a score line or splice line provided to the visible face of the sound deadening spatial element and/or acoustic cover element.

By grooving or cutting the visible face of the sound insulating spatial element and/or the acoustic cover element to form a molding, the molding can be made to have a decorative effect while achieving acoustic performance using the sound insulating spatial element and the inner material of the acoustic cover element.

The beneficial effects of the utility model are as follows: according to the utility model, the acoustic covering element is used for covering the connecting joint of the sound insulation space element, so that the problem that the acoustic quality of the outer surface of the existing sound insulation space is deficient in the environment due to the fact that the connecting joint between the vertical surface component and the door frame is not subjected to acoustic treatment in the prior art can be solved, and the acoustic quality of the outer surface of the sound insulation space in the environment is greatly improved.

The visible surfaces of the sound insulation spaces such as the wall element, the door element, the window element, the top element and the bottom element are made of the same material as the acoustic covering element, so that the appearance effect of the sound insulation space with simple aesthetic appeal is further improved, the problem that the aesthetic quality of the outer surface of the existing sound insulation space is deficient in the environment can be solved, and the aesthetic quality of the outer surface of the sound insulation space in the environment is greatly improved.

Drawings

Fig. 1 is an isometric view of an embodiment of the utility model as a removable sound deadening spatial conference room.

FIG. 2 is a schematic view of the plan A-A cross-section of FIG. 1.

Fig. 3 is a schematic front view of an embodiment of the utility model as a removable sound-deadening spatial conference room without an acoustic cover element.

Fig. 4 is a schematic view of the acoustic cover element of the present utility model when not assembled.

Fig. 5 is a schematic front view of an assembled acoustic cover element of the present utility model, in which the hole of the acoustic cover element is plugged by a threaded device.

Fig. 6 is an enlarged schematic view of a portion at B of fig. 2.

Fig. 7 is an isometric view of an embodiment of the utility model as a removable sound deadening space kiosk.

Fig. 8 is a schematic cross-sectional view of fig. 7.

FIG. 9 is a schematic cross-sectional view of an acoustic cover element having a thickness of less than 2mm for partial use in an embodiment of the utility model as a removable sound deadening spatial kiosk.

FIG. 10 is a schematic cross-sectional view of a partially used L-shaped and U-shaped acoustic cover member of the present utility model as an embodiment of a removable sound deadening spatial kiosk.

FIG. 11 is a schematic illustration of the use of an acoustic cover member to cover the sound deadening space member and the connection joint when the present utility model is used as an embodiment of a removable sound deadening space kiosk.

The reference numerals shown in the figures are: wall element 10, door element 20, top element 30, window element 40, bottom element 50, acoustic cover element 60, connection seam 70, connector 80, molding 101.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

The utility model discloses a detachable sound insulation structure, which can enable the outer surface of the sound insulation structure to provide good acoustic quality and aesthetic quality for the environment.

In a first aspect of the present utility model,

the detachable sound insulation construction as shown in fig. 1 and 2 constitutes a detachable sound insulation space meeting room, which includes: a number of sound insulating spatial elements and an acoustic cover element 60.

The types of the sound insulation space elements are wall elements 10, door elements 20, window elements 40, top elements 30 and bottom elements 50, wherein the wall elements 10, the door elements 20 and the window elements 40 form a detachable sound insulation space after the top elements 30 and the bottom elements 50 are connected in a enclosing mode, and connecting joints 70 are arranged between adjacent sound insulation space elements.

The acoustic cover element 60 is a plate material with a cross section in a shape of a straight line, an L shape or a U shape, which can effectively cover the joint of the sound insulation space elements to further improve the acoustic performance, and the acoustic cover element 60 with a corresponding shape can be selected according to design requirements to effectively improve the aesthetic quality of the appearance.

The acoustic cover member 60 is covered on at least one of the connection seams 70, and the number and area of the covered connection seams 70 can be adjusted according to design requirements, and in this embodiment, a full cover is used to achieve better acoustic performance, and the acoustic cover is made of acoustic material.

The acoustic cover element 60 covers the border of the door element 20 and/or the window element 40.

The visible face of the sound-insulating spatial element is of the same material as the surface of the acoustic cover element 60, in this embodiment the visible face of the sound-insulating spatial element and the acoustic cover element 60 are made of a porous sound-absorbing material having a sound-absorbing effect.

In a further embodiment of the first aspect, the acoustic cover element 60 comprises at least one layer of surface acoustic material, and at least one layer of internal acoustic material. In this embodiment, the surface acoustic material is a nonmetallic or metallic acoustic material, such as a fabric made of various fibers, a veneer material of various furniture such as fireproof board material or veneer material, or a veneer material of a metal board material such as steel or aluminum with a thickness of less than 1.5 mm. The internal acoustic material is non-metal or metal acoustic material, such as various furniture boards of medium density fiber board material, multilayer board material and the like, or metal board material of steel or aluminum and the like with different thickness. The materials of these surface acoustic materials and internal acoustic materials may each, alone or in combination, serve different acoustic functions of absorbing and insulating sound.

The material of the visible face of the sound deadening space member is the same as the surface acoustic material of the acoustic cover member 60, and the surface orientations of the acoustic cover member 60 and the sound deadening space member can be tuned according to design requirements.

The surface acoustic material plays a sound insulation/absorption/decoration role, the internal acoustic structure material plays an acoustic role, and different acoustic cover elements 60 at different positions in one sound insulation space can be combined and exchanged for use.

In a further embodiment of the first aspect, the acoustic cover element 60 covers a predetermined area of the surface of the sound insulating spatial element.

In this embodiment, the predetermined area may be the entire surface of the sound-deadening space member or may be a partial surface.

If the plane in which the width of the acoustic cover element 60 is located and the plane in which the thickness is located are not located, but only if the width surface and the thickness surface are made of the same material, the surface in which the thickness of the element is located and the connecting seam 70 between the elements are covered, and the frame of the window element 40 or the door element 20 are covered, the function of the acoustic cover element 60 can still be realized, and the local thickness of the sound insulation structure can be adjusted by combining with the embodiment in which the frame of the window element 40 or the door element 20 is covered by the acoustic cover element 60, so that the surface flatness of the sound insulation structure is further improved, and the aesthetic quality is improved.

In a further embodiment of the first aspect, the thickness of the acoustic cover elements 60 is below 30mm, at least two acoustic cover elements 60 are superimposed on the connection seam 70, the number of superimposed being adjustable according to design requirements.

The overall thickness of the acoustic cover element 60 can be adjusted according to the thickness of the connection seam 70 of the sound insulation space element, the thickness of the acoustic cover element 60 is generally below 30mm, the outer surface material of the element continuously extends from the surface in the width and length directions of the element to cover the thickness direction of the element without interruption through gradual adjustment of the thickness of the acoustic cover element 60, and then the connection between the element and the adjacent element becomes the transition of the same surface material, so that the whole element can continuously adopt the same material on all visible surfaces including the thickness direction, and the condition that another surface material is adopted in the thickness direction because of the interruption of the connection of the surface in the width and length directions and the thickness direction is avoided. The connection between the acoustic cover element 60 and the wall element 10 of the entire sound-insulating space is a simple, flat and continuous transition with a partially curved surface of the same material, and all the surfaces of the same material are located at the outermost side of the entire sound-insulating space. Providing a surface of the sound insulation space with a simple and continuous curved surface and an aesthetically attractive appearance.

In a further embodiment of the first aspect, the thickness of the acoustic cover element 60 is below 2mm, the surface of the acoustic cover element 60 being of a metallic material.

The interior of the sound-insulating space element is pre-provided with a magnetic connection 80, the magnetic connection 80 being used to connect the acoustic cover element 60 and the sound-insulating space element.

The acoustic cover member 60 having a thickness of less than 2mm is employed on both sides of the door member 20 as shown in fig. 9.

The magnetic connecting piece 80 is used for adsorbing the metal material on the surface of the acoustic covering element 60, so that the thickness of the acoustic covering element 60 can be reduced to adapt to the sound insulation space element with lower thickness, and meanwhile, the connection positioning of the acoustic covering element 60 and the sound insulation space element can be ensured, further, the connection joint 70 is subjected to the effect of enhancing the acoustic treatment, and meanwhile, the surface flatness of the sound insulation space can be improved to provide a simple and attractive appearance effect for the whole sound insulation space.

In the first aspect, by using the acoustic cover member 60 to cover the connection seam 70 of the sound insulation space member, the problem that the connection seam 70 between the prior art facade element and the door frame is not acoustically treated, which results in the existing sound insulation space having a deficient acoustic quality for the environment, can be solved, and the acoustic quality of the sound insulation space outer surface for the environment can be greatly improved.

And the visible surfaces of the sound insulation spaces such as the wall element 10, the door element 20, the window element 40, the top element 30 and the bottom element 50 are made of the same material as the acoustic covering element 60, so that the appearance effect of the sound insulation space with simple aesthetic appeal is further improved, the problem that the aesthetic quality of the existing sound insulation space is deficient in the environment can be solved, and the aesthetic quality of the environment is greatly improved.

In a second aspect of the present utility model,

the detachable sound insulation construction on the basis of the first aspect further includes: at least one connection 80 is preset inside the acoustic cover element 60 and the sound-insulating space element.

The connection 80 is pre-set to protrude/recess the acoustic cover element 60/sound insulating space element in which it is located.

In a further embodiment of the second aspect, the connection 80 is a magnetic connection 80 or a screw arrangement or a plug-in structure or a mortise-tenon structure protruding/recessed into the acoustic cover element 60/sound insulating space element in which it is located.

The screw means in the embodiment shown in fig. 3 is a split bolt.

In the embodiment shown in fig. 6 the screw means is a countersunk screw which when mated with the hole of fig. 4 is able to achieve the planar effect of fig. 5.

As shown in fig. 4, the end of one acoustic cover element 60 is provided with a protrusion, the adjacent side of the acoustic cover element 60 is provided with a mounting hole, and the protrusion is inserted into the mounting hole to realize the plug-in structure connection of the acoustic cover element 60, which can also be used for positioning the adjacent sound insulation space elements.

The connectors 80 are pre-positioned at least 2mm protruding/recessed from the acoustic cover element 60/sound insulating space element in which they are located.

By appropriate adjustment of the protrusion and recess depths, so that the relative positions of the acoustic cover elements 60 and the acoustic insulation space element cover connections can be appropriately adjusted, adjacent acoustic cover elements 60 can be positioned relative to each other to ensure accuracy and flatness of the installation of the acoustic cover elements 60, some possible deformation of the acoustic cover elements 60 along the length direction is thereby adjusted and eliminated, enhancing sealing and acoustic performance. Further, the creation of an aesthetically attractive appearance effect that is compact to the sound deadening space provides a beneficial aid.

In a third aspect of the present utility model,

on the basis of the first or second aspect, the visible face of the sound-deadening spatial element and/or the acoustic covering element 60 is provided with a molding 101, the molding 101 being a straight line segment and/or a curve of a predetermined curvature.

The molding 101 is a score line or splice line provided to the visible face of the sound deadening spatial element and/or acoustic cover element 60.

Examples

Referring to the drawings, wherein like reference characters identify corresponding or similar elements throughout the several views. Fig. 1-6 depict various views of a sound deadening spatial conference room in accordance with an embodiment of the present utility model. Fig. 7-11 depict various views of a sound deadening space kiosk and variations thereof, according to embodiments of the utility model. It should be appreciated that the acoustic cover element 60 of the removable sound-insulating space and the method of installing and combining the same in accordance with the present utility model overcome one or more of the above-described problems typically associated with conventional sound-insulating spaces.

Fig. 1 and 2 are perspective and transverse sectional views of an embodiment detachable sound insulation space conference room, the conference room comprising: wall element 10, door element 20, top element 30, bottom element 50, window element 40, vertical acoustic cover element, and lateral acoustic cover element. The connection joints 70 between the wall element 10 and the window element 40, and between the top element 30 and the bottom element 50 of the conference room are covered by vertical acoustic cover elements, the connection joints 70 between the wall element 10 and the window element 40, and between the top element 30 and the bottom element 50 are covered by vertical acoustic cover elements, the connection joints 70 between the wall element 10 and the window element 40 are covered by vertical acoustic cover elements, the connection between the top element 30 and the window element 40 and the door element 20, and the connection between the bottom element 50 and the window element 40 and the door element 20 of the conference room are covered by horizontal acoustic cover elements. In another embodiment, the transverse acoustic cover member may be pre-affixed to the top member 30 as part of the top member 30, reserving the mounting space for the window member 40 and the door member 20 with the top member 30. In another embodiment, the transverse acoustic cover member itself is part of the top member 30. The same surface material is used for the acoustic cover member 60 and the wall member 10.

Fig. 3 is a front view of an embodiment sound-deadening spatial conference room that does not contain an acoustic cover element 60.

The conference room is enclosed by the wall member 10, the window member 40, the door member 20, the top member 30 and the bottom member 50, wherein the connection joint 70 between the wall member 10 and the top member 30 and the bottom member 50 is fixedly connected by the fixing connector 80 installed at the side in the thickness direction of the sound insulation space wall member 10, the connection joint 70 of which should be covered by the acoustic cover member 60 in the schematic view with the acoustic cover member 60, while the combination connector 80 is previously provided on the side where the wall member 10, the top member 30, the bottom member 50 and the acoustic cover member 60 are combined for connection with the combination connector 80 previously provided inside the vertical and lateral acoustic cover members.

Fig. 4 is a schematic view of a composite connector 80 pre-arranged inside a vertical and a horizontal acoustic cover element of an embodiment sound-proof space meeting room, it should be emphasized that the arrangement of the composite connector 80 may be various shapes, at least one composite connector 80 may be pre-arranged protruding/recessing in the acoustic cover element 60, for example using a magnetic connector 80, at least one composite connector 80 protruding/recessing is pre-arranged at least two mm above the surface of the acoustic cover element 60, at the same time at the side of the wall element 10 and the top element 30, the bottom element 50 being combined with the acoustic cover element 60, at least one composite connector 80 protruding/recessing is pre-arranged at least two mm above the surface of the wall element 10 or the top and bottom element 50, the composite connector 80 may be arranged as means for adjusting the protruding or recessing depth, for example screw means. By appropriate adjustment of the protrusion and recess depth, the relative position of the connection of the acoustic cover member 60 to the wall, top and bottom members 50 can be appropriately adjusted, and some possible deformation of the acoustic cover member 60 along the length direction can be adjusted accordingly, enhancing sealing and sound insulation properties. Further, positioning parts are arranged at two ends of the transverse acoustic cover elements to mutually position the adjacent vertical acoustic cover elements. In a further embodiment, positioning elements are provided at both ends of the vertical acoustic cover elements for positioning adjacent lateral acoustic cover elements relative to each other.

Fig. 5 is an illustration of the effect of the vertical and horizontal acoustic cover elements of an embodiment sound deadening spatial conference room after positioning by positioning features, improving the consistency and flatness of the combination of the horizontal and vertical acoustic cover elements with each other. The creation of an aesthetically attractive look effect that is compact for the conference room provides a beneficial aid.

Fig. 6 is a close-up view of an embodiment sound-deadening spatial conference room showing wall element 10 and window element 40 joined together by a joining seam 70, the joining seam 70 and the rim of window element 40 being covered by a vertical acoustic covering element, the acoustic covering element 60 typically having a thickness of less than 30mm, comprising at least one layer of surface acoustic material and at least one layer of internal acoustic material, the surface acoustic material of which provides acoustic and decorative effects, such as sound-deadening and decorative effects, and the internal acoustic material of which provides acoustic effects, such as sound-deadening effects, while providing structural effects. The connector 80 is mounted protruding from the back of the vertical acoustic cover element, forming a combined connector 80 with the connector 80 recessed into the wall element 10, by which the vertical acoustic cover element is mounted to the side of the wall element 10 and simultaneously covers the connection joint 70 between the wall element 10 and the window element 40 and the rim of the window element 40, forming an effective sealed acoustic connection. The connector 80 may be threaded internally to adjust its relative distance from the surface of the wall element 10. In another embodiment, the adjustable connector 80 is mounted inside the acoustic cover element 60, with the connector 80 protruding from the surface of the wall element 10 to perform the same function. At least one connecting piece 80 in the combined connecting piece 80 formed by the connecting pieces 80 protrudes or is recessed at least 2mm from the element where the connecting piece 80 is located, so that relatively accurate positioning and mounting of the vertical acoustic cover element can be effectively realized, the positioning and mounting positions can be properly adjusted according to the situation, the mounting accuracy and flatness of the acoustic cover element 60 can be ensured, an effective sealing acoustic connection is formed for the connecting joint 70 between the wall element 10 and the window element 40, a relatively good acoustic sound insulation effect is achieved, meanwhile, because the acoustic cover element 60 covers not only the connecting joint 70, but also the frame of the window element 40, not only is an effective sealing acoustic connection formed, a relatively good acoustic sound insulation effect is achieved, but also the acoustic cover element 60 covers the connecting joint 70 and the frame of the window element 40 because the acoustic cover element 10 covers the thickness direction, so that the complex connecting structure appearance is replaced by a simple surface of the acoustic cover element 60, an attractive appearance is formed for the conference room, the acoustic surface of the vertical wall element 10 and the same acoustic surface are further covered by the same acoustic surface, and the same acoustic surface of the vertical wall element is covered by the same material. The composite connector 80 may be coupled in a variety of ways, such as magnetically.

Fig. 6 is an enlarged view of a portion of an exemplary sound-deadening spatial conference room, wherein the surface acoustic material of the element extends continuously from the surface in the width and length directions of the element to cover the thickness direction of the element without interruption, and then transitions to the same surface material as the wall element 10, i.e., transitions to the surface acoustic material of the vertical acoustic cover element, and then transitions to the surface acoustic material of the wall element 10, and so on, while the acoustic cover element 60 covers the joint seam 70, providing a simple continuous curved surface to the sound-deadening spatial surface and an aesthetically attractive appearance. The outer surface of the vertical acoustic covering element continuously extends from the surface in the width direction and the surface in the length direction of the element to cover the thickness direction of the element without interruption, so that the whole element can continuously adopt the same material on all visible surfaces including the thickness direction, and the condition that another surface material is adopted in the thickness direction because of the interruption of connection of the surface in the width direction and the length direction and the thickness direction is avoided. In another embodiment, the surface of the transverse acoustic cover member is likewise uninterrupted extended to include the thickness direction along its width and length directions, such that the length, width and thickness of the transverse acoustic cover member are likewise formed as a continuous extended uninterrupted surface and are of the same type of surface acoustic material. The corner of the vertical acoustic cladding element, i.e. the intersection of the two straight lines in the lower right hand corner of fig. 6, although the two planes of the corner are not in the same plane and a break occurs where the two planes intersect, the two planes of facing material remain facing acoustic material and still the connection with the wall element 10 is a transition of the same facing acoustic material, i.e. from the facing acoustic material of the lateral acoustic cladding element, to the facing acoustic material of the vertical acoustic cladding element, and then to the facing material a of the wall element 10.

Fig. 7 and 8 are perspective and cross-sectional views of an embodiment removable sound deadening space kiosk, the kiosk comprising: wall element 10, door element 20, top element 30, bottom element 50, vertical acoustic cover element and lateral acoustic cover element. The connection between the vertical and horizontal acoustic cover elements and the wall element 10, the door element 20, the top element 30 and the bottom element 50 takes the same method of the combined connection 80 as in the example conference room. The connection joints 70 between the wall element 10 and the door element 20 of the kiosk and the top element 30 and the bottom element 50 are covered by vertical acoustic cover elements, and the lateral connections between the top element 30, the bottom element 50 and the door element 20 of the kiosk are covered by lateral acoustic cover elements. In another embodiment, the transverse acoustic cover member may be pre-affixed to the bottom member 50, which reserves the mounting space for the door member 20 with the bottom member 50. The vertical and horizontal acoustic cover elements and the wall element 10 are of the same type of surface acoustic material. The surface acoustic material of the wall element 10 is slit to form two parallel lines as a decorative effect. The outer surface materials of the acoustic cover member 60 and the module member may be grooved or cut to form various lines as a decorative effect.

Fig. 9 is a cross-sectional view of an embodiment of a removable sound deadening space kiosk, with the vertical and horizontal acoustic cover members connected to wall member 10, door member 20, top member 30, and bottom member 50 using the same method of modular connection 80 as the embodiment meeting room. The differences are: the vertical acoustic cover element is made of metal materials with the thickness below 2mm, can play a role in sound insulation, is not provided with the combined connecting piece 80 inside, adopts a magnetic adsorption method, namely, a magnetic adsorption element is preset inside the wall, top and bottom elements 50, and is used for adsorbing and connecting the acoustic cover element 60 made of metal steel materials. In this solution, the surface of the wall element 10 is made of a metallic material having a thickness of 2mm or less, as in the case of the vertical acoustic cover element. While in this solution the connection seam 70 is covered by a vertical acoustic cover element, which adopts the construction method of the vertical acoustic cover element in fig. 6, in another embodiment the vertical acoustic cover element adopts the construction method of the vertical acoustic cover element in fig. 6, in which different vertical acoustic cover elements in different positions can be combined and exchanged in one sound insulation space.

Fig. 10 is a cross-sectional view of an embodiment of a removable sound deadening space kiosk, with the vertical and horizontal acoustic cover members connected to wall member 10, door member 20, top member 30, and bottom member 50 using the same method of modular connection 80 as the embodiment meeting room. In this solution, the vertical acoustic cover member may be further expanded to cover a part of the outer elevation of the wall member 10 in the width direction, in addition to the joint seam 70 between the wall member 10 and the door member 20, the window member 40, and the vertical acoustic cover member and the wall member 10 are made of the same surface acoustic material. Further, two adjacent acoustic cover elements 60 may be combined into one vertical cover element that covers the wall element 10 and the door element 20 or between two adjacent connection seams 70 of the wall element 10 and the window element 40 and simultaneously covers two adjacent connection seams 70, and uses the same surface acoustic material as the other acoustic cover elements 60 and wall element 10 of the same sound insulation space.

Fig. 11 is a cross-sectional view of an embodiment of a removable sound deadening space kiosk, with the vertical and horizontal acoustic cover members connected to wall member 10, door member 20, top member 30, and bottom member 50 using the same method of modular connection 80 as the embodiment meeting room. In this solution, the acoustic cover element 60 is made of the same porous sound absorbing material that serves as sound absorber, wherein the acoustic cover element 60 covers the wall element 10, the door element 20, the window element 40, the top element 30 and the bottom element 50 and at the same time covers the connection seam 70. By the above combination method, all of the horizontal and vertical acoustic cover element surfaces and wall element 10 surfaces of the sound-deadening space kiosk are made of the same porous sound absorbing material, providing a compact aesthetic appeal for the entire sound-deadening space while providing acoustic sound absorption to the connection joint 70 of the kiosk, while providing overall sound absorption to ambient noise.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. A detachable sound insulation construction, comprising: the sound insulation space elements are of the type of wall elements, door elements, window elements, top elements and bottom elements, wherein the wall elements, the door elements and the window elements form detachable sound insulation spaces after the top elements and the bottom elements are connected in a enclosing mode, and connecting joints exist between adjacent sound insulation space elements;

characterized by further comprising: an acoustic cover element covering at least one connection seam, the acoustic cover element being made of an acoustic material;

the acoustic cover element covers the border of the door element and/or window element;

the visible surface of the sound insulation space element is made of the same material as the surface of the acoustic covering element.

2. A detachable sound insulation construction according to claim 1, wherein the visible face of the sound insulation space element and the acoustic cover element are made of a porous sound absorbing material having sound absorbing effect.

3. A removable acoustic insulation construction according to claim 1 wherein the acoustic cover element comprises at least one layer of surface acoustic material and at least one layer of internal acoustic material;

the surface acoustic material is a fireproof plate material, a veneer material or a facing material of a metal plate material with the thickness of less than 1.5 mm;

the internal acoustic material is a medium-density fiberboard material, a multi-layer board material or a metal plate material;

the material of the visible face of the sound-insulating spatial element is the same as the surface acoustic material of the acoustic cover element.

4. A detachable sound insulation construction according to claim 1, wherein the acoustic cover member covers a predetermined area of the surface of the sound insulation space member.

5. A detachable sound insulation construction according to claim 1, wherein the total thickness of the acoustic cover elements is below 30mm, at least two of the acoustic cover elements being superimposed over the connection seam.

6. A removable acoustic insulation structure according to claim 1 wherein the acoustic cover member is a sheet material having a cross-section in the form of a straight or L or U.

7. A detachable sound insulation construction according to claim 1, wherein the thickness of the acoustic cover element is below 2mm, the acoustic cover element surface being of a metallic material;

the interior of the sound insulation space element is preset with a magnetic connecting piece, and the magnetic connecting piece is used for connecting the acoustic covering element and the sound insulation space element.

8. The detachable sound insulation construction of claim 1, further comprising: at least one connection piece preset inside the acoustic cover element and the sound-proof space element;

the connector is pre-set to protrude/recess the acoustic cover element/sound insulating space element in which it is located.

9. A detachable sound insulation construction according to claim 8, wherein the connector is a magnetic connector or screw or peg or mortise and tenon structure protruding/recessed into the acoustic cover/sound insulation space element in which it is located;

the connector projection/recess is pre-arranged at least 2mm to the acoustic cover element/sound insulating space element in which it is located.

10. A detachable sound insulation construction according to claim 1, wherein the visible face of the sound insulation space element and/or the acoustic cover element is provided with a moulding, which moulding is a straight line segment and/or a curve of predetermined curvature;

the molding is a score line or splice line provided to the visible face of the sound deadening spatial element and/or acoustic cover element.