CN218324522U - A have frame glass door for giving sound insulation room - Google Patents

Abstract

The utility model provides a there is frame glass door for giving sound insulation room should have frame glass door to include: a glass door body; the door leaf frame is arranged along the whole periphery of the outer edge of the glass door body and is used for protecting the glass door body; the door stop frame is matched with the door leaf frame, the door stop frame is sleeved on the periphery of the door leaf frame, and the door leaf frame is connected with two corresponding corners of the door stop frame in a rotatable mode and used for realizing rotation of the glass door. The glass door body is protected by the door leaf frame arranged along the whole periphery of the outer edge of the glass door body, collision when the glass door body is carried is avoided, further, the toughened glass is prevented from being broken when the toughened glass touches corners, and the safety in use of the glass door is improved; the door stop frame arranged on the periphery of the door leaf frame can be assembled in a factory to form an integral module, and only the module needs to be installed on site, so that the installation efficiency on site is improved.

Description

A have frame glass door for giving sound insulation room

Technical Field

The utility model relates to a technical field of making an uproar falls in giving sound insulation particularly, relates to a there is frame glass door for giving sound insulation room.

Background

The sound insulation device is a quiet room or small room which is built in a local environment space and has certain sound insulation performance. For example, a sound insulation device is arranged in an office, so that a user can answer a call in the sound insulation device, and the influence on the normal work of other people in the office is prevented; the sound insulation device is arranged in an open public place, so that people can enter the sound insulation device to answer calls or have a rest, and the influence of external noise can be prevented.

However, in the existing sound insulation device, most of glass doors are frameless glass doors, and the installation of the doors on site is required to be carried out independently, so that the installation complexity and the transportation risk are increased, and furniture is easy to knock to cause glass fragmentation when the frameless glass doors are used.

Disclosure of Invention

In view of this, the utility model provides a there is frame glass door for giving sound insulation room aims at solving the complicated problem that has the transportation risk of current glass door installation.

The utility model provides a there is frame glass door for giving sound insulation room, this has frame glass door includes: a glass door body; the door leaf frame is arranged along the whole periphery of the outer edge of the glass door body and is used for protecting the glass door body; the door stop frame is matched with the door leaf frame, the door stop frame is sleeved on the periphery of the door leaf frame, and the door leaf frame is connected with two corresponding corners of the door stop frame in a rotatable mode and used for realizing rotation of the glass door.

Further, the above-mentioned framed glass door for soundproof room, the door frame includes: four door leaf aluminum profiles; the four door leaf aluminum profiles are respectively matched with four side edges of the glass door body, and a quadrilateral frame structure matched with the glass door body is formed by surrounding the four door leaf aluminum profiles; four edges of the quadrilateral frame structure are provided with door leaf connecting angle codes, two ends of each door leaf connecting angle code are embedded in two door leaf aluminum profiles at the edges of the quadrilateral frame structure respectively, and two ends of each door leaf connecting angle code are connected with two door leaf aluminum profiles respectively, so that four door leaf aluminum profiles are connected to form an integrated glass frame protection structure.

Further, according to the framed glass door for the soundproof room, the door leaf aluminum section is provided with a door leaf corner code cavity which is matched with the door leaf connecting corner code, so that the door leaf connecting corner code is embedded in the door leaf corner code cavity; the door leaf aluminum profile is arranged at the door leaf angle code cavity, a door leaf angle code fixing hole is formed in the door leaf connecting angle code, a door leaf connecting hole is formed in the door leaf connecting angle code, is matched with the door leaf angle code fixing hole and is used for fixedly connecting the door leaf connecting angle code with the door leaf aluminum profile through a connecting screw.

Furthermore, the sash aluminum section is provided with a glass clamping groove for clamping and fixing the glass door body; and an adhesive layer is arranged between the inner wall of the glass clamping groove and the outer edge of the glass door body and is used for fixing the glass door body and the door leaf aluminum profile and sealing a gap between the glass door body and the door leaf aluminum profile.

Further, above-mentioned framed glass door for soundproof room, the door stop frame includes: four door stop aluminum profiles; the four door stop aluminum profiles are respectively matched with four sides of the door leaf frame, and a quadrilateral outer frame structure matched with the door leaf frame is formed by surrounding the four door stop aluminum profiles; four edges of the quadrilateral frame structure are provided with door stop connecting angle codes, two ends of each door stop connecting angle code are embedded in two door stop aluminum profiles at the edges of the quadrilateral frame structure respectively, and two ends of each door stop connecting angle code are connected with two door stop aluminum profiles respectively, so that four door stop aluminum profiles are connected to form an integrated glass frame mounting structure.

Further, the door stop aluminum profile is provided with a mounting hole for mounting the door stop aluminum profile onto the fixing piece through a screw; and the door stop aluminum profile is provided with a buckling cover clamping groove for clamping and fixing a buckling cover so as to shield the screw at the mounting hole.

Furthermore, the framed glass door for the sound insulation room is characterized in that a sealing clamping groove is formed in the door stop aluminum profile, and the sealing clamping groove is arranged opposite to the buckling cover clamping groove and used for clamping a first sealing rubber strip so as to seal a gap between the door stop aluminum profile and the fixing piece; and a second sealing rubber strip is further arranged on the door stop aluminum profile and used for sealing a gap between the door leaf frame in a door closing state and the door stop aluminum profile.

Further, in the framed glass door for a soundproof room, a plurality of door stop connecting corner connectors are arranged at each corner of the quadrangular outer frame structure, and are arranged on the door stop aluminum profiles side by side at intervals in the width direction of the door stop aluminum profiles; be equipped with on the door shelves aluminium alloy a plurality ofly with door shelves connect the door shelves angle sign indicating number die cavity of angle sign indicating number one-to-one, it is a plurality of door shelves angle sign indicating number die cavity is followed the width direction of door shelves aluminium alloy sets up just at the interval side by side.

Further, above-mentioned there is frame glass door for giving sound insulation room, the door shelves aluminium alloy is in door shelves angle sign indicating number die cavity department is equipped with door shelves angle sign indicating number fixed orifices, and, be equipped with the door shelves connecting hole on the door shelves connection angle sign indicating number, its with door shelves angle sign indicating number fixed orifices looks adaptation is used for realizing through the connecting screw door shelves connection angle sign indicating number with fixed connection between the door shelves aluminium alloy.

Furthermore, the door stop connecting angle bracket is provided with a lightening hole which penetrates through the door stop connecting angle bracket along the thickness direction of the door stop connecting angle bracket; and/or a weight reduction cavity penetrating through the door stop connecting angle bracket along the width direction of the door stop connecting angle bracket is arranged on the door stop connecting angle bracket.

The glass door with the frame for the sound insulation room, provided by the utility model, protects the glass door body through the door leaf frame arranged along the whole periphery of the outer edge of the glass door body, avoids collision when the glass door body is carried, further avoids breakage when toughened glass touches corners, improves the safety of the glass door in use, and reduces the time of field installation; the door stop frame arranged on the periphery of the door leaf frame can be assembled in a factory to enable the door stop frame, the door leaf frame and the door leaf frame to form an integral module, the door stop frame and the door leaf frame are integrally transported as a door module, only the module needs to be installed on site, the installation efficiency on site is improved, and the problem that the existing glass door is complex to install and has transportation risks is solved.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural view of a sound insulation room provided by an embodiment of the present invention;

fig. 2 is a schematic structural view of a framed glass door for a soundproof room according to an embodiment of the present invention;

fig. 3 is an exploded view of a framed glass door for a soundproof room according to an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

FIG. 6 is an enlarged view of a portion of FIG. 3 at C;

FIG. 7 is an enlarged view of a portion of FIG. 3 at D;

fig. 8 is a sectional view of a partial position of a framed glass door for a soundproof room according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that, in the case of no conflict, the embodiments and features of the embodiments of the present invention may be combined with each other. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Refer to fig. 1, which is a schematic structural diagram of a sound insulation room provided by an embodiment of the present invention. As shown, the soundproof room includes: the glass door comprises a bottom plate 1, a top plate 2, two wallboards 3, a sealing plate module 4 and a framed glass door 5; wherein, the first and the second end of the pipe are connected with each other,

two wallboard 3 set up side by side between bottom plate 1 and roof 2, and shrouding module 4 sets up side by side between bottom plate 1 and roof 2 with have frame glass door 3, and all is mutually perpendicular with two wallboard 3, and bottom plate 1, roof 2, two wallboard 3, shrouding module 4 and have 5 concatenation of frame glass door to enclose the formation and become a sound insulation space. Specifically, two wallboard 2 set up side by side, and shrouding module 4 sets up side by side and all is mutually perpendicular with two wallboard 2 with framed glass door 3, and two wallboard 2, shrouding module 4 and framed glass door 3 detachably connect respectively between bottom plate 1 and roof 5, and wallboard 2 and framed glass wallboard 4, have between the framed glass door 3 detachably to be connected, form the shelter structure, adopt the modularization to assemble the structure, and it is all very convenient to make, transport and install and remove. The closing plate module 4 may be a framed glass wallboard, or may be other wallboard structures, and is not limited in this embodiment.

Referring to fig. 2 to 8, a preferred structure of the framed glass door according to the embodiment of the present invention is shown. As shown in the drawing, the framed glass door 5 includes: a glass door body 51, a door frame 52, and a door frame 53; wherein, the first and the second end of the pipe are connected with each other,

the door frame 52 is provided along the entire periphery of the outer edge of the glass door body 51, and protects the glass door body 51. Specifically, door leaf frame 52 sets up along the whole week of glass door body 51's outer fringe to, the whole cover of door leaf frame 52 is established in glass door body 51's periphery, in order to protect glass door body 51, the clash when avoiding glass door body 51 to carry, and then the breakage when avoiding toughened glass to touch the corner, improves the security in the glass door uses. In this embodiment, an adhesive layer (not shown) is disposed between an inner wall of the door frame 52 and an outer edge of the glass door body 51, and is used for fixing the glass door body 51 and the door frame 52 and sealing a gap therebetween, that is, the glass door body 51 can be fixed in the middle of the frame body of the door frame 52 by gluing. The glass door body 51 may be provided with a door lock.

The door stop frame 53 is adapted to the door leaf frame 52, the door stop frame 53 is sleeved on the periphery of the door leaf frame 52, and the two corresponding corners (the upper and lower left corners shown in fig. 3) of the door leaf frame 52 and the door stop frame 53 are connected in a rotatable manner for realizing the rotation of the glass door. Specifically, as shown in fig. 2, the door stop frame 53 is circumferentially fitted around the outer periphery of the door leaf frame 52; as shown in fig. 4, a hinge block 54 is disposed at a corner of the door stop frame 53, the hinge block 54 is at least partially disposed outside the door stop frame 53, and a hinge groove 541 is disposed on a portion of the hinge block 54 disposed outside the door stop frame 53; as shown in fig. 5, hinge shafts 55 are provided at positions of the door frame 52 corresponding to corners of the door stop frame 53 where the hinge blocks 54 are provided, and the hinge shafts 55 are rotatably inserted in the hinge grooves 541, so that the door frame 52 and the glass door body 51 are integrally rotated with respect to the door stop frame 53. In the present embodiment, the door stop frame 53 can be fixedly connected to a fixing member such as two wall panels 3, and the rotation of the framed glass door 5, that is, the opening and closing of the framed glass door 5, is realized by the rotation of the door leaf frame 52 and the glass door body 51 integrally with respect to the door stop frame 53. The hinge block 54 may be fixed to the door stop frame 53 by a connector such as a screw, or may be fixed by other methods.

With continued reference to fig. 3 and 6, the door leaf frame 52 includes: four door leaf aluminum profiles 521; the four door leaf aluminum profiles 521 are respectively matched with the four sides of the glass door body 51, and the four door leaf aluminum profiles 521 are enclosed to form a quadrilateral frame structure matched with the glass door body 51; four edges of the quadrilateral frame structure 521 are all provided with door leaf connecting angle codes 522, two ends (the left end and the lower end shown in fig. 6) of each door leaf connecting angle code 522 are respectively embedded in two door leaf aluminum profiles 521 at the edges of the quadrilateral frame structure, and two ends of each door leaf connecting angle code 522 are respectively connected with two door leaf aluminum profiles 521, so that the four door leaf aluminum profiles 521 are connected to form an integrated glass frame protection structure.

During specific implementation, four door leaf aluminium alloy 521 are linear type structure, can divide into two kinds, and the length of two kinds of door leaf aluminium alloy 521 is respectively with glass door body 51's length, width looks adaptation to enclose between four door leaf aluminium alloy 521 and establish the quadrangle frame construction that forms and glass door body 51 looks adaptation. All be connected through door leaf connection angle sign indicating number 522 between arbitrary two adjacent door leaf aluminium alloy 521 in four door leaf aluminium alloy 521, that is to say, each edge department of quadrilateral frame structure all is equipped with door leaf connection angle sign indicating number 522, and the both ends of door leaf connection angle sign indicating number 522 are connected with two door leaf aluminium alloy 521 respectively, realize being connected between four door leaf aluminium alloy 521 for four door leaf aluminium alloy 521 enclose establish into frame as integral type glass frame protective structure. In this embodiment, the door connecting corner connector 522 is a right-angled structure, and two connecting plates vertically disposed are respectively inserted into the two door aluminum profiles 521 and are respectively connected to the door aluminum profiles 521. Wherein, detachably is connected between door leaf connection angle sign indicating number 522 and the door leaf aluminium alloy 521 to realize the dismouting of integral type glass frame protective structure.

With continued reference to fig. 6 and 8, a door leaf angle code cavity 5211 is formed in the door leaf aluminum profile 521, and is matched with the door leaf connecting angle code 522, so that the door leaf connecting angle code 522 is embedded in the door leaf angle code cavity 521. Specifically, the door leaf angle code cavity 5211 penetrates through the door leaf aluminum section 521 along the length direction of the door leaf aluminum section 521 to form a full-length cavity, so that the installation connection of two door leaf connecting angle codes 522 at two ends can be performed, and the purpose of reducing weight can be achieved; the two connecting plates of the door connecting corner bracket 522 at each corner are respectively embedded in the door corner bracket cavities 5211 of the two door aluminum profiles 521. In this embodiment, in order to improve the connection stability between the door aluminum profiles 521 and the door connecting corner connectors 522, it is preferable that the door aluminum profiles 521 are provided with door corner connector fixing holes 5212 at the door corner connector cavities 5211, and as shown in fig. 6, the door connecting corner connectors 522 are provided with door connecting holes 5221 which are matched with the door corner connector fixing holes 5212 and are used for realizing the fixed connection between the door connecting corner connectors 522 and the door aluminum profiles 521 through connecting screws, so that the four door aluminum profiles 521 are connected into the integrated glass frame protection structure and can be integrally installed on the glass door body 51, and meanwhile, the door connecting corner connectors 522 can be prevented from leaking outside, and the aesthetic property of the integrated glass frame protection structure can be ensured.

With continued reference to fig. 6 and 8, a glass slot 5213 is formed in the door leaf aluminum profile 521 for fastening the glass door body 51. Specifically, the inner wall (the left side wall as shown in fig. 6) of the door leaf aluminum profile 521 is provided with a glass slot 5213 along the length direction (the vertical direction as shown in fig. 6) thereof, and the glass slot 5213 penetrates through the length direction of the door leaf aluminum profile 521, so that the outer edges of the four sides of the glass door body 51 are respectively clamped and fixed in the glass slots 5213 of the four door leaf aluminum profiles 521; in this embodiment, an adhesive layer may be disposed between an outer edge of the glass door body 51 and an inner wall of the glass card slot 5213, so as to fix the glass door body 51 and the door leaf aluminum profile 521 and seal a gap therebetween, that is, the glass door body 51 may be fixed in the middle of the frame body of the door leaf frame 52 by a gluing method.

With continued reference to fig. 3 and 7, the door stop frame 53 includes: four door stop aluminum profiles 531; the four door stop aluminum profiles 531 are respectively matched with the four sides of the door leaf frame 52, and the four door stop aluminum profiles 531 enclose a quadrilateral outer frame structure matched with the door leaf frame 52; four edges of quadrangle frame structure all are equipped with door shelves and connect angle sign indicating number 532, and the both ends that each door shelves are connected angle sign indicating number 532 inlay respectively in two door shelves aluminium alloy 531 at quadrangle frame structure edge to, the both ends that each door shelves are connected angle sign indicating number 532 are connected with two door shelves aluminium alloy 531 respectively, so that four door shelves aluminium alloy 531 connect and form integral type glass frame mounting structure.

During specific implementation, the four door stop aluminum profiles 531 are of a linear structure and can be divided into two types, the lengths of the two types of door stop aluminum profiles 531 are respectively matched with the lengths and the widths of the door leaf frames 52, namely, the lengths of the two types of door stop aluminum profiles 531 are respectively matched with the lengths of the two types of door leaf aluminum profiles 521, so that a quadrilateral outer frame structure matched with the integrated glass frame protection structure is formed by enclosing the four door stop aluminum profiles 531. All be connected through door shelves connection angle sign indicating number 532 between two arbitrary adjacent door shelves aluminium alloy 531 in four door shelves aluminium alloy 531, that is to say, each edge of quadrangle outrigger structure all is equipped with door shelves and connects angle sign indicating number 532, and the both ends that door shelves connect angle sign indicating number 532 are connected with two door shelves aluminium alloy 531 respectively, realize being connected between the door shelves aluminium alloy 531 for four door shelves aluminium alloy 531 enclose and establish into frame as integral type glass frame mounting structure. In this embodiment, the door stop connecting corner brace 532 is a right-angle structure, and two connecting plates vertically arranged are respectively inserted into the two door stop aluminum profiles 531 and are respectively connected with the door stop aluminum profiles 531. Wherein, door shelves aluminium alloy 531 is connected with door shelves detachably between being connected angle sign indicating number 532 to realize integral type glass frame protective structure's dismouting.

With continued reference to fig. 8, a door stop corner brace cavity 5311 is provided on the door stop aluminum profile 531 and is adapted to the door stop connection corner brace 532, so that the door stop connection corner brace 532 is embedded in the door stop corner brace cavity 5311. Specifically, the door stop angle code cavity 5311 penetrates through the door stop aluminum profile 531 along the length direction of the door stop aluminum profile 531 to form a full-length cavity, so that the two door stop connecting angle codes 532 at two ends can be mounted and connected, and the purpose of reducing weight can be achieved; the two connecting plates of the door stop connecting corner bracket 532 at each corner are respectively embedded in the door stop corner bracket cavities 5311 of the two door stop aluminum profiles 531. In this embodiment, in order to improve the connection stability between the door stop aluminum profile 531 and the door stop connection corner connector 532, as shown in fig. 6, preferably, the door stop aluminum profile 531 is provided with door stop corner connector fixing holes 5312 at the door stop corner connector cavity 5311, and the door stop connection corner connector 532 is provided with door stop connection holes 5321 which are adapted to the door stop corner connector fixing holes 5312 for realizing the fixed connection between the door stop aluminum profile 531 and the door stop connection corner connector 532 through connection screws, so that the four door stop aluminum profiles 531 are connected to form an integrated glass frame mounting structure, and can be integrally mounted on a fixing member such as a wallboard 3, and meanwhile, the door stop connection corner connector 532 can be prevented from leaking outside, and the aesthetic property of the integrated glass frame mounting structure can be ensured.

In the present embodiment, as shown in fig. 3, 6 and 8, a plurality of door stop connecting corner connectors 532 are disposed at each corner of the quadrilateral outer frame structure, and are disposed on the door stop aluminum profile 531 side by side and at intervals along the width direction of the door stop aluminum profile 531; the door stop aluminum profile 531 is provided with a plurality of door stop angle code cavities 5311 corresponding to the door stop connecting angle codes 532 one to one, and the door stop angle code cavities 5311 are arranged side by side and at intervals along the width direction (vertical direction shown in fig. 8) of the door stop aluminum profile 531. Specifically, in this embodiment, it is described that the door stop connecting corner brace 532 and the door stop corner brace cavity 5311 are two examples, which can reinforce the stability of connection between the two frame aluminum profiles 531 and prevent the two sides of the frame aluminum profiles 531 from tilting. The two door stop connecting angle connectors 532 are respectively a first door stop connecting angle connector 53201 and a second door stop connecting angle connector 53202, and the two door stop angle connector cavities 5311 are respectively a first door stop angle connector cavity 531101 matched with the first door stop connecting angle connector 53201 and a second door stop angle connector cavity 5311 matched with the second door stop connecting angle connector 53202. Each door stop angle code cavity 5311 is provided with a door stop angle code fixing hole 5312, and the two door stop connecting angle codes 532 and the door stop aluminum profile 531 can be connected and fixed through two different screws, so that the two door stop connecting angle codes 532 can be distinguished and fixed, and can be fixed through the same screw, and no limitation is imposed on the door stop connecting angle codes in this embodiment.

With continued reference to fig. 6, the door stop aluminum profile 531 is provided with mounting holes 5313 for mounting the door stop aluminum profile 531 to the fixture by screws. Specifically, the mounting holes 5313 may be through holes arranged along the thickness direction of the door stop aluminum profile 531, so as to fix the door stop aluminum profile 531 and the wall plate 3 by screws, i.e., fix the door stop frame 53 and the wall plate 3. As shown in fig. 8, a cover fastening groove 5314 is disposed on the door stop aluminum profile 531 for fastening the cover 533 to shield the screw at the mounting hole 5313.

With continued reference to fig. 8, a sealing and fastening groove 5315 is formed in the door stop aluminum profile 531, and the sealing and fastening groove 5315 is opposite to the cover fastening groove 5314 and is used for fastening the first sealing adhesive tape 534 so as to seal a gap between the door stop aluminum profile 431 and the fixing member; the door stop aluminum profile 531 is further provided with a second sealing rubber strip 5316 for sealing a gap between the door leaf frame 52 and the door stop aluminum profile 531 in a door closing state.

In the embodiment, the door stop connecting angle bracket 532 is provided with a lightening hole which penetrates through the door stop connecting angle bracket 532 along the thickness direction; and/or a weight-reducing cavity penetrating through the door stop connecting angle bracket 532 along the width direction is arranged on the door stop connecting angle bracket 532. Specifically, as shown in fig. 6, the first door stop connecting corner brace 53201 is provided with a plurality of weight-reducing cavities, and the weight-reducing cavities are arranged through the first door stop connecting corner brace 53201 along the width direction of the first door stop connecting corner brace 53201; the second door stop connection angle connector 53202 is provided with a plurality of lightening holes, and the lightening holes penetrate through the second door stop connection angle connector 53202 along the thickness direction of the second door stop connection angle connector 53202.

In this embodiment, the hinge block 54 may be a right-angle structure, the first connection block may be embedded in the door leaf angle code cavity 5211 of the vertically disposed door leaf aluminum profile 521 and fixed by screws, the second connection block may be disposed outside the door leaf angle code cavity 5211 and disposed on the horizontally disposed door leaf aluminum profile 521, and the hinge groove 541 may be disposed on the second connection block.

In summary, the framed glass door for a soundproof room provided by the embodiment protects the glass door body 51 by the door leaf frame 52 arranged along the entire periphery of the outer edge of the glass door body 51, so as to avoid collision of the glass door body 51 during transportation, further avoid breakage of tempered glass when the tempered glass collides with corners, improve safety of the glass door during use, and reduce time for field installation; the door stop frame 53 arranged on the periphery of the door leaf frame 52 can be assembled in a factory to enable the door stop frame, the door leaf frame and the door leaf frame to form an integral module, the door stop frame and the door leaf are integrally transported as a door module, only the module needs to be installed on site, the installation efficiency on site is improved, and the problem that the existing glass door is complex to install and has transportation risks is solved.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A framed glass door for sound-insulated rooms, characterized in that it comprises:

a glass door body;

the door leaf frame is arranged along the whole periphery of the outer edge of the glass door body and is used for protecting the glass door body;

the door stop frame is matched with the door leaf frame, the door stop frame is sleeved on the periphery of the door leaf frame, and the door leaf frame is connected with two corresponding corners of the door stop frame in a rotatable mode and used for achieving rotation of the glass door.

2. The framed glass door for sound-insulated rooms according to claim 1, wherein said door leaf frame comprises: four door leaf aluminum profiles; wherein the content of the first and second substances,

the four door leaf aluminum profiles are respectively matched with four side edges of the glass door body, and the four door leaf aluminum profiles are surrounded to form a quadrilateral frame structure matched with the glass door body;

four corners of the quadrilateral frame structure are respectively provided with a door leaf connecting corner connector, two ends of each door leaf connecting corner connector are respectively embedded in two door leaf aluminum profiles at the corners of the quadrilateral frame structure, and two ends of each door leaf connecting corner connector are respectively connected with two door leaf aluminum profiles, so that the four door leaf aluminum profiles are connected to form an integrated glass frame protection structure.

3. The framed glass door for soundproof room according to claim 2,

the door leaf aluminum section is provided with a door leaf angle code cavity which is matched with the door leaf connecting angle code so as to embed the door leaf connecting angle code in the door leaf angle code cavity;

the door leaf aluminum profile is provided with a door leaf corner connector fixing hole at the door leaf corner connector cavity, and a door leaf connecting hole is arranged on the door leaf connecting corner connector and matched with the door leaf corner connector fixing hole and used for fixedly connecting the door leaf connecting corner connector and the door leaf aluminum profile through a connecting screw.

4. The framed glass door for sound-insulated rooms according to claim 2,

the door leaf aluminum profile is provided with a glass clamping groove for clamping and fixing the glass door body;

and an adhesive layer is arranged between the inner wall of the glass clamping groove and the outer edge of the glass door body and is used for fixing the glass door body and the door leaf aluminum profile and sealing a gap between the glass door body and the door leaf aluminum profile.

5. The framed glass door for soundproof room according to any one of claims 1 to 4, wherein the door stop frame comprises: four door stop aluminum profiles; wherein the content of the first and second substances,

the four door stop aluminum profiles are respectively matched with four side edges of the door leaf frame, and the four door stop aluminum profiles are surrounded to form a quadrilateral outer frame structure matched with the door leaf frame;

four edges of the quadrilateral frame structure are provided with door stop connecting angle codes, two ends of each door stop connecting angle code are embedded in two door stop aluminum profiles at the edges of the quadrilateral frame structure respectively, and two ends of each door stop connecting angle code are connected with two door stop aluminum profiles respectively, so that four door stop aluminum profiles are connected to form an integrated glass frame mounting structure.

6. The framed glass door for soundproof room according to claim 5,

the door stop aluminum profile is provided with a mounting hole for mounting the door stop aluminum profile on the fixing piece through a screw;

and the door stop aluminum profile is provided with a buckling cover clamping groove for clamping and fixing a buckling cover so as to shield the screw at the mounting hole.

7. The framed glass door for sound-insulated room as claimed in claim 6,

the door stop aluminum profile is provided with a sealing clamping groove, and the sealing clamping groove is arranged opposite to the buckling cover clamping groove and used for clamping a first sealing rubber strip so as to seal a gap between the door stop aluminum profile and the fixing piece;

and a second sealing rubber strip is further arranged on the door stop aluminum section for sealing a gap between the door leaf frame in a door closing state and the door stop aluminum section.

8. The framed glass door for soundproof room according to claim 5,

a plurality of door stop connecting corner connectors are arranged at each corner of the quadrilateral outer frame structure and are arranged on the door stop aluminum profiles side by side at intervals along the width direction of the door stop aluminum profiles;

be equipped with on the door shelves aluminium alloy a plurality ofly with door shelves connect the door shelves angle sign indicating number die cavity of angle sign indicating number one-to-one, it is a plurality of door shelves angle sign indicating number die cavity is followed the width direction of door shelves aluminium alloy sets up just at the interval side by side.

9. The framed glass door for soundproof room according to claim 8,

door shelves aluminium alloy is in door shelves angle sign indicating number die cavity department is equipped with door shelves angle sign indicating number fixed orifices, and, be equipped with a shelves connecting hole on the door shelves connection angle sign indicating number, its with door shelves angle sign indicating number fixed orifices looks adaptation is used for realizing through connecting screw door shelves connection angle sign indicating number with fixed connection between the door shelves aluminium alloy.

10. The framed glass door for sound-insulated room as claimed in claim 5,

the door stop connecting angle bracket is provided with lightening holes which penetrate through the door stop connecting angle bracket along the thickness direction of the door stop connecting angle bracket; and/or the presence of a gas in the gas,

and a weight reduction cavity which penetrates through the door stop connecting angle bracket along the width direction of the door stop connecting angle bracket is arranged on the door stop connecting angle bracket.

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