CN215889850U - Assembled sound insulation and heat insulation fireproof door - Google Patents

Abstract

The utility model discloses an assembled sound-proof heat-insulation fireproof door, which comprises: the door frame is formed by overlapping vertical steel frames on the left side and the right side and at least two transverse keels positioned between the vertical steel frames through rivets; the periphery of the fireproof perlite plate is provided with a splicing part; the fireproof perlite plate is matched and clamped with the clamping groove of the vertical steel frame and the clamping groove of the transverse keel through the peripheral inserting part; and calcium silicate panels covering the front and back surfaces of the fireproof perlite plate. The doorframe framework of the fireproof door is formed by connecting steel section bars by rivets, so that the assembly is rapid; the door leaf uses the fireproof perlite plate to match with the cross keel, thereby simplifying the assembly process of the fireproof door and reducing the labor cost; in addition, the door leaf panel is calcium silicate panel, and inorganic panel veneer effect is various, compares more pleasing to the eye with traditional steel fire door. On the other hand, the main body of the fireproof door leaf comprises an outer layer double-sided calcium silicate panel and a fireproof perlite plate inner core, and the actual measurement shows that the sound insulation is more than 30dB, so that the fireproof door leaf has excellent sound insulation performance.

Description

Assembled sound insulation and heat insulation fireproof door

Technical Field

The utility model relates to the technical field of fireproof doors, in particular to an assembled sound-insulation heat-insulation fireproof door.

Background

The fireproof door is a door which can meet the requirements of fire-resistant stability, integrity and heat insulation within a certain time, and is a fireproof partition which is arranged between fireproof partitions, evacuation staircases, vertical shafts and the like and has certain fire resistance. The fireproof door has the functions of a common door, has the functions of preventing the fire from spreading and the smoke from diffusing, and can prevent the fire from spreading within a certain time to ensure the evacuation of people. The fire department economic department designates an approved laboratory, the fire door fire resistance test method is tested to be qualified according to the national standard GB _12955 once 2008 of the new fire door, which is implemented from 1 month and 1 day in 2009, and the ministry of economic standards inspection bureau is used for verifying and issuing a verification login certificate and an authorization identifier, which is called as a standard fire door. The main function of the fireproof door is to obstruct flame and smoke and ensure the personal safety of residents when a fire disaster happens, so the fireproof door needs to reach the fire-resistant and heat-insulating limit specified by the standard, for example, a standard class A fireproof door needs to reach 1.5h in both fire-resistant integrity and fire-resistant and heat-insulating property.

In the existing market, the standard fireproof door products mainly have two main types: steel fire doors and wooden fire doors. The steel fireproof door is low in cost, simple in manufacturing process and more popular, and is widely applied to fire-fighting walkways, public building corridors, pipe wells and the like. For example, chinese patent CN201610672071.5 discloses a fire door with high fire endurance for various buildings, the main structure of which comprises a door frame and a door leaf, wherein the door frame is formed by welding cold-formed steel and a metal/inorganic composite plate, and the metal/inorganic composite plate is located between the two parts of the cold-formed steel; the door leaf is embedded in the door frame and formed by welding a steel frame and two metal/inorganic composite plates, and a heat insulation material is filled in a cavity formed by the steel frame and the metal/inorganic composite plates. The hinge is installed at the junction of the door leaf of the fireproof door and one side of the door frame, the door closer is installed at the junction of the top of the fireproof door, and the fireproof lock is further arranged on the door leaf. The fireproof door is mainly formed by welding all components of the fireproof door, and the assembly is not fast and convenient enough.

In addition, there are many problems with the steel fire door technology, such as: the steel panel can only carry out two kinds of decoration modes of electrostatic spraying and pvc membrane cladding, and the door leaf panel can not be made complicated pattern and molding, and the veneer effect is single, so this kind of prevent fire door is multi-purpose in the fire escape way of interior decoration, sparse stair etc. department, can not be used to house interior decoration. In addition, although the manufacturing process of the steel fireproof door is simpler and more convenient than that of a wooden fireproof door, fillers of the steel fireproof door are integrally formed by pressing and molding through perlite particles mixed with glue and additives, the process is time-consuming and labor-consuming, after each door core of the door is filled into a door frame through perlite particles mixed according to the steps, a heavy press is used for heating and pressing for more than 24 hours, a large amount of time is occupied, the industrialization degree of door parts is low, multiple steps depend on manual operation, the assembly is complicated, and the labor cost is high. On the other hand, the fire door is prevented to traditional steel only is absorbed in fire behavior, does not have the sound insulation nature, can't be used for the indoor space that has the demand that gives sound insulation of house.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a fabricated soundproof and heat-insulation fireproof door.

In order to solve the problems, the utility model adopts the following technical scheme:

an assembled sound and heat insulating fire door comprising:

the door frame is formed by overlapping vertical steel frames on the left side and the right side and at least two transverse keels positioned between the vertical steel frames through rivets;

the periphery of the fireproof perlite plate is provided with a splicing part; the fireproof perlite plate is matched and clamped with the clamping groove of the vertical steel frame and the clamping groove of the transverse keel through the peripheral inserting part; and

calcium silicate panels covering the front and back sides of the fire proof perlite board.

Preferably, the number of the cross keels is multiple, and the fireproof perlite plate comprises a top plate body, a bottom plate body and a lock box mounting plate body positioned between the top plate body and the bottom plate body; the top plate body is installed at the top of the door frame, the bottom plate body is installed at the bottom of the door frame, and a lock box installation groove is formed in the lock box installation plate body.

Preferably, the lock case mounting groove has a rectangular cross section.

Preferably, the assembled soundproof and heat insulating fireproof door further comprises a lock box reinforcement member, and the lock box reinforcement member is located in the lock box installation groove.

Preferably, the lock case reinforcement includes a vertical flat plate and a protective case connected to each other; the vertical flat plate is provided with a through hole; an accommodating cavity is formed in the protective shell and communicated with the through hole; a first mounting through hole is formed in the protection shell.

Preferably, the protective housing comprises an upper side plate, a lower side plate, a front side plate, a rear side plate and a right side plate which are connected with each other; one end of each of the upper side plate, the lower side plate, the front side plate and the rear side plate is fixedly connected to one side of the vertical flat plate; the upper side plate, the lower side plate, the front side plate, the rear side plate and the right side plate are spliced together in a surrounding manner to form the accommodating cavity; the first mounting through holes are symmetrically arranged on the front side plate and the rear side plate.

Preferably, the lock box reinforcement is made of a cold-rolled steel plate in an integral forming mode, and a first bending line, a second bending line and a third bending line which are parallel to each other are arranged on the lock box reinforcement; the first, second, and third bend lines divide the stiffener body into a first portion, a second portion, a third portion, and a fourth portion; the first part and the third part are the same in shape and size, and the second part and the fourth part are the same in shape and size; the second part is provided with a through notch groove; and the first part and the third part are provided with second mounting through holes corresponding in position.

Preferably, the calcium silicate panel and the fireproof perlite plate are bonded through fireproof glue.

Preferably, the assembled soundproof and heat insulating fireproof door further comprises a peripheral edge banding, and the edge banding is installed on the periphery of the door frame.

The utility model also provides an installation method of the assembled sound-proof heat-insulation fireproof door, which comprises the following steps:

overlapping the vertical steel frame and the transverse keel to form a doorframe framework;

clamping and mounting the fireproof perlite plate into the door frame from bottom to top;

pasting calcium silicate panels on the front surface and the back surface of the fireproof perlite plate;

and edge sealing strips are used for sealing the periphery of the door frame framework, and then a door closer, a door lock and a handle are installed.

Compared with the prior art, the utility model has the technical effects that:

the door frame framework of the fabricated sound-insulation heat-insulation fireproof door is formed by connecting steel section bars by rivets, is different from the traditional steel fireproof door in welding, and is fast to assemble; the door leaf is provided with the fireproof perlite plates and the cross keels, so that the door leaf is different from the traditional steel fireproof door in a mode of filling perlite particles and adding the adhesive and the auxiliary agent to integrally press and form, the processing time is saved, the fireproof perlite plates can be prefabricated and milled in a factory, and can be directly assembled with an on-site door frame, the fireproof door assembling process is simplified, and the labor cost is reduced; in addition, the door leaf panel is calcium silicate panel, and inorganic panel veneer effect is various, and the veneer that is different from fire door of traditional steel can only carry out electrostatic spraying and PVC membrane coating processing, and the calcium silicate panel can the tectorial membrane, paste melamine impregnated paper, wood veneer etc. and can wash the processing molding, compares more beautifully with fire door of traditional steel. On the other hand, the main body of the fireproof door leaf comprises an outer layer double-sided calcium silicate panel and a fireproof perlite plate inner core, and the actual measurement shows that the sound insulation is more than 30dB, so that the fireproof door leaf has excellent sound insulation performance.

The assembling type sound-insulation heat-insulation fireproof door is simple in installation method, all parts are assembled into a whole on site, and the assembling is simple, convenient and fast.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

It will be appreciated by those skilled in the art that the objects and advantages that can be achieved with the present invention are not limited to the specific details set forth above, and that these and other objects that can be achieved with the present invention will be more clearly understood from the detailed description that follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the utility model and together with the description serve to explain the principles of the utility model. Many aspects of the utility model will be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present invention. In the drawings:

fig. 1 is a schematic structural view of an assembled soundproof and heat-proof fireproof door provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the vertical steel frame in FIG. 1;

figure 3 is a schematic structural view of the cross keel of figure 1;

fig. 4 is a schematic structural diagram of a top plate according to an embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of the structure shown at A in FIG. 4;

FIG. 6 is a schematic view of a portion of the enlarged structure at B in FIG. 4;

fig. 7 is a schematic partial structure diagram of a bottom plate according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a lock box mounting plate provided in an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a lock case reinforcing member according to an embodiment of the present invention;

fig. 10 is a schematic structural view of another lock case reinforcing member according to an embodiment of the present invention.

In the figure, 100, a vertical steel frame, 200, a cross keel, 300, a fireproof perlite plate, 400, a calcium silicate panel, 500, a lock box reinforcement, 600, a sealing strip, 31, a top plate, 32, a bottom plate, 33, a lock box installation plate, 331, a lock box installation groove, 11, a first projection platform, 12, a second projection platform, 13, a third projection platform, 14, a fourth projection platform, 101, a first step notch, 102, a second step notch, 103, a third step notch, 104, a fourth step notch, 105, a fifth step notch, 107, a seventh step notch, 108, an eighth step notch, 10, a vertical flat plate, 20, a protective shell, 21, an upper side plate, 22, a lower side plate, 23, a front side plate, 24, a rear side plate, 25, a right side plate, 111, a through hole, 201, a first installation through hole, 51, a first part, 52, a second part, 53. a third portion, 54, a fourth portion, 501, a first bend line, 502, a second bend line, 503, a third bend line, 504, a second mounting through hole, 521, and a notch groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It should be noted that, in order to avoid obscuring the present invention with unnecessary detail, only the structures and/or process steps closely related to the scheme according to the present invention are shown in the drawings, and other details not so related to the present invention are omitted.

In addition, it should be noted that, in the embodiments of the present invention, the term "connected" may be a straight connection or an indirect connection with an additional connecting member in between, unless otherwise specified. In addition, the terms "upper", "lower", "left", "right", "front" and "rear" are only based on the positions shown in the drawings, and are used for more clearly describing the connection relationship of the components in the drawings, and do not constitute a limitation of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals denote the same or similar parts, or the same or similar steps.

Examples

The embodiment of the utility model provides an assembled sound-insulation heat-insulation fireproof door which is structurally shown in figures 1-10. An assembled soundproof and heat insulating fireproof door includes a door frame, a fireproof perlite plate 300 and a calcium silicate panel 400. The door frame is formed by overlapping vertical steel frames 100 on the left side and the right side and at least two transverse keels 200 positioned between the two vertical steel frames 100 through rivets; the periphery of the fireproof perlite plate 300 is provided with an inserting part, and the fireproof perlite plate 300 is matched and clamped with the clamping groove of the vertical steel frame 100 and the clamping groove of the transverse keel 200 through the inserting part at the periphery; the calcium silicate panels 400 are covered on both front and back sides of the fireproof perlite board 300.

The door frame framework of the fabricated sound-insulation heat-insulation fireproof door is formed by connecting steel section bars by rivets, is different from the traditional steel fireproof door in welding, and is fast to assemble; the door leaf is provided with the fireproof perlite plates 300 matched with the cross keels 200, the door leaf is different from the traditional steel fireproof door in the mode that perlite particles are filled, and then the adhesive and the auxiliary agent are added to be integrally pressed and formed, so that the processing time is saved, the fireproof perlite plates 300 can be prefabricated and milled in a factory, and can be directly assembled with an on-site door frame, the fireproof door assembling process is simplified, and the labor cost is reduced; in addition, the door leaf panel is calcium silicate panel 400, and inorganic panel veneer effect is various, and the veneer that is different from fire door of traditional steel can only carry out electrostatic spraying and PVC membrane cladding processing, and calcium silicate panel 400 can the tectorial membrane, pastes melamine impregnated paper, wood veneer etc. and can wash and cut the processing molding, and it is more pleasing to the eye to compare with fire door of traditional steel. On the other hand, the main body of the fireproof door leaf comprises an outer layer double-sided calcium silicate panel 400 and an inner core of a fireproof perlite plate 300, and the actual measurement shows that the sound insulation is more than 30dB, so that the fireproof door leaf has excellent sound insulation performance.

The door frame of the assembled sound-insulation heat-insulation fireproof door can be formed by overlapping the vertical steel frames 100 on the left side and the right side and the two transverse keels 200 positioned between the two vertical steel frames 100 through rivets, at the moment, the two vertical steel frames 100 on the left side and the two transverse keels 200 on the upper side and the lower side are mutually connected through countersunk self-plugging rivets to form a quadrilateral door frame framework, and the shape and the size of the fireproof perlite plate 300 are matched with the door frame framework, so that the fireproof perlite plate 300 can be clamped into the door frame framework through the insertion parts arranged on the periphery of the fireproof perlite plate.

Preferably, the cross keel 200 of the embodiment of the utility model is provided with a plurality of cross keels, and the fireproof perlite plates 300 are assembled by a plurality of plates, so that the defects that the whole fireproof perlite plate 300 with large volume is easy to damage and inconvenient to transport and ship in the transportation process can be avoided. Specifically, the fire proof perlite board 300 includes a top board 31, a bottom board 32, and a lock box mounting board 33 located between the top board 31 and the bottom board 32; the top plate 31 is installed on the top of the door frame, the bottom plate 32 is installed on the bottom of the door frame, and the lock box installation plate 33 is provided with a lock box installation groove 331.

Specifically, the structure of the top plate 31 is shown in fig. 4 to 6. The cross section of the top plate body 31 is integrally rectangular, a first step-shaped notch 101 and a second step-shaped notch 102 are respectively formed in the front side and the rear side of the upper end of the top plate body 31, and a first protruding platform 11 is formed at the upper end of the top plate body 31; a third step-shaped notch 103 and a fourth step-shaped notch 104 are respectively formed in the front side and the rear side of the left end of the top plate body 31, and a second protruding platform 12 is formed at the left end of the top plate body 31; a fifth step-shaped notch 105 and a sixth step-shaped notch (not shown) are respectively formed at the front side and the rear side of the right end of the top plate body 31, and a third protruding platform 13 is formed at the right end of the top plate body 31. Preferably, the second and third raised platforms 12, 13 are symmetrically arranged. More preferably, the first step-like notch 101 and the second step-like notch 102 are symmetrically disposed at the front and rear sides of the first projection platform 11; the third step-shaped notch 103 and the fourth step-shaped notch 104 are symmetrically arranged at the front side and the rear side of the second projecting platform 12; the fifth step-shaped notch 105 and the sixth step-shaped notch are symmetrically disposed at front and rear sides of the third projection platform 13. Like this, monoblock top plate body 31 is symmetrical structure, easily mills the type at the mill prefabrication, and the appearance is pleasing to the eye. First projecting platform 11, second projecting platform 12 and third projecting platform 13 constitute the mating portion of top plate 31.

When the top plate body 31 is assembled with the door frame, the first protruding platform 11 formed at the upper end of the top plate body 31 is spliced with the transverse keel 200 at the upper end of the door frame, and the second protruding platform 12 formed at the left end of the top plate body 31 and the third protruding platform 13 formed at the right end of the top plate body 31 are spliced with the vertical steel frames 100 at the left and right sides of the door frame respectively. Fig. 2 and 3 respectively show the structural schematic diagrams of the vertical steel frame 100 and the cross keel 200 of the door frame in fig. 1.

The bottom plate 32 is constructed as shown in fig. 7. On the basis of the structure of the top plate 31, a seventh step-shaped notch 107 and an eighth step-shaped notch 108 are respectively formed at the front side and the rear side of the lower end of the bottom plate 32, and the fourth protruding platform 14 is formed at the lower end of the bottom plate 32. Preferably, the third and fourth raised platforms 13, 14 are symmetrically arranged. First projecting platform 11, second projecting platform 12, third projecting platform 13 and fourth projecting platform 14 constitute the mating portion of bottom plate 32. When the bottom plate body 32 is assembled with the door frame, the first protruding platform 11 formed at the upper end of the bottom plate body 32 is spliced with the cross keel 200 at the middle part of the door frame, the fourth protruding platform 14 formed at the lower end of the bottom plate body 32 is spliced with the cross keel 200 at the bottom of the door frame, and the second protruding platform 12 formed at the left end of the bottom plate body 32 and the third protruding platform 13 formed at the right end of the bottom plate body 32 are spliced with the vertical steel frames 100 at the left and right sides of the door frame respectively.

The structure of the lock case mounting plate 33 is shown in fig. 8. On the structure basis of the top plate body 31, a lock box mounting groove 331 is formed in the left end of the lock box mounting plate body 33, and the lock box mounting groove 331 is used for mounting a lock on a door leaf. The lock case mounting groove 331 may be a through groove penetrating through the front and rear surfaces of the lock case mounting plate 33, or may be a groove formed in the lock case mounting plate 33. Preferably, the cross section of the lock case installation groove 331 is rectangular, which is convenient for processing and forming and can be matched with most lock structures.

Preferably, the fabricated soundproof and heat insulating fire door of the present invention further includes a lock case reinforcement 500, and the lock case reinforcement 500 is located in the lock case installation groove 331. Lock box reinforcement 500 can be with the tool to lock cladding in its protection casing hold the chamber, prevent when the conflagration takes place that the tool to lock is because high temperature destroys, and the separation that simultaneously can be fine receives the heat transfer of fire face and back of the body fire face, plays good thermal-insulated effect. Compare with the fire door lock structure of tradition, the fire door structure of this embodiment need not to install inorganic PLASTIC LAMINATED additional at door leaf two sides, but uses the lock box reinforcement 500 of independent integral type, and is simple swift when the installation. According to the embodiment of the utility model, the lock box reinforcing piece 500 is used for carrying out fireproof reinforcement on the door lock and the handle position, so that the structure of the door lock is effectively prevented from being damaged when a fire disaster happens.

An embodiment of the present invention provides a structure of a lock box reinforcement member 500, as shown in fig. 9. The lock case reinforcement 500 includes a vertical plate 10 and a protective case 20 connected to each other; the vertical flat plate 10 is provided with a through hole 111; a containing cavity is arranged in the protective shell 20 and is communicated with the through hole 111; the protective case 20 is provided with a first mounting through-hole 201. The vertical plate 10 and the protective casing 20 may be made of fireproof and heat-resistant materials, and preferably, the vertical plate 10 and the protective casing 20 of the present embodiment are made of stainless steel materials. Further, the protective case 20 includes an upper side plate 21, a lower side plate 22, a front side plate 23, a rear side plate 24, and a right side plate 25 connected to each other; one end of each of the upper side plate 21, the lower side plate 22, the front side plate 23 and the rear side plate 24 is fixedly connected to one side of the vertical flat plate 10; the upper side plate 21, the lower side plate 22, the front side plate 23, the rear side plate 24 and the right side plate 25 are spliced together to form the accommodating cavity; the first mounting through holes 201 are positionally symmetrically provided in the front side plate 23 and the rear side plate 24. The first mounting through hole 201 may serve as a door handle mounting hole. Preferably, the protective casing 20 of the present embodiment has a regular rectangular parallelepiped shape, and further, the accommodating cavity disposed therein also has a regular rectangular parallelepiped shape, so as to facilitate the manufacturing process. Preferably, the vertical plate 10 is in the shape of a regular rectangle. More preferably, the through hole 111 formed in the vertical plate 10 is also regular rectangular, and when in use, the lock is inserted into the receiving cavity of the lock box reinforcement 500 through the through hole 111. Thus, the lock box reinforcement 500 can adapt to the size of most fireproof locks, and has strong universality.

The embodiment of the present invention further provides another structure of the lock box reinforcement member 500, as shown in fig. 10. The lock box reinforcing piece 500 is made of cold-rolled steel plates in an integral forming mode, and a first bending line 501, a second bending line 502 and a third bending line 503 which are parallel to each other are arranged on the lock box reinforcing piece 500; the first, second, and third fold lines 501, 502, 503 divide the lock box reinforcement 500 into a first portion 51, a second portion 52, a third portion 53, and a fourth portion 54; the first part 51 and the third part 53 have the same shape and size, and the second part 52 and the fourth part 54 have the same shape and size; the second portion 52 is provided with a through notch 521, and when in use, the lock is inserted into the accommodating cavity of the lock box reinforcement 500 through the notch 521; the first part 51 and the third part 53 are provided with second mounting through holes 504 corresponding in position. The second mounting through hole 504 may serve as a door handle mounting hole. The lock box reinforcement 500 of this embodiment is formed by bending the lock box reinforcement 500 once through the first bending line 501, the second bending line 502 and the third bending line 503 which are parallel to each other and are arranged on the lock box reinforcement 500, so as to form an accommodating cavity, and the accommodating cavity is used for accommodating a lock to be protected against fire. A schematic structural view of the lock case reinforcing member 500 before and after the bending formation is shown in fig. 10. The lock box reinforcement 500 of the embodiment is formed by integrally bending cold-rolled steel plates, does not need to be welded, and is simple and rapid to mount.

Preferably, the calcium silicate panel 400 is adhered to the fireproof perlite plate 300 by fireproof glue, and the fireproof glue has the function of leveling the seam filling and the door panel.

Preferably, the fabricated soundproof and heat insulating fireproof door of the present invention further includes a peripheral edge banding 600, and the edge banding 600 is installed around the door frame.

The embodiment of the utility model also provides an installation method of the assembled sound-proof heat-insulation fireproof door, which comprises the following steps:

(1) overlapping the vertical steel frame 100 and the transverse keel 200 to form a doorframe framework; specifically, the vertical steel frames 100 on the left and right sides and the transverse keel 200 between the two vertical steel frames 100 are connected by countersunk self-plugging rivets;

(2) the fireproof perlite plate 300 is clamped and installed in the door frame from bottom to top; when a plurality of the cross keels 200 (not less than 3) are arranged and the fireproof perlite plates 300 are assembled by a plurality of plates, after each fireproof perlite plate 300 is filled, one cross keel 200 is used for fixing; in addition, in the filling and installation process of the fireproof perlite plate 300, the lock box reinforcing piece 500, the door closer reinforcing steel and the U-shaped hinge reinforcing steel can be filled into the door leaf, so that the hardware firmness degree of the fireproof door is greatly improved in the use process;

(3) the calcium silicate panels 400 are adhered to the front surface and the back surface of the fireproof perlite plate 300, the interior of the door leaf is filled and leveled by using fireproof glue, and meanwhile, the fireproof glue can serve as an adhesive between the door leaf panel and a doorframe framework base layer;

(4) the edge of the door frame framework is sealed by using an edge sealing strip 600, and then a door closer, a door lock and a handle are installed.

The assembling type sound-insulation heat-insulation fireproof door is simple in installation method, all parts are assembled into a whole on site, and the assembling is simple, convenient and fast.

The present invention is not limited to the above-described specific embodiments, and various modifications and variations are possible. Any modifications, equivalents, improvements and the like made to the above embodiments in accordance with the technical spirit of the present invention should be included in the scope of the present invention.

Claims (9)

1. An assembled sound and heat insulation fireproof door is characterized by comprising:

the door frame is formed by overlapping vertical steel frames on the left side and the right side and at least two transverse keels positioned between the vertical steel frames through rivets;

the periphery of the fireproof perlite plate is provided with a splicing part; the fireproof perlite plate is matched and clamped with the clamping groove of the vertical steel frame and the clamping groove of the transverse keel through the peripheral inserting part; and

calcium silicate panels covering the front and back sides of the fire proof perlite board.

2. The fabricated soundproof and heat resistant fireproof door of claim 1, wherein the cross member is provided in plurality, and the fireproof perlite board comprises a top board, a bottom board and a lock box installation board between the top board and the bottom board; the top plate body is installed at the top of the door frame, the bottom plate body is installed at the bottom of the door frame, and a lock box installation groove is formed in the lock box installation plate body.

3. The fabricated soundproof and thermally insulative fireproof door of claim 2, wherein the lock case installation groove has a rectangular cross section.

4. The fabricated soundproof and thermally insulative fire door of claim 3, further comprising a lock case reinforcement member, the lock case reinforcement member being located in the lock case installation groove.

5. The fabricated soundproof and thermally insulative fireproof door of claim 4, wherein the lock case reinforcement comprises a vertical flat plate and a protective case connected to each other; the vertical flat plate is provided with a through hole; an accommodating cavity is formed in the protective shell and communicated with the through hole; a first mounting through hole is formed in the protection shell.

6. The fabricated soundproof and heat resistant fireproof door of claim 5, wherein the protective case includes an upper side plate, a lower side plate, a front side plate, a rear side plate and a right side plate which are connected to each other; one end of each of the upper side plate, the lower side plate, the front side plate and the rear side plate is fixedly connected to one side of the vertical flat plate; the upper side plate, the lower side plate, the front side plate, the rear side plate and the right side plate are spliced together in a surrounding manner to form the accommodating cavity; the first mounting through holes are symmetrically arranged on the front side plate and the rear side plate.

7. The fabricated soundproof and heat resistant fireproof door of claim 4, wherein the lock case reinforcing member is integrally formed of a cold-rolled steel sheet, and the lock case reinforcing member is provided with a first bending line, a second bending line and a third bending line which are parallel to each other; the first, second, and third bend lines divide the stiffener body into a first portion, a second portion, a third portion, and a fourth portion; the first part and the third part are the same in shape and size, and the second part and the fourth part are the same in shape and size; the second part is provided with a through notch groove; and the first part and the third part are provided with second mounting through holes corresponding in position.

8. The fabricated soundproof and thermally insulative fireproof door as claimed in any one of claims 1 to 7, wherein the calcium silicate panel and the fireproof perlite panel are bonded together by a fireproof glue.

9. The fabricated sound and heat insulating fire rated door as claimed in claim 8, further comprising a perimeter banding mounted around the periphery of the door frame.

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