CN111946012B - Floor microcrystalline heat-insulation sound-insulation structure and manufacturing method thereof - Google Patents

Abstract

The invention discloses a floor microcrystalline heat-insulation and sound-insulation structure and a manufacturing method thereof. The invention relates to a floor microcrystal heat and sound insulation structure and a manufacturing method thereof, belonging to the field of microcrystal heat insulation plates.A honeycomb filler bin arranged on a sound insulation structure can be sealed by a connecting structure; the slope lantern ring one end cup joints with being connected the prefabricated plate, and the slope lantern ring other end is connected with the installation net in imbedding into honeycomb and annotating the feed bin storehouse, can strengthen the fastness between connection structure and the insulation construction, and the first connection structure of fixed lantern ring one end is connected, and the fixed lantern ring runs through the honeycomb prefabricated plate and is connected with second connection structure, can strengthen the fastness between connection structure and the sound-proof construction.

Description

Floor microcrystalline heat-insulation sound-insulation structure and manufacturing method thereof

Technical Field

The invention relates to the field of microcrystalline heat-insulation boards, in particular to a microcrystalline heat-insulation and sound-insulation structure for a floor slab and a manufacturing method thereof.

Background

A microcrystal is a crystal in which only several thousand or several ten thousand unit cells are juxtaposed per crystal grain, and the crystal repeats only about several tens of cycles in the direction of one crystal axis. The specific surface of the microcrystal is large, and the surface adsorption performance, the surface activity and the like are quite outstanding; in the use process of the floor microcrystalline heat-insulation sound-insulation structure, the floor microcrystalline heat-insulation sound-insulation structure adopts the single-layer reinforcing ribs to form the net, so that the overall strength is not high, and the connection firmness between the heat-insulation structure and the sound-insulation structure is not high.

Disclosure of Invention

The invention mainly aims to provide a microcrystalline heat-insulating and sound-insulating structure for a floor slab and a manufacturing method thereof, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

a floor microcrystal heat preservation and sound insulation structure and a manufacturing method thereof comprise a first microcrystal decoration panel, wherein a first partition plate is arranged at the other end of the first microcrystal decoration panel, the other end of the first partition plate is connected with a first heat preservation structure, the first heat preservation structure comprises a heat preservation plate, a honeycomb injection bin, a mounting groove, a mounting net and a hook, the honeycomb injection bin is arranged on the end surface of the heat preservation plate, the mounting groove is arranged on the end surface of the heat preservation plate, the mounting net is arranged in the mounting groove, the outer end head of the mounting net is bent to form the hook, the other end of the heat preservation plate is connected with a first connecting structure, the first connecting structure comprises a connecting precast slab, a first blind hole, a second blind hole, a first jack, a second jack and an inclined lantern ring, the first blind hole is arranged at one end of the connecting precast slab, the second blind hole is arranged at the other end of the connecting precast slab, a first jack and a second jack are arranged at the bottom of the first blind hole, an inclined lantern ring is inserted into the second jack, the other end of the connecting precast slab is connected with a sound insulation structure, the sound insulation structure comprises a first honeycomb prefabricated plate, a transverse reinforcing rib, a fixed lantern ring, a second honeycomb prefabricated plate and a longitudinal reinforcing rib, wherein the transverse reinforcing rib is inserted into a hole of the first honeycomb prefabricated plate, and one end of the first honeycomb precast slab is provided with a second honeycomb precast slab, a longitudinal reinforcing rib is inserted into a hole of the second honeycomb precast slab, and a fixed lantern ring is connected between the first honeycomb precast slab and the second honeycomb precast slab, the other end of the first honeycomb precast slab is connected with a second connecting structure, and the other end of the second connecting structure is connected with a second heat-insulating structure, the other end of the second heat-insulating structure is connected with a second partition plate, and the other end of the second partition plate is provided with a second microcrystalline decoration panel.

Preferably, the first honeycomb prefabricated plate and the second honeycomb prefabricated plate are identical in structure, the first honeycomb prefabricated plate comprises a plate body, honeycomb filler bins, transverse jacks and longitudinal jacks, the end face of the plate body is provided with the honeycomb filler bins, the side wall of the plate body is provided with the transverse jacks, the upper end and the lower end of the plate body are provided with the longitudinal jacks, the longitudinal jacks and the transverse jacks are vertically arranged, and the honeycomb filler bins are communicated through the transverse jacks or the longitudinal jacks.

Preferably, the first connecting structure and the second connecting structure have the same structure, the blind hole formed in the first connecting structure is aligned with the honeycomb filling bin, the first jack and the second jack are communicated with the second blind hole, and the blind hole formed in the first connecting structure is aligned with the honeycomb filling bin.

Preferably, the transverse reinforcing ribs in the first honeycomb prefabricated plate and the longitudinal reinforcing ribs in the second honeycomb prefabricated plate are tied up and connected through iron wires, the initial states of the fixed lantern ring and the inclined lantern ring are U-shaped, the fixed lantern ring penetrates through the first jack and is inserted into a honeycomb filling bin which is formed by the honeycomb prefabricated plates, the fixed lantern ring penetrates through the honeycomb filling bin and is inserted into the first jack hole which is formed by the second connecting structure, and the end of the fixed lantern ring is bent in a blind hole of the second connecting structure.

Preferably, the end of the inclined lantern ring is aligned with a second jack arranged at the bottom of the second blind hole, the inclined lantern ring penetrates through the second jack and is inserted into the honeycomb material injection bin arranged in the first heat preservation structure, and the end of the inclined lantern ring is bent to wrap the inner mounting net of the first heat preservation structure and is integrally provided with the mounting net and the hook.

Preferably, a plurality of honeycomb injecting bins are arranged on the end face of the heat-insulating plate, two adjacent honeycomb injecting bins are communicated through a mounting groove, and the end of the inclined lantern ring penetrates through the mounting net and is bent to be attached to the mounting net.

Preferably, first insulation construction and second insulation construction's structure is the same, and second insulation construction and second connection structure are connected through the slope lantern ring, the structure of first division board and second division board is the same, and the division board covers the honeycomb filler bin that insulation construction terminal surface was seted up.

Preferably, the first microcrystalline decoration panel and the second microcrystalline decoration panel are identical in structure, the first microcrystalline decoration panel and the first partition plate are integrally arranged, and the second microcrystalline decoration panel and the second partition plate are integrally arranged.

Preferably, the honeycomb filling bins formed by the first honeycomb prefabricated plate and the second honeycomb prefabricated plate are aligned, the mixed sound insulation material is injected into the honeycomb filling bin, and the mixed heat insulation material is injected into the honeycomb filling bin.

A manufacturing method of a floor microcrystalline heat-insulating and sound-insulating structure comprises the following steps:

the method comprises the following steps: the honeycomb prefabricated slab used by the sound insulation structure is prefabricated and molded by adopting a mold, the sound insulation structure is assembled, and the transverse reinforcing ribs and the longitudinal reinforcing ribs in the sound insulation structure are bundled by adopting iron wires;

step two: after the sound insulation structure and the first connecting structure are assembled and connected, injecting a mixed sound insulation material into a honeycomb filler bin arranged on the sound insulation structure;

step three: after the sound insulation structure and the second connecting structure are assembled and connected, vibration treatment is carried out on the mixed sound insulation material in the sound insulation structure, and the sound insulation structure is cooled for standby;

step four: assembling a heat insulation structure, connecting a heat insulation structure mounting net with a connecting structure inclined lantern ring, injecting a mixed heat insulation material into the honeycomb injection bin, vibrating the mixed heat insulation material, and cooling for later use;

step five: and fixedly connecting the heat preservation structure with the partition plate, and warehousing after detection.

Compared with the prior art, the invention has the following beneficial effects: the floor microcrystalline heat-insulating and sound-insulating structure and the manufacturing method thereof are as follows:

1. mixed sound insulation materials can be filled in a honeycomb filling bin arranged on the honeycomb precast slab, and reinforcing ribs are inserted into the honeycomb precast slab, so that the integral strength of the honeycomb precast slab is increased;

2. the connecting structure is arranged to seal the honeycomb filler bin arranged on the sound insulation structure;

3. one end of an inclined lantern ring is sleeved with the connecting precast slab, the other end of the inclined lantern ring is embedded into the honeycomb material injection bin and connected with the mounting net, the firmness between the connecting structure and the heat preservation structure can be enhanced, the first connecting structure at one end of a fixed lantern ring is connected, the fixed lantern ring penetrates through the honeycomb precast slab and is connected with the second connecting structure, and the firmness between the connecting structure and the sound insulation structure can be enhanced;

4. the end of the heat preservation structure installation net is bent to form a hook, and the hook can be arranged on the next reinforcing rib or the reinforcing rib at the installation position, so that the installation of the whole body is facilitated.

The whole floor microcrystalline heat-insulating and sound-insulating structure and the manufacturing method thereof have the advantages of simple structure, convenience in operation and better using effect compared with the traditional mode.

Drawings

FIG. 1 is a schematic view of the overall structure of a microcrystalline thermal insulation and sound insulation structure of a floor slab and a manufacturing method thereof;

FIG. 2 is a schematic diagram of the overall structure disassembly of a microcrystalline thermal insulation and sound insulation structure of a floor slab and a manufacturing method thereof;

FIG. 3 is a schematic diagram of a disassembled structure of a floor microcrystalline thermal insulation and sound insulation structure and a method for manufacturing the same;

FIG. 4 is a schematic diagram of a honeycomb precast slab of a floor microcrystalline thermal insulation and sound insulation structure and a manufacturing method thereof;

FIG. 5 is a schematic diagram of a disassembled connection structure of the microcrystalline thermal insulation and sound insulation structure of the floor slab and the manufacturing method thereof;

FIG. 6 is a schematic sectional view of a connecting precast slab of the microcrystalline thermal insulation and sound insulation structure for a floor slab and the manufacturing method thereof;

FIG. 7 is a schematic diagram of a disassembled structure of a microcrystalline thermal insulation and sound insulation structure of a floor slab and a manufacturing method thereof.

In the figure: 1. a first microcrystalline decorative panel; 2. a sound-insulating structure; 201. a first honeycomb precast panel; 2011. a plate body; 2012. a honeycomb filler bin; 2013. a transverse jack; 2014. a longitudinal insertion hole; 202. transverse reinforcing ribs; 203. a fixed collar; 204. a second honeycomb precast slab; 205. longitudinal reinforcing ribs; 3. a first connecting structure; 301. connecting the prefabricated plates; 302. a first blind hole; 303. a second blind hole; 304. a first jack; 305. a second jack; 306. an inclined collar; 4. a first heat preservation structure; 401. a thermal insulation board; 402. a honeycomb filling bin; 403. mounting grooves; 404. installing a net; 405. hooking; 5. a first partition plate; 6. a second connecting structure; 7. a second insulation structure; 8. a second partition plate; 9. a second microcrystalline decorative panel.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

as shown in fig. 1 to 7, a floor microcrystalline thermal insulation and sound insulation structure comprises a first microcrystalline decoration panel 1, a first partition plate 5 is arranged at the other end of the first microcrystalline decoration panel 1, a first thermal insulation structure 4 is connected to the other end of the first partition plate 5, the first thermal insulation structure 4 comprises a thermal insulation plate 401, a honeycomb injection bin 402, a mounting groove 403, a mounting net 404 and a hook 405, the honeycomb injection bin 402 is arranged on the end surface of the thermal insulation plate 401, the mounting groove 403 is arranged on the end surface of the thermal insulation plate 401, the mounting net 404 is arranged in the mounting groove 403, the outer end of the mounting net 404 is bent to form the hook 405, the other end of the thermal insulation plate 401 is connected to a first connection structure 3, the first connection structure 3 comprises a connection precast slab 301, a first blind hole 302, a second blind hole 303, a first jack 304, a second jack 305 and an inclined collar 306, one end of the connection precast slab 301 is provided with the first blind hole 302, and the other end of the connecting precast slab 301 is provided with a second blind hole 303, the bottom of the first blind hole 302 is provided with a first jack 304 and a second jack 305, an inclined collar 306 is inserted into the second jack 305, the other end of the connecting precast slab 301 is connected with the sound insulation structure 2, the sound insulation structure 2 comprises a first honeycomb precast slab 201, a transverse reinforcing rib 202, a fixed collar 203, a second honeycomb precast slab 204 and a longitudinal reinforcing rib 205, the transverse reinforcing rib 202 is inserted into the hole of the first honeycomb precast slab 201, one end of the first honeycomb precast slab 201 is provided with the second honeycomb precast slab 204, the longitudinal reinforcing rib 205 is inserted into the hole of the second honeycomb precast slab 204, the fixed collar 203 is connected between the first honeycomb precast slab 201 and the second honeycomb precast slab 204, the other end of the first honeycomb precast slab 201 is connected with a second connecting structure 6, and the other end of the second connecting structure 6 is connected with a second heat insulation structure 7, the other end of the second heat preservation structure 7 is connected with a second partition plate 8, and the other end of the second partition plate 8 is provided with a second microcrystalline decoration panel 9.

The first honeycomb prefabricated plate 201 and the second honeycomb prefabricated plate 204 are identical in structure, the first honeycomb prefabricated plate 201 comprises a plate body 2011, honeycomb filler bins 2012, transverse jacks 2013 and longitudinal jacks 2014, the end face of the plate body 2011 is provided with a plurality of honeycomb filler bins 2012, the side wall of the plate body 2011 is provided with the transverse jacks 2013, the upper end and the lower end of the plate body 2011 are provided with the longitudinal jacks 2014, the longitudinal jacks 2014 and the transverse jacks 2013 are vertically arranged, and two adjacent honeycomb filler bins 2012 are communicated through the transverse jacks 2013 or the longitudinal jacks 2014; the mixed sound insulation material can be filled into the honeycomb filler bin 2012 that the honeycomb precast slab was seted up, and the inside strengthening rib that inserts of honeycomb precast slab increases honeycomb precast slab bulk strength.

The first connecting structure 3 and the second connecting structure 6 have the same structure, the blind hole formed in the first connecting structure 3 is aligned with the honeycomb filler bin 2012, the first jack 304 and the second jack 305 are communicated with the second blind hole 303, and the blind hole formed in the first connecting structure 3 is aligned with the honeycomb filler bin 402.

The transverse reinforcing ribs 202 in the first honeycomb prefabricated slab 201 and the longitudinal reinforcing ribs 205 in the second honeycomb prefabricated slab 204 are tied up and connected through iron wires, the initial states of the fixing lantern ring 203 and the inclined lantern ring 306 are U-shaped, the fixing lantern ring 203 penetrates through the first jack 304 and is inserted into a honeycomb filling bin 2012 formed in the honeycomb prefabricated slab, the fixing lantern ring 203 penetrates through the honeycomb filling bin 2012 and is inserted into a first jack 304 hole formed in the second connecting structure 6, and the end of the fixing lantern ring 203 is bent in a blind hole of the second connecting structure 6.

The end of the inclined lantern ring 306 is aligned with a second jack 305 arranged at the bottom of the second blind hole 303, the inclined lantern ring 306 penetrates through the second jack 305 and is inserted into a honeycomb injection bin 402 arranged in the first heat preservation structure 4, the end of the inclined lantern ring 306 is bent and wraps an installation net 404 in the first heat preservation structure 4, and the installation net 404 and the hook 405 are integrally arranged; the connecting structure is arranged to seal the honeycomb filler bin 2012 provided in the sound insulation structure 2; the slope lantern ring 306 one end cup joints with being connected prefabricated plate 301, and the slope lantern ring 306 other end is connected with installation net 404 in imbedding into honeycomb notes feed bin 402 storehouse, can strengthen firm performance between connection structure and the insulation construction, and the first connection structure 3 of fixed lantern ring 203 one end is connected, and fixed lantern ring 203 runs through the honeycomb prefabricated plate and is connected with second connection structure 6, can strengthen the firm performance between connection structure and the sound-proof structure.

The end face of the heat insulation board 401 is provided with a plurality of honeycomb injection bins 402, two adjacent honeycomb injection bins 402 are communicated through a mounting groove 403, and the end of the inclined lantern ring 306 penetrates through the mounting net 404 and is bent to be tightly attached to the mounting net 404.

The first heat-insulating structure 4 and the second heat-insulating structure 7 are identical in structure, the second heat-insulating structure 7 and the second connecting structure 6 are connected through the inclined lantern ring 306, the first partition plate 5 and the second partition plate 8 are identical in structure, and the partition plates cover the honeycomb material injection bin 402 formed in the end face of the heat-insulating structure.

The first microcrystalline decoration panel 1 and the second microcrystalline decoration panel 9 are identical in structure, the first microcrystalline decoration panel 1 and the first partition plate 5 are integrally arranged, and the second microcrystalline decoration panel 9 and the second partition plate 8 are integrally arranged.

The honeycomb filling bins 2012 arranged on the first honeycomb prefabricated plate 201 and the second honeycomb prefabricated plate 204 are aligned, mixed sound insulation materials are injected into the honeycomb filling bins 2012, and mixed heat insulation materials are injected into the honeycomb filling bin 402; the end of the heat-insulating structure mounting net 404 is bent to form a hook 405, and the hook 405 can be arranged on the next reinforcing rib or the mounting reinforcing rib, so that the whole mounting is facilitated.

Example 2:

on the basis of embodiment 1, the manufacturing method of the floor microcrystalline heat-insulating and sound-insulating structure comprises the following steps

The method comprises the following steps:

the method comprises the following steps: the honeycomb prefabricated slab used by the sound insulation structure is prefabricated and molded by adopting a mold, the sound insulation structure is assembled, and the transverse reinforcing ribs and the longitudinal reinforcing ribs in the sound insulation structure are bundled by adopting iron wires;

step two: after the sound insulation structure and the first connecting structure are assembled and connected, injecting a mixed sound insulation material into a honeycomb filler bin arranged on the sound insulation structure;

step three: after the sound insulation structure and the second connecting structure are assembled and connected, vibration treatment is carried out on the mixed sound insulation material in the sound insulation structure, and the sound insulation structure is cooled for standby;

step four: assembling a heat insulation structure, connecting a heat insulation structure mounting net with a connecting structure inclined lantern ring, injecting a mixed heat insulation material into the honeycomb injection bin, vibrating the mixed heat insulation material, and cooling for later use;

step five: and fixedly connecting the heat preservation structure with the partition plate, and warehousing after detection.

It should be noted that, when the first microcrystalline decoration panel 1, the sound insulation structure 2, the connection structure and the heat insulation structure are assembled, the first honeycomb prefabricated panel 201 and the second honeycomb prefabricated panel 204 arranged on the sound insulation structure 2 have the same structure, the transverse reinforcing rib 202 is aligned to the transverse insertion hole 2013 formed on the side wall of the first honeycomb prefabricated panel 201, the transverse reinforcing rib 202 is inserted into the transverse insertion hole 2013 formed on the side wall of the first honeycomb prefabricated panel 201, the longitudinal reinforcing rib 205 is aligned to the longitudinal insertion hole 2014 formed on the upper end of the second honeycomb prefabricated panel 204, the longitudinal reinforcing rib 205 is inserted into the longitudinal insertion hole 2014 formed on the upper end of the second honeycomb prefabricated panel 204, the second honeycomb prefabricated panel 204 is in contact with the end surface of the first honeycomb prefabricated panel 201, the honeycomb filling bin 2012 formed on the first honeycomb prefabricated panel 201 is aligned to the honeycomb filling bin 2012 formed on the second honeycomb prefabricated panel 204, the transverse reinforcing ribs 202 arranged in the first honeycomb prefabricated plate 201 and the longitudinal reinforcing ribs 205 arranged in the second honeycomb prefabricated plate 204 are bundled by iron wires, so that the whole sound insulation structure 2 is assembled, the first connecting structure 3 and the second connecting structure 6 have the same structure, a first blind hole 302 and a second blind hole 303 arranged in the first connecting structure 3 are communicated through jacks, a fixing lantern ring 203 is in a U-shaped structure in an initial state, the fixing lantern ring 203 is aligned with the first blind hole 302 arranged in the first connecting structure 3, the fixing lantern ring 203 is inserted into a first jack 304 arranged at the bottom of the first blind hole 302, an inclined lantern ring 306 is aligned with the second blind hole 303 arranged in the first connecting structure 3, the inclined lantern ring 306 is inserted into a second jack 305 arranged at the bottom of the second blind hole 303, the inclined lantern ring 306 and the fixing lantern ring 203 are matched with the connecting prefabricated plate 301, the inclined lantern ring 306 arranged in the second connecting structure 6 is aligned with the second blind hole 303, an inclined lantern ring 306 arranged on the second connecting structure 6 is inserted into a second jack 305 arranged at the bottom of a hole of the second blind hole 303, the opening end of a fixed lantern ring 203 is aligned with a honeycomb filler bin 2012 arranged on the sound insulation structure 2, the outer wall of the fixed lantern ring 203 contacts a transverse reinforcing rib 202 and a longitudinal reinforcing rib 205 arranged in the honeycomb filler bin 2012, mixed sound insulation material is injected into the honeycomb filler bin 2012 arranged on the sound insulation structure 2, the mixed sound insulation material is in the honeycomb filler bin 2012, the mixed sound insulation material enters a hole of the second blind hole 303 arranged on the first connecting structure 3 due to the end surfaces of the first connecting structure 3 and the sound insulation structure 2, the mixed sound insulation material wraps the fixed lantern ring 203 and the inclined lantern ring 306 arranged on the first connecting structure 3, the upper end of the fixed lantern ring 203 is aligned with the second connecting structure 6, the fixed lantern ring 203 penetrates through the honeycomb filler bin 2012 and then is inserted into the second blind hole 303 arranged on the second connecting structure 6, the end of the fixed lantern ring 203 is inserted into a second jack 305 formed in the second connecting structure 6, the inclined lantern ring 306 arranged in the second connecting structure 6 is inserted into the second jack 305, the second connecting structure 6 is in contact with the sound insulation structure 2, after the two are tightly attached, the end of the fixed lantern ring 203 in the first blind hole 302 of the second connecting structure 6 is pulled, the fixed lantern ring 203 is bent in the first blind hole 302 of the second connecting structure 6 to vibrate the mixed sound insulation material in the sound insulation structure 2, the mixed sound insulation material in the sound insulation structure 2 wraps the fixed lantern ring 203 and the inclined lantern ring 306 in the second blind hole 303 of the second connecting structure 6, the heat insulation structure can be installed again after the mixed sound insulation material in the structure 2 is cooled and solidified, the first heat insulation structure 4 and the second heat insulation structure 7 have the same structure, the installation net 404 and the hook 405 are integrally arranged, the installation net 404 is aligned with the installation groove 403 formed in the end face of the heat insulation board 401 to be embedded, the slope lantern ring 306 initial state that first connection structure 3 set up is U type structure also, the honeycomb that heated board 401 was seted up is aimed at to slope lantern ring 306 and annotates feed bin 402, slope lantern ring 306 contacts with installation net 404, buckle the processing to slope lantern ring 306 end, slope lantern ring 306 entangles installation net 404, inject mixed insulation material into in the honeycomb injection feed bin 402 storehouse, mixed insulation material solidifies in honeycomb injection feed bin 402 storehouse, first division board 5 and first 4 fixed connection of heat preservation structure, first micrite decoration panel 1 and first division board 5 fixed connection, second division board 8 and 6 fixed connection of second connection structure, second micrite decoration panel 9 and 8 fixed connection of second division board.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a floor micrite heat preservation sound insulation structure which characterized in that: including first micrite decoration panel (1), the other end of first micrite decoration panel (1) is provided with first division board (5), and the other end of first division board (5) is connected with first heat preservation structure (4), first heat preservation structure (4) are annotated feed bin (402), mounting groove (403), installation net (404) and couple (405) including heated board (401), honeycomb, and the terminal surface of heated board (401) has seted up honeycomb and has annotated feed bin (402), mounting groove (403) have been seted up to the terminal surface of heated board (401), and mounting groove (403) inslot installs installation net (404), the outer end of installation net (404) is buckled and is formed couple (405), the other end of heated board (401) is connected with first connection structure (3), and first connection structure (3) are including connecting prefabricated plate (301), first blind hole (302), second blind hole (303), A first jack (304), a second jack (305) and an inclined lantern ring (306), wherein one end of the connecting precast slab (301) is provided with a first blind hole (302), the other end of the connecting precast slab (301) is provided with a second blind hole (303), the first jack (304) and the second jack (305) are arranged at the bottom of the first blind hole (302), the inclined lantern ring (306) is inserted into the second jack (305), the other end of the connecting precast slab (301) is connected with a sound insulation structure (2), the sound insulation structure (2) comprises a first honeycomb precast slab (201), a transverse reinforcing rib (202), a fixed lantern ring (203), a second honeycomb precast slab (204) and a longitudinal reinforcing rib (205), the transverse reinforcing rib (202) is inserted into the hole of the first honeycomb precast slab (201), and one end of the first honeycomb precast slab (201) is provided with the second honeycomb precast slab (204), longitudinal reinforcing ribs (205) are inserted into holes of the second honeycomb prefabricated plate (204), a fixing lantern ring (203) is connected between the first honeycomb prefabricated plate (201) and the second honeycomb prefabricated plate (204), the other end of the first honeycomb prefabricated plate (201) is connected with a second connecting structure (6), the other end of the second connecting structure (6) is connected with a second heat-insulating structure (7), the other end of the second heat-insulating structure (7) is connected with a second partition plate (8), and the other end of the second partition plate (8) is provided with a second microcrystal decoration panel (9).

2. The floor microcrystalline thermal insulation and sound insulation structure as claimed in claim 1, wherein: the structure of first honeycomb prefabricated plate (201) and second honeycomb prefabricated plate (204) is the same, and first honeycomb prefabricated plate (201) is including plate body (2011), honeycomb filler storehouse (2012), horizontal jack (2013) and vertical jack (2014), a plurality of honeycomb filler storehouses (2012) have been seted up to the terminal surface of plate body (2011), and transverse jack (2013) have been seted up to the lateral wall of plate body (2011), vertical jack (2014) have been seted up to the upper and lower end of plate body (2011), and vertical jack (2014) and horizontal jack (2013) set up perpendicularly, adjacent two honeycomb filler storehouse (2012) communicates with each other through horizontal jack (2013) or vertical jack (2014).

3. The floor microcrystalline thermal insulation and sound insulation structure as claimed in claim 2, wherein: the structure of first connection structure (3) is the same with second connection structure (6), and the blind hole that first connection structure (3) was seted up aligns with honeycomb filler storehouse (2012) and sets up, first jack (304) and second jack (305) communicate with each other with second blind hole (303), the blind hole that first connection structure (3) was seted up aligns with honeycomb filler storehouse (402).

4. The floor microcrystalline thermal insulation and sound insulation structure as claimed in claim 3, wherein: the prefabricated plate structure is characterized in that transverse reinforcing ribs (202) inside the first honeycomb prefabricated plate (201) and longitudinal reinforcing ribs (205) inside the second honeycomb prefabricated plate (204) are tied up and connected through iron wires, the initial state of the fixed lantern ring (203) and the inclined lantern ring (306) is U-shaped, the fixed lantern ring (203) penetrates through the first jack (304) and is inserted into a honeycomb filling bin (2012) bin which is formed by the honeycomb prefabricated plate, the fixed lantern ring (203) penetrates through the honeycomb filling bin (2012) and is inserted into the first jack (304) hole which is formed by the second connecting structure (6), and the end of the fixed lantern ring (203) in a blind hole of the second connecting structure (6) is bent.

5. The floor microcrystalline thermal insulation and sound insulation structure as claimed in claim 4, wherein: the second jack (305) that second blind hole (303) hole bottom was seted up is aimed at to slope lantern ring (306) end, and slope lantern ring (306) run through second jack (305) and insert in honeycomb notes feed bin (402) storehouse that first heat preservation structure (4) were seted up, slope lantern ring (306) end is buckled and is wrapped up first heat preservation structure (4) inside installation net (404) and couple (405) integrative setting.

6. The floor microcrystalline thermal insulation and sound insulation structure as claimed in claim 5, wherein: a plurality of honeycomb injecting bins (402) are arranged on the end face of the heat insulation plate (401), two adjacent honeycomb injecting bins (402) are communicated through a mounting groove (403), and the end of the inclined lantern ring (306) penetrates through the mounting net (404) and is bent to be attached to the mounting net (404).

7. The floor microcrystalline thermal insulation and sound insulation structure as claimed in claim 6, wherein: the structure of first insulation construction (4) and second insulation construction (7) is the same, and second insulation construction (7) and second connection structure (6) are connected through slope lantern ring (306), the structure of first division board (5) and second division board (8) is the same, and the division board covers honeycomb notes feed bin (402) that the insulation construction terminal surface was seted up.

8. The floor microcrystalline thermal insulation and sound insulation structure as claimed in claim 7, wherein: the first microcrystalline decoration panel (1) and the second microcrystalline decoration panel (9) are identical in structure, the first microcrystalline decoration panel (1) and the first partition plate (5) are integrally arranged, and the second microcrystalline decoration panel (9) and the second partition plate (8) are integrally arranged.

9. The floor microcrystalline thermal insulation and sound insulation structure according to claim 8, characterized in that: the honeycomb filling bins (2012) formed by the first honeycomb prefabricated plate (201) and the second honeycomb prefabricated plate (204) are aligned, the mixed sound insulation material is injected into the honeycomb filling bin (2012) bin, and the mixed heat insulation material is injected into the honeycomb filling bin (402) bin.

10. A method for manufacturing a microcrystalline thermal insulation and sound insulation structure of a floor slab according to any one of claims 1-9, wherein the method comprises the following steps: the method comprises the following steps:

the method comprises the following steps: the honeycomb prefabricated slab used by the sound insulation structure is prefabricated and molded by adopting a mold, the sound insulation structure is assembled, and the transverse reinforcing ribs and the longitudinal reinforcing ribs in the sound insulation structure are bundled by adopting iron wires;

step two: after the sound insulation structure and the first connecting structure are assembled and connected, injecting a mixed sound insulation material into a honeycomb filler bin arranged on the sound insulation structure;

step three: after the sound insulation structure and the second connecting structure are assembled and connected, vibration treatment is carried out on the mixed sound insulation material in the sound insulation structure, and the sound insulation structure is cooled for standby;

step four: assembling a heat insulation structure, connecting a heat insulation structure mounting net with a connecting structure inclined lantern ring, injecting a mixed heat insulation material into the honeycomb injection bin, vibrating the mixed heat insulation material, and cooling for later use;

step five: and fixedly connecting the heat preservation structure with the partition plate, and warehousing after detection.

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