CN113404211A - Energy-saving assembled energy-saving wall material based on calcium silicate board and rock state board - Google Patents

Abstract

The invention discloses an energy-saving assembled energy-saving wall material based on a calcium silicate board and a rock state board, which comprises a base and the rock state board, wherein a first calcium silicate board is installed on the back surface of the rock state board, a hard board is installed on the back surface of the first calcium silicate board, a second calcium silicate board is installed on the back surface of the hard board, an adhesive layer is installed on the back surface of the second calcium silicate board, second embedded clamping pieces are installed at the bottoms of the first calcium silicate board, the hard board, the second calcium silicate board and the adhesive layer, and first embedded clamping pieces are respectively installed at the tops of the first calcium silicate board, the hard board, the second calcium silicate board and the adhesive layer. According to the invention, the sealing layer is arranged at the bottom of the base and is made of the waterproof and corrosion-resistant material, so that when water is accumulated on the ground, water is prevented from permeating into the wall from the ground, and the safety of the wall is ensured.

Description

Energy-saving assembled energy-saving wall material based on calcium silicate board and rock state board

Technical Field

The invention relates to the technical field of walls, in particular to an energy-saving assembled energy-saving wall material based on a calcium silicate board and a rock state board.

Background

With the continuous development of the science and technology level, in order to protect the environment and save land resources, a wall body made of various novel materials is provided with a wallboard made of new materials such as a color steel plate, a gypsum board and an energy-saving wall body in recent years, and the energy-saving wall body is characterized in that the heat preservation and heat insulation capability of the wall body is improved and the waste of internal heat is reduced by adding various materials.

The energy-saving wall material in the prior art has the following defects:

1. comparison document CN211714256U discloses a green building energy conservation wall body, "including the box-like heat insulation box of hollow rectangle, the heat insulation box outer wall is equipped with the one deck side of a wall, and the heat insulation box inner wall is equipped with the wall in the one deck, and the heat insulation box bottom is equipped with the wall root, and the heat insulation box top is equipped with the wall top, and the outer wall of side of a wall is equipped with the one deck heat preservation, and the heat preservation outer wall is equipped with the outer coating of one deck. The green building energy-saving wall body is characterized in that a heat insulation box is embedded in the wall body, a heat insulation layer and outer coating are arranged outside the wall body, the heat insulation performance of the wall body is greatly improved under the double effects, the heat insulation performance of a building is better, and a more environment-friendly green building can be built;

2. the reference document CN211597194U discloses an energy-saving wall device for constructional engineering, which comprises a wall body provided with two supporting plates, wherein a plurality of main rods are arranged between the two supporting plates, a plurality of inclined supporting rods are obliquely arranged between the main rods and the supporting plates, a hollow cavity in the wall body is filled with heat-insulating filler, a layer of heat-insulating pad is arranged on the outer side of the wall body, and a layer of outer wall coating is arranged on the outer side of the heat-insulating pad. This energy-conserving wall body device of building engineering designs into hollow structure with the wall body to it has insulation material to fill, has strengthened the thermal-insulated ability of separating of wall body, reaches and improves the heat preservation effect, lets the purpose of the more green of building, and has kept the wall body simultaneously and have sufficient intensity and bearing capacity ", the inside waterproof construction that lacks of the device, when subaerial ponding appears, water can permeate the inside of wall body along the wall body.

3. The comparison document CN212613150U discloses a building energy-saving wall, "comprising: the wallboard comprises an XPS plate, a fireproof plate and an acoustic board, wherein the fireproof plate is positioned on the outer side of the XPS plate, the acoustic board is positioned on the inner side of the XPS plate, a plurality of strip-shaped grooves which are longitudinally distributed are uniformly formed in the left side of the XPS plate, a plurality of through holes which are longitudinally distributed are uniformly formed in the inner side of the XPS plate, the through holes and the strip-shaped grooves are in one-to-one correspondence and are communicated, a drying screen plate is embedded in each through hole, an acoustic cotton sliver is embedded in each strip-shaped groove, and an inserting strip is fixed in the middle of the top of the XPS plate; the beneficial effects of the utility model reside in that: the drying device has the advantages that moist air can be dried, water vapor in the air is prevented from entering the XPS board through the through holes, the XPS board can be prevented from being corroded, a good sound insulation effect is achieved, the interior of the XPS board is in a hollow state, the weight of the XPS board is reduced, the wallboard is lighter, equipment for detecting humidity is absent in the device, and whether the moisture in the wallboard exceeds the highest value capable of being born by the device cannot be judged;

4. comparison document CN211548202U discloses a green building energy-saving wall body puts, "including polylith worker shape connecting piece, polylith worker shape connecting piece can the assembly connection form green building energy-saving wall body, worker shape connecting piece includes two first portions and a second portion, two first portion and one second portion integrated into one piece, two the both sides of first portion all are provided with tenon fourth of the twelve earthly branches structure, polylith worker shape connecting piece carries out assembly connection through such tenon fourth of the twelve earthly branches structure. Possess better syllable-dividing thermal-insulated effect, possess certain fire prevention effect, can satisfy the various aspects requirement of green building energy-saving wall body, can comparatively portably get through the assembly of worker's shape connecting piece and other parts, overall structure is thicker, can satisfy the requirement of bearing wall ", the device is inside to lack the equipment of going on the inspection to the vibration, can't judge whether firm of wall body installation.

Disclosure of Invention

The invention aims to provide an energy-saving assembled energy-saving wall material based on a calcium silicate board and a rock state board, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving assembled energy-saving wall material based on a calcium silicate board and a rock-state board comprises a base and the rock-state board, wherein a first calcium silicate board is installed on the back surface of the rock-state board, a hard board is installed on the back surface of the first calcium silicate board, a second calcium silicate board is installed on the back surface of the hard board, an attaching layer is installed on the back surface of the second calcium silicate board, second embedding clamping pieces are installed at the bottoms of the first calcium silicate board, the hard board, the second calcium silicate board and the attaching layer, and first embedding clamping pieces are installed at the tops of the first calcium silicate board, the hard board, the second calcium silicate board and the attaching layer respectively;

the bottom of the second embedded clamping piece is embedded with a base, and a sealing layer is arranged at the bottom of the base.

Preferably, the top of the base is provided with a first embedding groove, and the inner side of the first embedding groove is connected with the second embedding clamping piece in an embedding manner.

Preferably, the inner sides of the rock state plate, the first calcium silicate plate and the hard plate are provided with fixing rods in a penetrating mode.

Preferably, the humidity sensor is installed to the one end that the dead lever is located the hardboard inboard, the screw thread supporting seat is installed in the outside of dead lever, and the screw thread supporting seat screw thread is installed in the front of rock attitude board, the humidity display is installed to the front end of dead lever, power connector is installed to the bottom of humidity display.

Preferably, a sealing cover is installed at the top of the first embedding clamping piece in an embedding mode, a second embedding groove is formed in the bottom of the sealing cover, the inner side of the second embedding groove is connected with the first embedding clamping piece in an embedding mode, an internal thread interface is formed in the front face of the sealing cover, a threaded connector is installed on the inner side of the internal thread interface in a threaded mode, and a fixing clamping piece is installed at the top of the sealing cover.

Preferably, a vibration sensor is installed at the front end of the threaded connector, a vibration sensor is installed at the front end of the vibration sensor, an amplitude display is installed on the front face of the vibration sensor, a control button is installed on one side of the vibration sensor, a splicing head is installed on one side of the vibration sensor, and the splicing head is located below the control button.

Preferably, one side laminating of rock state board has first connecting plate, and first connecting plate installs in first calcium silicate board, hard board, second calcium silicate board and laminating layer one side, one side that rock state board was kept away from to first connecting plate is installed and is inserted the board, the connecting hole has been seted up to the inboard of inserting the board.

Preferably, the second connecting plate is installed in the laminating of the opposite side of rock attitude board, and the second connecting plate is installed at first calcium silicate board, hard board, second calcium silicate board and binding layer opposite side, and the splice groove is installed to the one side that rock attitude board was kept away from to the second connecting plate, and the through hole has been seted up to the inboard of splice groove, and the connecting screw is installed in the inboard through-going of through hole.

Preferably, the front and the back of the first connecting plate and the second connecting plate are provided with extrusion plates, four groups of fixing screws penetrate through the inner sides of the extrusion plates, the extrusion plates are fixed on the front and the back of the first connecting plate and the back of the second connecting plate through the fixing screws, and the inner sides of the extrusion plates are fixed on the front of the rock state plate and the back of the attaching layer through the fixing screws.

Preferably, the working steps of the device are as follows:

s1, firstly, a worker places the base on the ground to be installed to enable the sealing layer to be attached to the ground, the sealing layer is made of waterproof and corrosion-resistant materials, when water is accumulated on the ground, water is prevented from permeating into the wall from the ground, safety of the wall is guaranteed, then the worker enables the attaching layer to be embedded into the first embedding groove through the second embedding clamping piece, the second calcium silicate plate is embedded into the inner side of the first embedding groove through the second embedding clamping piece, the hard plate is embedded into the inner side of the first embedding groove through the second embedding clamping piece, the first calcium silicate plate is embedded into the inner side of the first embedding groove through the second embedding clamping piece, and the rock state plate is embedded into the inner side of the first embedding groove through the second embedding clamping piece;

s2, the base positions and supports the first calcium silicate board, the hard board, the second calcium silicate board and the attaching layer on the top through the first embedding groove, the stability of the first calcium silicate board, the hard board, the second calcium silicate board and the attaching layer is guaranteed, then the sealing cover is installed on the top of the rock-state board, meanwhile, the second embedding groove limits the first embedding clamping piece on the top of the first calcium silicate board, the hard board, the second calcium silicate board and the attaching layer, the inner side structure is located through mutual matching of the base and the sealing cover, the stability of the device is guaranteed, meanwhile, the fixing clamping piece on the top of the sealing cover is inserted into a roof, the sealing cover is fixed through the fixing clamping piece, and the stability of the sealing cover is guaranteed;

s3, mounting the first connecting plate and the second connecting plate on two sides of the rock-state plate through the extrusion plates by workers to ensure the stability of the device, inserting the insertion plates on one group of wall bodies into the inner sides of the other group of splicing grooves by the workers when a plurality of groups of wall bodies need to be assembled, and penetrating the connecting screw rods through the connecting holes and the through holes for fixing and assembling the device, so that the firmness of connection between the devices is ensured, and the workers can assemble the wall bodies conveniently;

s4, a worker installs a vibration sensor on the inner side of the female adapter through threads to ensure the stability of the threaded connector, the vibration sensor is supported by the threaded connector to ensure the connection tightness between devices, the vibration sensor senses the vibration generated on the wall and transmits the sensed vibration to a vibration sensor, the vibration sensor displays the detected information through an amplitude display to facilitate the worker to judge the stability of the wall, when the vibration exceeds a specified range, the installation is not firm, the vibration sensor needs to be checked by the worker and reinstalled, meanwhile, the worker stretches a humidity sensor into the inner side of a hard plate, a humidity sensitive element in the humidity sensor senses water vapor in the air, the threaded support seat is fixed on the front of a rock state plate through threads, and a fixing rod on the inner side is fixed by the threaded support seat, guarantee the stability of dead lever, the dead lever supports front end humidity display, and humidity display is used for showing the humidity condition of device, and the person of facilitating the use observes information, judges whether the wall body is inside to be corroded by water, and when humidity value that humidity display shows is higher than appointed numerical value, needs the workman to dismantle interior material get off, changes the material again, guarantees wall body safety.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the calcium silicate boards are arranged in the first calcium silicate board and the second calcium silicate board, the calcium silicate boards are novel green environment-friendly building materials, and are made of inorganic materials formed by die pressing according to the installation proportion of siliceous materials, calcareous materials and fiber materials, so that the calcium silicate boards are high in strength, light in weight, good in fireproof and moisture-resistant performances and the like, and are long in service life, the appearance of the calcium silicate boards can be well preserved, the cost of a user is saved, the two groups of calcium silicate boards clamp the inner hard boards to form a board with strong supporting force, the service life of the board is ensured, and the supporting force of the device is ensured.

2. According to the invention, the sealing layer is arranged at the bottom of the base and is made of the waterproof and corrosion-resistant material, so that when water is accumulated on the ground, water is prevented from permeating into the wall from the ground, and the safety of the wall is ensured.

3. According to the invention, the humidity sensor is arranged on the inner side of the hard plate, the humidity sensitive element in the humidity sensor senses water vapor in air, the threaded support seat is fixed on the front side of the rock state plate through threads, the fixing rod on the inner side is fixed by the threaded support seat, the stability of the fixing rod is ensured, the fixing rod supports the humidity display at the front end, the humidity display is used for displaying the humidity condition of the device, a user can conveniently observe information and judge whether the inner part of the wall body is eroded by water, and when the humidity value displayed by the humidity display is higher than a specified value, workers are required to detach the internal material and replace the material again, so that the safety of the wall body is ensured.

4. The vibration sensor is arranged on the inner side of the internal thread connector through the threaded connector, the threaded fixing device is convenient for workers to install the device, the threaded connector supports the vibration sensor to ensure the connection tightness between the devices, the vibration sensor senses vibration generated on a wall body and then transmits the sensed vibration to the vibration sensor, the vibration sensor displays detected information through the amplitude displayer, the workers can conveniently judge the stability of the wall body, and when the vibration exceeds a specified range, the mounting is not firm, and the workers need to check and re-mount the wall body.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic diagram of a rock state plate structure of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic side view of the present invention;

FIG. 5 is a schematic diagram of the vibration sensor of the present invention;

FIG. 6 is a schematic view of a fixing rod structure according to the present invention;

FIG. 7 is a schematic view of a base structure of the present invention;

fig. 8 is a schematic view of the closure of the present invention.

In the figure: 1. a base; 101. a first fitting groove; 102. a sealing layer; 2. a rock state plate; 201. a first calcium silicate board; 202. a hard plate; 203. a second calcium silicate board; 204. laminating layers; 205. a second engaging member; 206. a first engaging member; 3. a closure cap; 301. a second fitting groove; 302. an internal threaded interface; 303. fixing the clamping piece; 4. a pressing plate; 5. a first connecting plate; 501. an insert plate; 502. connecting holes; 6. a second connecting plate; 601. splicing grooves; 602. a through hole; 603. connecting a screw rod; 7. a vibration sensor; 701. a threaded joint; 702. a vibration sensor; 703. an amplitude display; 704. a control button; 705. splicing heads; 8. fixing the rod; 801. a humidity sensor; 802. a threaded support seat; 803. a humidity display; 804. power connector.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 7 and fig. 8, an embodiment of the present invention: an energy-saving assembled energy-saving wall material based on a calcium silicate board and a rock state board;

the first embodiment comprises a base 1 and a rock state plate 2, wherein a first calcium silicate plate 201 is installed on the back surface of the rock state plate 2, the rock state plate 2 is made of materials with rock properties and used as a decorative surface, the calcium silicate plate is a novel green environment-friendly building material, is made of inorganic materials formed by die pressing and formed by siliceous materials, calcareous materials, fiber materials and the like in an installation proportion, has the advantages of high strength, light weight, good fire resistance, moisture resistance and the like, has long service life, can well preserve the appearance, saves the cost of a user, a hard plate 202 is installed on the back surface of the first calcium silicate plate 201, the hard plate 202 is made of hard materials, provides the function of a support beam for the device, improves the support strength of the device, a second calcium silicate plate 203 is installed on the back surface of the hard plate 202, and the two groups of calcium silicate plates clamp the hard plates 202 on the inner side to form a plate with strong support force, the service life of the plate is ensured, the back of the second calcium silicate plate 203 is provided with an adhesive layer 204, the adhesive layer 204 is adhered to the wall surface, the adhesion degree of the device is ensured, the bottoms of the first calcium silicate plate 201, the hard plate 202, the second calcium silicate plate 203 and the adhesive layer 204 are provided with a second embedding fastener 205, the second embedding fastener 205 is used for embedding with the base 1 at the bottom to position the device, the tops of the first calcium silicate plate 201, the hard plate 202, the second calcium silicate plate 203 and the adhesive layer 204 are respectively provided with a first embedding fastener 206, the top of the first embedding fastener 206 is provided with a sealing cover 3 in an embedding manner, the first calcium silicate plate 201, the hard plate 202, the second calcium silicate plate 203 and the adhesive layer 204 are connected with the sealing cover 3 in an embedding manner through a first embedding fastener 206, the bottom of the sealing cover 3 is provided with a second embedding groove 301, and the inner side of the second embedding groove 301 is connected with the first embedding fastener 206 in an embedding manner, the closed cover 3 is arranged at the top of the rock state plate 2, meanwhile, the second embedding groove 301 limits the first embedding clamping piece 206 at the top of the first calcium silicate plate 201, the hard plate 202, the second calcium silicate plate 203 and the laminating layer 204, the closed cover 3 limits and fixes the bottom device, the front surface of the closed cover 3 is provided with an internal thread interface 302, the inner side of the internal thread interface 302 is provided with a threaded connector 701 in a threaded manner, the front end of the threaded connector 701 is provided with a vibration sensor 7, the front end of the vibration sensor 7 is provided with a vibration sensor 702, the front surface of the vibration sensor 702 is provided with an amplitude display 703, one side of the vibration sensor 702 is provided with a control button 704, one side of the vibration sensor 702 is provided with a splicing head 705, the splicing head is positioned below the control button 704, the splicing head is arranged at the inner side of the internal thread interface 302 through the threaded connector 701, and a thread fixing device 705, the device is convenient for workers to install the device, the vibration sensor 7 is supported by the threaded connector 701, the connection tightness between the devices is guaranteed, the vibration sensor 7 senses vibration generated on a wall body and transmits the sensed vibration to the vibration sensor 702, the vibration sensor 702 displays detected information through the amplitude display 703, the workers can conveniently judge the stability of the wall body, when the vibration exceeds a specified range, the installation is not firm, workers are required to check and install the device again, the fixing clamping piece 303 is installed at the top of the sealing cover 3 and inserted into a roof, the sealing cover 3 is fixed through the fixing clamping piece 303, and the stability of the sealing cover 3 is guaranteed;

referring to fig. 1, 2 and 7, an energy-saving fabricated energy-saving wall material based on calcium silicate board and rock state board,

embodiment two, including second gomphosis fastener 205, base 1 is installed to the bottom gomphosis of second gomphosis fastener 205, first gomphosis groove 101 has been seted up at base 1's top, and the inboard and the second gomphosis fastener 205 gomphosis of first gomphosis groove 101 are connected, enclosed layer 102 is installed to base 1's bottom, carries out the gomphosis by base 1 through first gomphosis groove 101 to the apical structure and supports, makes things convenient for the staff to assemble the device, and enclosed layer 102 comprises waterproof corrosion-resistant material, can prevent that water from oozing the inside of wall body by ground when ground produces ponding, guarantees the safety of wall body.

Referring to fig. 6, an energy-saving assembled energy-saving wall material based on calcium silicate board and rock board,

the third embodiment comprises a rock state plate 2, a fixing rod 8 is installed inside the rock state plate 2, the first calcium silicate plate 201 and the hard plate 202 in a penetrating manner, a humidity sensor 801 is installed at one end of the fixing rod 8, which is located inside the hard plate 202, a thread support 802 is installed outside the fixing rod 8, the thread support 802 is installed on the front face of the rock state plate 2 in a threaded manner, a humidity display 803 is installed at the front end of the fixing rod 8, a power connector 804 is installed at the bottom of the humidity display 803, the humidity sensor 801 extends into the hard plate 202, a humidity sensitive element inside the humidity sensor 801 senses water vapor in the air, the thread support 802 is fixed on the front face of the rock state plate 2 through threads, the fixing rod 8 on the inner side is fixed through the thread support 802, the stability of the fixing rod 8 is guaranteed, and the fixing rod 8 supports the front end humidity display 803, humidity display 803 is used for showing the humidity condition of device, and convenience of customers observes information, judges whether the wall body is inside to be corroded by water, when the humidity numerical value that humidity display 803 shows is higher than appointed numerical value, needs the workman to dismantle interior material, installs new material going, and power connector 804 is used for connecting outside power, conveniently carries the inside of device with electric power.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, an energy-saving assembled energy-saving wall material based on calcium silicate board and rock state board,

in the fourth embodiment, the rock state plate comprises a rock state plate 2, a first connecting plate 5 is attached to one side of the rock state plate 2, the first connecting plate 5 is installed on one side of a first calcium silicate plate 201, a hard plate 202, a second calcium silicate plate 203 and an attaching layer 204, an inserting plate 501 is installed on one side, away from the rock state plate 2, of the first connecting plate 5, a connecting hole 502 is formed in the inner side of the inserting plate 501, a second connecting plate 6 is attached to the other side of the rock state plate 2, the second connecting plate 6 is installed on the other side of the first calcium silicate plate 201, the hard plate 202, the second calcium silicate plate 203 and the attaching layer 204, a splicing groove 601 is installed on one side, away from the rock state plate 2, of the second connecting plate 6, a through hole 602 is formed in the inner side of the splicing groove 601, a connecting screw 603 is installed on the inner side of the through hole 602, and extrusion plates 4 are installed on the front and back of the first connecting plate 5 and the second connecting plate 6, four sets of set screws are installed in the inboard of stripper plate 4 through running through, stripper plate 4 passes through set screw to be fixed at the front and the back of first connecting plate 5 and second connecting plate 6, the inboard of stripper plate 4 passes through set screw to be fixed at the front of rock attitude board 2 and the back of laminating layer 204, first connecting plate 5 and second connecting plate 6 pass through stripper plate 4 and install at the front of rock attitude board 2 and the back of laminating layer 204, make things convenient for the staff to assemble the device, guarantee the fastness of connecting between the device, when needing to assemble multiunit wall body, the staff inserts the inboard that board 501 inserted into another group of concatenation groove 601 on with a set of wall body, then with connecting screw 603 through connection hole 502 and through hole 602, be used for fixing the equipment to the device, guarantee the fastness of connecting between the device, make things convenient for the staff to assemble the wall body.

The working steps of the device are as follows:

s1, firstly, a worker places the base 1 on the ground to be installed to enable the sealing layer 102 to be attached to the ground, the sealing layer 102 is made of waterproof and corrosion-resistant materials, when water is accumulated on the ground, water is prevented from permeating into the wall from the ground, the safety of the wall is guaranteed, then the worker enables the attaching layer 204 to be embedded in the first embedding groove 101 through the second embedding clamping piece 205, the second calcium silicate plate 203 is embedded in the first embedding groove 101 through the second embedding clamping piece 205, the hard plate 202 is embedded in the first embedding groove 101 through the second embedding clamping piece 205, the first calcium silicate plate 201 is embedded in the first embedding groove 101 through the second embedding clamping piece 205, and the rock-state plate 2 is embedded in the first embedding groove 101 through the second embedding clamping piece 205;

s2, the base 1 is used for positioning and supporting the first calcium silicate board 201, the hard board 202, the second calcium silicate board 203 and the laminating layer 204 on the top through the first embedding groove 101, the stability of the first calcium silicate board 201, the hard board 202, the second calcium silicate board 203 and the laminating layer 204 is guaranteed, then the sealing cover 3 is installed on the top of the rock-state board 2, meanwhile, the second embedding groove 301 is used for limiting the first calcium silicate board 201, the hard board 202, the second calcium silicate board 203 and the first embedding clamping piece 206 on the top of the laminating layer 204, the inner side structure is located through mutual matching of the base 1 and the sealing cover 3, the stability of the device is guaranteed, meanwhile, the fixing clamping piece 303 on the top of the sealing cover 3 is inserted into a roof, the sealing cover 3 is fixed through the fixing clamping piece 303, and the stability of the sealing cover 3 is guaranteed;

s3, mounting the first connecting plate 5 and the second connecting plate 6 on two sides of the rock-state plate 2 through the extrusion plate 4 by a worker, ensuring the stability of the device, inserting the insertion plate 501 on one wall into the inner side of the other splicing groove 601 by the worker when a plurality of groups of walls need to be assembled, and penetrating the connecting screw 603 through the connecting hole 502 and the through hole 602 for fixing and assembling the device, ensuring the firmness of connection among the devices and facilitating the assembly of the wall by the worker;

s4, a worker installs the vibration sensor 7 on the inner side of the female connector 302 through threads to ensure the stability of the threaded connector 701, the threaded connector 701 supports the vibration sensor 7 to ensure the connection tightness between devices, the vibration sensor 7 senses the vibration generated on the wall and transmits the sensed vibration to the vibration sensor 702, the vibration sensor 702 displays the detected information through the amplitude display 703 to facilitate the worker to judge the stability of the wall, when the vibration exceeds a specified range, the installation is not firm, the installation needs to be checked by workers and reinstalled, meanwhile, the worker stretches the humidity sensor 801 into the inner side of the hard plate 202, the humidity sensitive element in the humidity sensor 801 senses the water vapor in the air, the threaded connector 802 is fixed on the front side of the rock state plate 2 through threads, fix inboard dead lever 8 by thread support seat 802, guarantee the stability of dead lever 8, dead lever 8 supports front end humidity display 803, humidity display 803 is used for showing the humidity condition of device, and the person of facilitating the use observes information, judges whether the wall body is inside to be corroded by water, and when humidity value that humidity display 803 shows was higher than appointed numerical value, it got off to need the workman to dismantle interior material, changed the material again, guarantees wall body safety.

The working principle is as follows: firstly, a worker places a base 1 on the ground to be installed to enable a sealing layer 102 to be attached to the ground, the sealing layer 102 is made of waterproof and corrosion-resistant materials, when water is accumulated on the ground, water is prevented from permeating into the wall from the ground, and the safety of the wall is guaranteed, then the worker enables an attaching layer 204 to be embedded in a first embedding groove 101 through a second embedding clamping piece 205, a second calcium silicate plate 203 is embedded in the first embedding groove 101 through the second embedding clamping piece 205, a hard plate 202 is embedded in the first embedding groove 101 through the second embedding clamping piece 205, the first calcium silicate plate 201 is embedded in the first embedding groove 101 through the second embedding clamping piece 205, a rock state plate 2 is embedded in the first embedding groove 101 through the second embedding clamping piece 205, and the base 1 is used for enabling the first calcium silicate plate 201, the hard plate 202 and the top of the base to be embedded in the first embedding groove 101 through the first embedding groove 101, The second calcium silicate board 203 and the laminating layer 204 are positioned and supported to ensure the stability of the first calcium silicate board 201, the hard board 202, the second calcium silicate board 203 and the laminating layer 204, then the closing cover 3 is arranged on the top of the rock-state board 2, meanwhile, the second embedding groove 301 limits the first embedding clamping piece 206 on the tops of the first calcium silicate board 201, the hard board 202, the second calcium silicate board 203 and the laminating layer 204, the inner side structure is positioned through the mutual matching of the base 1 and the closing cover 3 to ensure the stability of the device, meanwhile, the fixing clamping piece 303 on the top of the closing cover 3 is inserted into the roof, the closing cover 3 is fixed through the fixing clamping piece 303 to ensure the stability of the closing cover 3, then a worker installs the first connecting plate 5 and the second connecting plate 6 on the two sides of the rock-state board 2 through the extrusion plate 4 to ensure the stability of the device, when a plurality of groups of walls need to be assembled, the worker inserts the plate 501 on one group of walls into the inner side of the other group of splicing grooves 601, then, a connecting screw 603 penetrates through the connecting hole 502 and the through hole 602, so as to be used for fixedly assembling the devices, ensure the firmness of connection between the devices and facilitate the assembly of a wall body by a worker, the worker installs the threaded connector 701 on the inner side of the female connector 302 through threads on the vibration sensor 7 to ensure the stability of the threaded connector 701, the threaded connector 701 supports the vibration sensor 7 to ensure the tightness of connection between the devices, the vibration sensor 7 senses vibration generated on the wall body and transmits the sensed vibration to the vibration sensor 702, the vibration sensor 702 displays the detected information through the amplitude display 703 to facilitate the judgment of the stability of the wall body by the worker, when the vibration exceeds a specified range, the installation is not firm, the worker needs to check and re-install the device, and simultaneously, the worker stretches the humidity sensor 801 into the inner side of the hard plate 202, the steam in the air is responded to by the inside humidity sensitive element of humidity transducer 801, thread support seat 802 passes through the threaded fixation in the front of rock attitude board 2, it is fixed to inboard dead lever 8 by thread support seat 802, guarantee the stability of dead lever 8, dead lever 8 supports front end humidity display 803, humidity display 803 is used for showing the humidity condition of device, the person of facilitating the use observes information, judge whether the wall body is inside to be eroded by water, when the humidity numerical value that humidity display 803 shows is higher than appointed numerical value, it gets off to need the workman to dismantle interior material, change the material again, guarantee wall body safety.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides an energy-saving assembled energy-conserving wall body material of formula based on calcium silicate board and rock attitude board, includes base (1) and rock attitude board (2), its characterized in that: the back surface of the rock state plate (2) is provided with a first calcium silicate plate (201), the back surface of the first calcium silicate plate (201) is provided with a hard plate (202), the back surface of the hard plate (202) is provided with a second calcium silicate plate (203), the back surface of the second calcium silicate plate (203) is provided with a binding layer (204), the bottoms of the first calcium silicate plate (201), the hard plate (202), the second calcium silicate plate (203) and the binding layer (204) are provided with second embedding clamping pieces (205), and the tops of the first calcium silicate plate (201), the hard plate (202), the second calcium silicate plate (203) and the binding layer (204) are respectively provided with first embedding clamping pieces (206);

the bottom of the second embedding clamping piece (205) is embedded with a base (1), and the bottom of the base (1) is provided with a sealing layer (102).

2. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 1, is characterized in that: the top of the base (1) is provided with a first embedding groove (101), and the inner side of the first embedding groove (101) is connected with a second embedding clamping piece (205) in an embedding manner.

3. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 1, is characterized in that: and the inner sides of the rock state plate (2), the first calcium silicate plate (201) and the hard plate (202) are provided with fixing rods (8) in a penetrating way.

4. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 3, is characterized in that: humidity transducer (801) are installed to the one end that dead lever (8) are located hard board (202) inboard, screw thread supporting seat (802) are installed to the outside of dead lever (8), and screw thread supporting seat (802) screw thread installation is in the front of rock attitude board (2), humidity display (803) are installed to the front end of dead lever (8), power connector (804) are installed to the bottom of humidity display (803).

5. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 1, is characterized in that: the top gomphosis of first gomphosis fastener (206) is installed and is closed lid (3), and second gomphosis groove (301) have been seted up to the bottom of closed lid (3), and the inboard and the gomphosis of first gomphosis fastener (206) in second gomphosis groove (301) are connected, and female connection mouth (302) have been seted up in the front of closed lid (3), and screwed joint (701) are installed to the inboard screw thread of female connection mouth (302), and fixed fastener (303) are installed at the top of closed lid (3).

6. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 5, is characterized in that: vibration sensor (7) are installed to the front end of screwed joint (701), vibration inductor (702) are installed to the front end of vibration sensor (7), and amplitude display (703) are installed in the front of vibration inductor (702), control button (704) are installed to one side of vibration inductor (702), splice (705) are installed to one side of vibration inductor (702), and splice (705) are located the below of control button (704).

7. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 1, is characterized in that: rock one side laminating of attitude board (2) has first connecting plate (5), and first connecting plate (5) are installed in first calcium silicate board (201), hard board (202), second calcium silicate board (203) and laminating layer (204) one side, one side that rock attitude board (2) was kept away from in first connecting plate (5) is installed and is inserted board (501), connecting hole (502) have been seted up to the inboard of inserting board (501).

8. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 1, is characterized in that: the second connecting plate (6) is installed in the laminating of the other side of rock state board (2), and second connecting plate (6) are installed in first calcium silicate board (201), hard board (202), second calcium silicate board (203) and laminating layer (204) opposite side, and concatenation groove (601) are installed to one side that rock state board (2) were kept away from in second connecting plate (6), through hole (602) have been seted up to the inboard of concatenation groove (601), connecting screw (603) have been installed in the inboard through-going of through hole (602).

9. The energy-saving assembled energy-saving wall material based on the calcium silicate board and the rock state board as claimed in claim 7, is characterized in that: the front and the back of the first connecting plate (5) and the second connecting plate (6) are provided with the extrusion plates (4), the inner sides of the extrusion plates (4) are provided with four groups of fixing screws in a penetrating mode, the extrusion plates (4) are fixed to the front and the back of the first connecting plate (5) and the second connecting plate (6) through the fixing screws, and the inner sides of the extrusion plates (4) are fixed to the front of the rock state plate (2) and the back of the attaching layer (204) through the fixing screws.

10. An energy-saving fabricated energy-saving wall material based on calcium silicate boards and rock-state boards as claimed in any one of claims 1 to 9, wherein the working steps of the device are as follows:

s1; firstly, a worker places a base (1) on the ground to be installed to enable a sealing layer (102) to be attached to the ground, the sealing layer (102) is made of waterproof and corrosion-resistant materials, can prevent water from seeping into the wall from the ground when water is accumulated on the ground, ensures the safety of the wall, then, a worker embeds the adhesive layer (204) in the first embedding groove (101) through the second embedding fastener (205), embeds the second calcium silicate plate (203) in the inner side of the first embedding groove (101) through the second embedding fastener (205), embeds the hard plate (202) in the inner side of the first embedding groove (101) through the second embedding fastener (205), embeds the first calcium silicate plate (201) in the inner side of the first embedding groove (101) through the second embedding fastener (205), and embeds the rock state plate (2) in the inner side of the first embedding groove (101) through the second embedding fastener (205);

s2, the base (1) is used for positioning and supporting the first calcium silicate board (201), the hard board (202), the second calcium silicate board (203) and the laminating layer (204) on the top through the first embedding groove (101), the stability of the first calcium silicate board (201), the hard board (202), the second calcium silicate board (203) and the laminating layer (204) is guaranteed, then the closing cover (3) is installed on the top of the rock-state board (2), meanwhile, the second embedding groove (301) is used for limiting the first embedding clamping piece (206) on the top of the first calcium silicate board (201), the hard board (202), the second calcium silicate board (203) and the laminating layer (204), the inner side structure is positioned through the mutual matching of the base (1) and the closing cover (3), the stability of the device is guaranteed, meanwhile, the fixing clamping piece (303) on the top of the closing cover (3) is inserted into the roof, the closing cover (3) is fixed through the fixing clamping piece (303), the stability of the closing cover (3) is ensured;

s3, then, a worker installs the first connecting plate (5) and the second connecting plate (6) on two sides of the rock state plate (2) through the extrusion plate (4), the stability of the device is guaranteed, when a plurality of groups of wall bodies need to be assembled, the worker inserts the insertion plate (501) on one group of wall body into the inner side of the other group of splicing grooves (601), and then the connecting screw (603) penetrates through the connecting hole (502) and the through hole (602) for fixing and assembling the device, the firmness of connection between the devices is guaranteed, and the worker can conveniently assemble the wall bodies;

s4, a worker installs a threaded connector (701) on the inner side of an internal threaded connector (302) through threads by a vibration sensor (7), the stability of the threaded connector (701) is guaranteed, the vibration sensor (7) is supported by the threaded connector (701), the connection tightness between devices is guaranteed, the vibration sensor (7) senses vibration generated on a wall body and transmits the sensed vibration to a vibration sensor (702), the vibration sensor (702) displays detected information through an amplitude display (703), the worker can conveniently judge the stability of the wall body, when the vibration exceeds a specified range, the installation is not firm, workers are required to check and install the vibration sensor, meanwhile, the worker stretches a humidity sensor (801) into the inner side of a hard plate (202), and a humidity sensitive element inside the humidity sensor (801) senses water vapor in the air, screw thread supporting seat (802) passes through the front of threaded fixation at rock attitude board (2), it is fixed to inboard dead lever (8) by screw thread supporting seat (802), guarantee the stability of dead lever (8), dead lever (8) support front end humidity display (803), humidity display (803) are used for showing the humidity condition of device, the person of facilitating the use observes information, judge whether the wall body is inside to be eroded by water, when humidity numerical value that humidity display (803) show is higher than appointed numerical value, it gets off to need the workman to dismantle interior material, change the material again, guarantee wall body safety.

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