CN110080412B

CN110080412B - Heat insulation structure system of existing building masonry and construction method thereof

Info

Publication number: CN110080412B
Application number: CN201910286662.2A
Authority: CN
Inventors: 经浩芳; 曹军; 陈君; 狄卫星; 唐毅; 费翔; 李萍; 曹雨婷; 顾頔; 戚云涛
Original assignee: Changzhou Donghua Construction And Installation Engineering Co ltd
Current assignee: Changzhou Donghua Construction And Installation Engineering Co ltd
Priority date: 2019-04-10
Filing date: 2019-04-10
Publication date: 2020-07-24
Anticipated expiration: 2039-04-10
Also published as: CN110080412A

Abstract

The invention relates to a heat-insulation structure system of an existing building masonry and a construction method thereof, and the heat-insulation structure system comprises a base layer wall body, wherein four fixing rods are fixedly arranged on the periphery of the base layer wall body, the fixing rods surround a circle along the periphery of the base layer wall body, a plurality of buffer assemblies are fixedly arranged on the surface of one side of the base layer wall body, each buffer assembly comprises a first fixing plate, a sliding block, a first spring, a movable rod, a second spring, a rotating ball and a placing plate, four sliding grooves are formed in one side of the first fixing plate, and the first fixing plate is connected with the sliding block in a sliding mode at the sliding grooves. The invention has the advantages of heat preservation, shock resistance and safety accident reduction.

Description

Heat insulation structure system of existing building masonry and construction method thereof

Technical Field

The invention relates to the technical field of heat preservation layers in buildings, in particular to a heat preservation structure system of an existing building masonry and a construction method thereof.

Background

The outer wall external heat insulation is a heat insulation method for placing a heat insulation layer outside a main wall material as the name suggests, and the method can reduce point influence and protect the main wall material from temperature deformation stress, is the most widely applied heat insulation method at present and is also a heat insulation method vigorously advocated by the state at present.

Chinese patent No. CN102251592A discloses a thermal insulation structure system suitable for existing building masonry and a construction method thereof, which includes an inner decoration layer, an existing foundation wall layer, a thermal insulation layer, and a concrete protection layer, wherein concrete anchor bodies for anchoring embedded parts are arranged at intervals in the existing foundation wall layer, reinforcing steel bars are arranged in the concrete protection layer, and the reinforcing steel bars are anchored with the embedded parts through tie pieces penetrating through the thermal insulation layer.

Although the heat-insulating structure system suitable for the existing building masonry and the construction method thereof ensure that the building system has long service life and good fireproof performance and can ensure the safety and durability of face brick adhesion, the structure system cannot ensure the firmness of the heat-insulating block when the building encounters slight earthquake, and the heat-insulating block is easy to fall off due to external force, so that potential safety hazards exist.

Disclosure of Invention

The invention aims to provide a heat-insulating structure system of the existing building masonry and a construction method thereof, and the heat-insulating structure system has the advantages of heat insulation, earthquake resistance and reduction of safety accidents.

The above object of the present invention is achieved by the following technical solutions:

the heat-insulating structure system of the existing building masonry and the construction method thereof comprise a base wall body, wherein a coating layer, a waterproof layer, a second anti-cracking mortar, grid cloth, a first anti-cracking mortar and a heat-insulating block are sequentially arranged on one side of the base wall body from outside to inside, a plurality of buffer structures are arranged between the base wall body and the heat-insulating block, four fixing rods are fixedly arranged on the periphery of the base wall body, the fixing rods surround the periphery of the base wall body into a circle, each buffer assembly comprises a first fixing plate, a sliding block, a first spring, a movable rod, a second spring, a rotating ball and a placing plate, four sliding grooves are formed in one side of the first fixing plate, the first fixing plate is in sliding connection with the sliding block at the sliding grooves, the sliding block is fixedly connected with the first spring at one end close to the first fixing plate, the first spring is fixedly connected with the sliding grooves, the one end of sliding block extends to the outside of first fixed plate, just the top of sliding block with the movable rod rotates to be connected, the movable rod is being close to the one end department of first fixed plate with second spring fixed connection, just the other end of second spring with first fixed plate fixed connection, the movable rod is kept away from the one end of sliding block with rolling ball swing joint, the rolling ball with place the board and rotate and connect, place the board one side with insulating block fixed connection.

Through adopting above-mentioned technical scheme, first spring, second spring, sliding block, movable rod and rolling ball component structure among the buffering subassembly, the external force size that the piece received that reduces that this structure can be very big has guaranteed that the piece that keeps warm can not appear rocking or dropping because of external force.

The invention is further configured to: one side of the first fixing plate is tightly attached to the fixing rod, the cross section of the first fixing plate is rectangular, the cross section of the placing plate is also rectangular, the central axis of the first fixing plate is coincided with the central axis of the placing plate, and the orthographic projection of the base wall body of the placing plate is coincided with the first fixing plate.

Through adopting above-mentioned technical scheme, first fixed plate is unanimous with placing board appearance size, and when first fixed plate was fully covered with basic unit's wall body completely, it can form a new plane also to place the board.

The invention is further configured to: one side of the heat preservation block, which is far away from the first fixing plate, is coplanar with one side of the fixing rod, which is far away from the base layer wall body.

By adopting the technical scheme, after the heat preservation block and the buffer device are completely installed, the heat preservation block and the fixed rod form a new plane, and subsequent work is conveniently unfolded.

The invention is further configured to: the cross section of the heat preservation block is rectangular, the similarity ratio of the heat preservation block to the placing plate is 1:1, and the central axis of the heat preservation block is collinear with the central axis of the placing plate.

Through adopting above-mentioned technical scheme, the insulating block covers completely and places the board top, and the insulating block can shelter from completely placing the board, and all insulating blocks can form a new plane.

The invention is further configured to: the heat preservation block comprises a bonding layer and an expanded polystyrene board, and the grid cloth is made of alkali-resistant glass fiber grid cloth.

By adopting the technical scheme, the expanded polystyrene board takes the expanded polystyrene board as a heat-insulating material, and the expanded polystyrene board can play the effects of heat preservation in winter, heat insulation in summer and decoration protection on buildings; the alkali-resistant glass fiber mesh cloth has the characteristics of light weight, high strength, temperature resistance, alkali resistance, water resistance, corrosion resistance, cracking resistance, stable size and the like.

The invention is further configured to: the buffer assembly further comprises a first groove, the first groove is formed in the place plate and is close to one side of the first fixing plate, the rotating ball is movably embedded in the first groove, the cross section of an opening of the first groove is circular, and the diameter of the opening of the first groove is smaller than that of the rotating ball.

Through adopting above-mentioned technical scheme, the live inlay of rolling ball is inside first recess, and the rolling ball is swing joint with placing the board, and when external force touched the movable rod, any external force direction's external force can not make the movable rod or place the board and warp.

The invention is further configured to: the waterproof layer is flexible water-resistant particles and covers one side of the fixing rod, which is far away from the base layer wall body.

The invention is further configured to: the flexible water-resistant particles can be normally constructed in the sunshine insolation weather, and have the advantages of high bonding strength, flat and smooth surface, water resistance, moisture resistance and the like.

S1, leveling layer work is carried out on the outer side surface of the base layer wall;

s2, fixing the fixing rods above the base wall body to enable the fixing rods to be placed along the base wall body, and connecting the four fixing rods at the head to form a rectangle;

s3, fixedly placing a plurality of buffer devices in the middle of the rectangle surrounded by the fixed rods;

s4, fixedly arranging the heat preservation block at one side of the placing plate far away from the base wall, and enabling one side of the heat preservation block far away from the base wall to be flush with one side of the fixed rod far away from the base wall;

s5, coating a first anti-cracking glue on the surface of the heat preservation block, wherein the first anti-cracking glue is on the surfaces of the heat preservation block and the fixing rod;

s6, fixing the column grid cloth on the surface of the first anti-cracking glue by using plastic expansion screws;

s7, coating a second anti-cracking glue on the surface of the mesh cloth;

s8, coating a waterproof layer on one side of the second anti-cracking glue;

s9: and coating a coating layer on one side of the waterproof layer.

Through adopting above-mentioned technical scheme, by inside to outside accomplish insulation construction step by step, the step is orderly, make the heat insulating block keep away from basic unit's wall one side with the dead lever is kept away from one side parallel and level of basic unit's wall has guaranteed the planarization of wall, has also guaranteed the thermal insulation performance maximize, simultaneously, makes first spring, second spring and sliding block when meetting external force, has certain activity space, makes the heat insulating block can not receive the too much influence of external force.

In conclusion, the beneficial technical effects of the invention are as follows:

the structure formed by the first fixing plate, the fixing rod, the first fixing plate, the sliding block, the first spring, the second spring, the sliding groove, the rotating ball, the first groove and other parts is adopted, the shock resistance can be achieved, and the effect of reducing the influence of external force on the heat preservation block is achieved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the buffer structure in fig. 1.

Fig. 3 is a top view structural view of the first fixing plate in fig. 2.

Fig. 4 is a sectional view of the cushion structure of fig. 2.

Fig. 5 is a cross-sectional view of the thermal block of fig. 2.

In the figure, 1, a base layer wall body; 2. fixing the rod; 3. a buffer assembly; 31. a first fixing plate; 32. a slider; 33. a first spring; 34. a movable rod; 35. a second spring; 36. rotating the ball; 37. placing the plate; 38. a first groove; 4. a chute; 5. a heat preservation block; 6. first anti-cracking adhesive cement; 7. mesh cloth; 8. second anti-cracking mortar; 9. a waterproof layer; 10. a coating layer; 51. a bonding layer; 52. expanded polystyrene board.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

referring to fig. 1, the heat insulation structure system for the existing building masonry disclosed by the invention comprises a base wall 1, wherein a fixed rod 2 is fixedly connected to the base wall 1 through an expansion screw, the fixed rod 2 is arranged around the peripheral edge of the base layer wall body 1, one side of the base layer wall body 1 is connected with a buffer component 3 through an expansion bolt, one side of the buffer component 3 far away from the base layer wall body 1 is bonded with a heat preservation block, one side of the heat preservation block far away from the buffer component 3 is coated with a first anti-cracking mortar 6, and first crack control adhesive cement 6 is paintd on one side of dead lever 2 far away from basic unit's wall body 1, and the opposite side of first crack control glue has net cloth 7 through plastics expansion screw fixed connection, and the opposite side of net cloth 7 is paintd second crack control adhesive cement 8, and the opposite side of second crack control adhesive cement 8 is paintd waterproof layer 9, and the opposite side of waterproof layer 9 is paintd waterproof layer 9, and one side of waterproof layer 9 is paintd paint there is dope layer 10.

As shown in fig. 2 and 3, the buffer structure includes a first fixing plate 31, a sliding block 32, a first spring 33, a movable rod 34, a second spring 35 and a rotating ball 36, one side of the base wall 1 is fixedly connected with the first fixing plate 31 through an expansion screw, one side of the first fixing plate 31 away from the base wall 1 is provided with four sliding grooves 4, the first fixing plate 31 is connected with the sliding block 32 at the sliding grooves 4 in a sliding manner, one end of the sliding block 32 extends to the outer side of the first fixing plate 31, one end of the sliding block 32 outside the sliding groove 4 is hinged to the movable rod 34, and one end of the movable rod 34 away from the sliding block 32 is hinged to the rotating ball 36;

as shown in fig. 2 and 3, the first fixing plate 31 is welded with the first spring 3 inside the sliding chute 4, the other end of the first spring 3 is welded with the sliding block 32, the side of the first fixing plate 31 away from the base wall 1 is welded with the second spring 35, and the end of the second spring 35 away from the first fixing plate 31 is welded with the movable lever;

as shown in fig. 2 and 3, the four sliding chutes 4 on the first fixing plate 31 are sequentially arranged around the central axis of one side of the first fixing plate 31, the angle between each two adjacent sliding chutes 4 is ninety degrees, and the sides of the first fixing plate 31 are parallel to the short sides of the sliding chutes 4 one by one.

As shown in fig. 3 and 4, the thermal insulation block includes an adhesive layer and an expanded polystyrene board 52, the adhesive layer and the expanded polystyrene board 52 have the same shape and size, the buffer assembly 3 further includes a placing board 37 and a first groove 38, the placing board 37 is bonded with the thermal insulation block on the side away from the first fixing board 31, the placing block is provided with four first grooves 38 on the side close to the first fixing board 31, the vertical section of the first groove 38 is bowl-shaped, the opening cross section of the first groove 38 on the placing board 37 is circular, the opening diameter of the first groove 38 is 0.6 times the diameter of the rotating ball 36, and the placing board 37 is movably embedded with the rotating ball 36 in the first groove 38.

Referring to fig. 1, the method for constructing the thermal insulation structure system of the existing building masonry disclosed by the invention comprises a base wall, wherein fixing rods are fixed along the periphery of the base wall by expansion screws, and then a buffer device is fixed on one side of the base wall by the expansion screws, so that the buffer devices are sequentially arranged on one side of the base wall and are fully distributed on one side of the base wall.

Furthermore, the thermal insulation block is bonded on one side of the buffer structure, which is far away from the base wall, the side, which is far away from the base wall, of the thermal insulation block is flush with one side, which is far away from the base wall, of the fixed rod, then the first anti-cracking glue is coated on one side of the thermal insulation block and the fixed rod, after the first anti-cracking glue is completely dried, the grid cloth is covered on the first anti-cracking glue through a plastic expansion screw, then the second anti-cracking glue is coated on the grid cloth again, after the moisture on the surface of the second anti-cracking glue is evaporated, the anti-freezing layer is coated on one side of the second anti-freezing glue again, and after the surface of the anti-freezing glue is.

The implementation principle of the embodiment is as follows: when the building meets slight earthquake, because the heat preservation piece does not have with basic unit's wall body direct contact, so the heat preservation piece can not receive direct vibrations and influence, external force drives the buffer structure motion, first spring in the buffer structure, the second spring, the movable rod, sliding block component structure, this structure can weaken outside strength to the effort of placing the board, in addition because the rolling ball is at the inside free rotation of first recess, the influence of the external force of equidirectional not to placing the board has been reduced, when making the building receive slight vibrations, it still is in a relative quiescent state to place the board, guaranteed that the heat preservation material of placing the board outside can not damage, stop the emergence that the heat preservation material breaks away from the wall body obscission.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a building masonry's insulation construction, includes basic unit's wall body (1), and one side of basic unit's wall body (1) by outer to interior dope layer (10), waterproof layer (9), second crack control mortar (8), net cloth (7), first crack control mortar (6) and insulating block (5) of being equipped with in proper order, its characterized in that: a plurality of buffer structures (3) are arranged between the base wall body (1) and the heat preservation block (5), the base wall body (1) is fixedly connected with a fixing rod (2) through an expansion screw, the fixing rod (2) is placed around the peripheral edge of the base wall body (1), the buffer assembly (3) comprises a first fixing plate (31), a sliding block (32), a first spring (33), a movable rod (34), a second spring (35), a rotating ball (36) and a placing plate (37), four sliding grooves (4) are formed in one side of the first fixing plate (31), the first fixing plate (31) is in sliding connection with the sliding block (32) at the sliding grooves (4), the first spring (33) is fixedly connected with one end, close to the first fixing plate (31), of the first spring (33) is fixedly connected with the sliding grooves (4), the one end of sliding block (32) extends to the outside of first fixed plate (31), just the top of sliding block (32) with movable rod (34) rotate to be connected, movable rod (34) are being close to the one end department of first fixed plate (31) with second spring (35) fixed connection, just the other end of second spring (35) with first fixed plate (31) fixed connection, movable rod (34) are kept away from the one end of sliding block (32) with ball (36) swing joint rotates, ball (36) with place board (37) and rotate and be connected, place the one side of board (37) with heat insulating block (5) fixed connection.

2. The insulation structure for building masonry according to claim 1, wherein: one side of the first fixing plate (31) is tightly attached to the fixing rod (2), the cross section of the first fixing plate (31) is rectangular, the cross section of the placing plate (37) is also rectangular, the central axis of the first fixing plate (31) coincides with the central axis of the placing plate (37), and the orthographic projection of the placing plate (37) on the base wall body (1) coincides with the first fixing plate (31).

3. The insulation structure for building masonry according to claim 1, wherein: one side of the heat preservation block (5) far away from the first fixing plate (31) is coplanar with one side of the fixing rod (2) far away from the base layer wall body (1).

4. The insulation structure for building masonry according to claim 1, wherein: the cross section of the heat insulation block (5) is rectangular, the similarity ratio of the heat insulation block (5) to the placing plate (37) is 1:1, and the central axis of the heat insulation block (5) is collinear with the central axis of the placing plate (37).

5. The insulation structure for building masonry according to claim 1, wherein: the heat preservation block (5) comprises an adhesive layer (51) and an expanded polystyrene board (52), and the grid cloth (7) is made of alkali-resistant glass fiber grid cloth (7).

6. The insulation structure for building masonry according to claim 1, wherein: the buffer assembly (3) further comprises a first groove (38), the first groove (38) is arranged on one side, close to the first fixing plate (31), of the placing plate (37), the rotating ball (36) is movably embedded inside the first groove (38), the cross section of an opening of the first groove (38) is circular, and the diameter of the opening of the first groove (38) is smaller than that of the rotating ball (36).

7. The insulation structure for building masonry according to claim 1, wherein: the waterproof layer (9) is flexible waterproof particles, and the waterproof layer (9) covers one side, far away from the base layer wall body (1), of the fixing rod (2).

8. The method for constructing an insulation structure of building masonry according to claim 1, wherein:

s1, performing leveling layer work on the outer side surface of the base layer wall body (1);

s2, fixing the fixing rods (2) above the base layer wall body (1) to enable the fixing rods (2) to be placed along the base layer wall body (1), and connecting the four fixing rods (2) at the head to form a rectangle;

s3, fixedly placing a plurality of buffer devices in the rectangular middle position surrounded by the fixing rod (2);

s4, fixedly arranging the heat preservation block on one side of the placing plate (37) far away from the base wall body (1), and enabling one side of the heat preservation block far away from the base wall body (1) to be flush with one side of the fixing rod (2) far away from the base wall body (1);

s5, coating first anti-cracking glue on the surface of the heat preservation block, wherein the first anti-cracking glue is arranged on the surfaces of the heat preservation block and the fixing rod (2);

s6, fixing the column mesh cloth (7) on the surface of the first anti-cracking glue (6) by using plastic expansion screws;

s7, coating a second anti-cracking glue (8) on the surface of the mesh cloth (7);

s8, coating a waterproof layer (9) on one side of the second anti-cracking glue;

s9: and a coating layer (10) is coated on one side of the waterproof layer (9).