CN213390579U - Positioning connecting piece and novel steel wire mesh frame heat preservation system - Google Patents

Abstract

The utility model discloses a positioning connecting piece and a novel steel wire rack heat preservation system, wherein the positioning connecting piece comprises a socket sleeve, and the socket sleeve is provided with a first through hole; one end of the socket sleeve is provided with a first limiting clamping piece; the positioning cap is provided with a second through hole, and the socket sleeve is inserted in the second through hole; a second limiting clamping piece and a third limiting clamping piece are respectively arranged at two ends of the positioning cap; the steel core penetrates through the first through hole and the second through hole, and two ends of the steel core are detachably connected with fixing caps; the steel buckle is provided with clamping lugs at two sides and a third through hole, the steel buckle is sleeved on the steel core through the third through hole, and the clamping lugs are clamped on the second limiting clamping piece and/or the first limiting clamping piece; the novel steel wire mesh frame heat insulation system comprises a heat insulation plate and at least one steel wire mesh sheet, and the heat insulation plate and the steel wire mesh sheet are connected and positioned through a positioning connecting piece. The utility model discloses production and processing is simple, construction convenience, can improve the impression of outer wall concrete, reduce the rate of reprocessing.

Description

Positioning connecting piece and novel steel wire mesh frame heat preservation system

Technical Field

The utility model relates to a heat preservation building materials technical field, concretely relates to positioning connection spare and novel wire net rack heat preservation system.

Background

At present, external wall insulation products and insulation systems are various, but the advantages and the disadvantages are very obvious, and as for the traditional steel wire mesh frame composite insulation board cast-in-place concrete system, the production and manufacturing process is complex, the production and construction period is longer, the welding quality of steel wires is uneven, the wall body is not smooth and compact enough due to the imperfect supporting and positioning system in construction, the repair rate is high, and the standard requirement cannot be met; in addition, the service life of the existing building heat-insulating material is far shorter than that of a building structure, and the durability is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, a positioning connecting piece and a novel steel wire mesh frame heat preservation system are provided.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a positioning connecting piece, include:

the socket sleeve is provided with a first through hole; one end of the socket sleeve is provided with a first limiting clamping piece;

the positioning cap is provided with a second through hole, and the socket sleeve is inserted and fixed in the second through hole; a second limiting clamping piece and a third limiting clamping piece are respectively arranged at two ends of the positioning cap;

the steel core penetrates through the first through hole and the second through hole, and two ends of the steel core are detachably connected with fixing caps;

the steel buckle, steel buckle both sides are provided with the joint ear, the steel buckle has seted up the third through-hole, the steel buckle passes through the third through-hole cover is established on the steel core, the joint ear joint is in on the spacing fastener of second and/or the first spacing fastener.

Preferably, the outer wall of the socket sleeve is provided with a first clamping tooth, the inner wall of the second through hole is provided with a second clamping tooth, and the first clamping tooth is matched with the second clamping tooth.

Preferably, the fixing cap is in threaded connection with the steel core.

Preferably, the outer wall of the socket sleeve is further provided with a fourth limiting clamping piece.

Preferably, the socket sleeve, the positioning cap and the fixing cap are made of high-strength engineering plastics or resin-based composite materials, and the steel core is galvanized round steel.

Preferably, the steel buckle is integrally C-shaped.

The utility model also provides a novel steel wire net rack heat preservation system, including heated board, an at least slice steel wire net piece, connect the location through foretell location connecting piece between heated board, the steel wire net piece.

Preferably, the steel wire mesh sheet is provided with one sheet and arranged on one side of the heat insulation plate to form a single-sided steel wire mesh frame plate; the socket sleeve penetrates through the heat-insulation board and is connected with the positioning cap, and the first limiting clamping piece and the third limiting clamping piece are positioned on two side walls of the heat-insulation board respectively; the second limiting clamping piece is positioned on the side wall of the steel wire mesh, the steel core penetrates through the steel wire mesh, the second through hole and the first through hole and extends to the outside, the steel buckle is arranged on the other side of the steel wire mesh, the steel core is sleeved with the third through hole, and the steel wire mesh and the second limiting clamping piece are clamped and fixed through the clamping lug; the two ends of the steel core are connected with the positioning caps.

Preferably, the steel wire mesh sheets are provided with two pieces which are arranged on two sides of the heat preservation plate to form a double-sided steel wire mesh frame plate; the socket sleeve penetrates through the heat-insulation board and is connected with the positioning cap, and the fourth limiting clamping piece and the third limiting clamping piece are positioned on two side walls of the heat-insulation board respectively; the second limiting clamping piece and the first limiting clamping piece are respectively positioned on the side wall of the steel wire mesh; the steel core penetrates through the steel wire mesh, the second through hole and the first through hole to extend to the outside, the steel buckle is arranged on the other side of the steel wire mesh, the steel core is sleeved with the third through hole, and the two steel wire meshes are fixedly clamped with the second limiting clamping piece and the first limiting clamping piece through clamping lugs respectively; the two ends of the steel core are connected with the positioning caps.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the production and processing are simple, and the time consumption is short. The utility model discloses a steel wire net rack board, including positioning cap, socket joint sleeve pipe, steel core, locking cap, steel buckle, steel wire net rack board, steel.

2. Construction is convenient, the construction period is saved. Novel steel wire net rack plate is formed by mill's scale processing, transports job site direct mount and uses, and the installation need not to place the cushion alone, and positioning connection spare plays the effect of guaranteeing reinforcing bar protective layer and template support, and safety ring protects, can not produce the waste material at the scene and influence civilized construction, effectively shortens the time limit for a project, when reducing the cost of labor, has also reduced the waste of material.

3. The appearance of the outer wall concrete is improved, and the repair rate is reduced. Novel steel wire net frame compound incubation system adopts novel positioning connection spare, and its fine fixed has restricted the position of shear force wall concrete, steel wire net frame heated board and inoxidizing coating, lets entire system performance best heat preservation effect, and positioning connection spare plays the template supporting role, guarantees shear force wall cross section size, and the roughness hangs down the straightness, and the concrete compactness reaches standard and design requirement.

4. The insulating layer has good durability and high fire-resistant limit; the building heat preservation and the structure have the same service life, and the environment is protected; the safety and the high efficiency are realized; the novel steel wire mesh frame thermal insulation system is a three-dimensional space truss, and is used as a shear wall reinforcement and organically connects two layers of concrete layers to achieve the cooperative work effect, so that the section moment of inertia of the shear wall is increased compared with that of the common shear wall, the stability is enhanced, and compared with a filler wall of a masonry structure and a frame structure, the steel wire mesh frame outer wall thermal insulation system is a full cast-in-place structure, and cannot be damaged in a toppling or scattering mode when an earthquake occurs; the fine and compact grid structure increases the contact area with concrete, increases the bond stress and the cohesive force, also increases the integrity of the building and keeps away from the block structure. Due to the reasons, the earthquake-resistant performance is more prominent and safer.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of an embodiment of a socket sleeve.

Fig. 2 is a schematic structural diagram of a second embodiment of the socket sleeve.

Fig. 3 is a top view of the steel clip.

Fig. 4 is a front view of the steel clasp.

FIG. 5 is a schematic view of the steel core and the positioning cap.

Fig. 6 is a schematic diagram of a novel steel wire mesh frame plate structure.

Fig. 7 is a schematic view of a connection structure of the steel buckle and the steel mesh.

Description of reference numerals:

1, inserting a sleeve; 2, a first clamping tooth; 3, a first limit fastener; 4 a first via hole; 5, positioning a cap; 6 a second limit fastener; 7 a third limit fastener; 8 a second through hole; 9 a second clamping tooth; 10, a steel buckle; 11, clamping and connecting lugs; 12 a third via hole; 13 a steel core; 14 fixing the cap; 15 a fourth limit fastener; 16 an insulation board; 17 steel wire mesh sheets.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Example one

As shown in fig. 1 and 3-7, the present embodiment provides a positioning connector, including:

the socket and spigot joint comprises a socket and spigot joint sleeve 1, wherein the socket and spigot joint sleeve 1 is provided with a first through hole 4, and the first through hole 4 is formed in the center position along the length direction of the socket and spigot joint sleeve 1; one end of the socket sleeve 1 is provided with a first limit clamping piece 3.

The positioning cap 5 is provided with a second through hole 8, and the second through hole 8 is also formed along the central line of the positioning cap 5 in the length direction; when in use, the socket sleeve 1 is inserted and fixed in the second through hole 8, and the locking and inserting depth of the positioning cap 5 and the socket sleeve 1 is adjustable within a certain range; two ends of the positioning cap 5 are respectively provided with a second limiting clamping piece 6 and a third limiting clamping piece 7.

Steel core 13, steel core 13 run through first through-hole 4 and second through-hole 8, and the both ends of steel core 13 can be dismantled and be connected with locking cap 14.

The steel buckle 10 is provided with clamping lugs 11 at two sides of the steel buckle 10, and the whole steel buckle 10 is C-shaped; the steel buckle 10 is provided with a third through hole 12, the steel buckle 10 is sleeved on the steel core 13 through the third through hole 12, and the clamping lug 11 is clamped on the second limiting clamping piece 6.

Socket joint sleeve pipe 1 is pegged graft and is fixed in second through-hole 8, and the grafting mode can be modes such as joint, spiro union, and preferred joint mode in this embodiment specifically does, is equipped with first calorie of tooth 2 on the socket joint sleeve pipe 1 outer wall, is provided with second card tooth 9 on the 8 inner walls of second through-hole, and first calorie of tooth 2 blocks tooth 9 looks adaptation with the second, and when using, the locking is realized to first calorie of tooth 2 and the mutual chucking of second card tooth 9.

For the convenience of operation, the fixing cap 14 is screwed with the steel core 13.

The socket sleeve 1 and the positioning cap 5 are made of high-strength engineering plastics or resin-based composite materials, the steel core 13 is galvanized round steel, the diameter of the galvanized round steel is 8mm, the two ends of the galvanized round steel are sheathed with threads, and the length of the galvanized round steel is determined according to specific engineering.

The fixing cap 14 is made of high-strength engineering plastics or resin-based composite materials and is responsible for fixing the galvanized round steel, and the outer side of the fixing cap 14 is attached to the inner side of the template, so that the effect of isolating a heat bridge is achieved.

This embodiment has still provided a novel steel wire net rack heat preservation system, including heated board 16, an at least piece steel wire net piece 17, connect the location through foretell location connecting piece between heated board 16, the steel wire net piece 17. Wherein, the steel wire mesh sheet 17 is provided with one sheet and arranged on one side of the heat preservation plate 16 to form a single-sided steel wire mesh frame plate; the socket sleeve 1 penetrates through the heat insulation board 16 and is connected with the positioning cap 5, the positioning cap 5 is used for positioning the distance between the steel wire mesh 17 and the heat insulation board 16, and specifically, the first limiting clamping piece 3 and the third limiting clamping piece 7 are respectively positioned on two side walls of the heat insulation board 16; the second limiting clamping piece 6 and the first limiting clamping piece 3 are respectively positioned on the side wall of the steel wire mesh 17, the steel core 13 penetrates through the steel wire mesh 17, the second through hole 8 and the first through hole 4 to extend to the outside, the steel clamping piece 10 is arranged on the other side of the steel wire mesh 17, is sleeved on the steel core 13 through the third through hole 12, and is fixedly clamped with the second limiting clamping piece 6 through the clamping lug 11; and two ends of the steel core 13 are connected with positioning caps 5.

The manufacturing method of the single-sided steel wire mesh frame plate comprises the following steps:

A. the socket sleeve 1 penetrates through the heat insulation board 16, so that the first limiting clamping piece 3 is tightly abutted against the right surface of the heat insulation board 16;

B. the positioning cap 5 is fixedly connected with the socket sleeve 1, so that the third limiting clamping piece 7 is tightly propped against the left surface of the heat-insulating plate 16, and meanwhile, the second limiting clamping piece 6 is tightly propped against the side surface (the surface close to the heat-insulating plate 16) of the steel wire mesh 17;

C. the steel core 13 penetrates through the first through hole 4, the second through hole 8 and the steel wire mesh frame, and two ends of the steel core 13 extend to the outside;

D. sleeving a steel buckle 10 on a steel core 13, clamping lugs 11 on two sides of the steel buckle are clamped on vertical wires of a steel wire mesh frame and clamping second limiting clamping pieces 6, and fixing the steel wire mesh frame and a positioning cap 5 is completed;

E. and finally, screwing the positioning caps 5 at two ends of the steel core 13 to finish the manufacture.

Example two

With reference to fig. 2 to 6, the positioning connection member of the present embodiment has the same other structure as the first embodiment, and the difference is that the positioning connection member further has another structure, specifically, a fourth limiting clamping member 15 is further disposed on the outer wall of the socket sleeve 1, and the fourth limiting clamping member 15 is disposed on one side of the first limiting clamping member 3, and is used for controlling the distance between the steel wire mesh 17 and the heat insulation board 16. The clamping lug 11 of the steel buckle 10 is clamped on the second limiting clamping piece 6 and the first limiting clamping piece 3.

This embodiment has still provided a novel wire net frame heat preservation system, including heated board 16, wire mesh 17, connect the location through the location connecting piece that this embodiment provided between heated board 16, the wire mesh 17.

Wherein, the steel wire mesh 17 is provided with two pieces which are arranged at two sides of the heat preservation plate 16 to form a double-sided steel wire mesh frame plate; the socket sleeve 1 penetrates through the heat insulation plate 16 to be connected with the positioning cap 5, and the fourth limiting clamping piece 15 and the third limiting clamping piece 7 are respectively positioned on two side walls of the heat insulation plate 16; the second limiting clamping piece 6 and the first limiting clamping piece 3 are positioned on the side wall of the steel wire mesh 17; the steel core 13 passes through the steel wire mesh 17, the second through hole 8 and the first through hole 4 to extend to the outside, the steel fastener 10 is arranged on the other side of the steel wire mesh 17, the steel core 13 is sleeved through the third through hole 12, and the two steel wire mesh 17 are respectively fixedly clamped with the second limiting fastener 6 and the first limiting fastener 3 through the clamping lugs 11; and two ends of the steel core 13 are connected with positioning caps 5.

The manufacturing method of the double-sided steel wire mesh frame plate comprises the following steps:

A. penetrating the socket sleeve 1 through the heat insulation board 16 to enable the fourth limiting clamping piece 15 to tightly abut against the right surface of the heat insulation board 16;

B. the positioning cap 5 is fixedly connected with the socket sleeve 1, so that the third limiting clamping piece 7 is tightly propped against the left surface of the heat-insulating plate 16, and meanwhile, the second limiting clamping piece 6 and the first limiting clamping piece are respectively tightly propped against the side surface (the surface close to the heat-insulating plate 16) of the steel wire mesh 17;

C. penetrating the steel core 13 through the steel wire mesh frame, the first through hole 4 and the second through hole 8, wherein two ends of the steel core 13 extend to the outside;

D. sleeving two steel buckles 10 on a steel core 13, clamping lugs 11 on two sides of each steel buckle are clamped on vertical wires of a steel wire mesh frame and respectively clamp a second limiting clamping piece 6 and a first limiting clamping piece 3, and fixing of the steel wire mesh frame, a positioning cap 5 and a socket sleeve 1 is completed;

E. and finally, screwing the positioning caps 5 at two ends of the steel core 13 to finish the manufacture.

Through two above embodiments, can see out the beneficial effects of the utility model:

1. the production and processing are simple, and the time consumption is short. The lock nut 5, socket joint sleeve pipe 1, the steel core 13, the locking nut 14, the steel buckle is whole to be formed according to specific size processing by professional producer, can deposit in a large number, can transport the job site after connecting steel wire mesh 17 and heated board 16 through lock nut 5 and/or socket joint sleeve pipe 1 and steel buckle in the mill, compare traditional steel wire net rack board, novel steel wire net rack board processing convenient and fast, time saving and labor saving, greatly reduced the cost of labor, the system is reliable stable, the quality is effectively guaranteed.

2. Construction is convenient, the construction period is saved. Novel steel wire net rack plate is formed by mill's scale processing, transports job site direct mount and uses, and the installation need not to place the cushion alone, and positioning connection spare plays the effect of guaranteeing reinforcing bar protective layer and template support, and safety ring protects, can not produce the waste material at the scene and influence civilized construction, effectively shortens the time limit for a project, when reducing the cost of labor, has also reduced the waste of material.

3. The appearance of the outer wall concrete is improved, and the repair rate is reduced. Novel steel wire net frame compound incubation system adopts novel positioning connection spare, and its fine fixed has restricted the position of shear force wall concrete, steel wire net frame heated board and inoxidizing coating, lets entire system performance best heat preservation effect, and positioning connection spare plays the template supporting role, guarantees shear force wall cross section size, and the roughness hangs down the straightness, and the concrete compactness reaches standard and design requirement.

4. The insulating layer has good durability and high fire-resistant limit; the building heat preservation and the structure have the same service life, and the environment is protected; the safety and the high efficiency are realized; the novel steel wire mesh frame thermal insulation system is a three-dimensional space truss, and is used as a shear wall reinforcement and organically connects two layers of concrete layers to achieve the cooperative work effect, so that the section moment of inertia of the shear wall is increased compared with that of the common shear wall, the stability is enhanced, and compared with a filler wall of a masonry structure and a frame structure, the steel wire mesh frame outer wall thermal insulation system is a full cast-in-place structure, and cannot be damaged in a toppling or scattering mode when an earthquake occurs; the fine and compact grid structure increases the contact area with concrete, increases the bond stress and the cohesive force, also increases the integrity of the building and keeps away from the block structure. Due to the reasons, the earthquake-resistant performance is more prominent and safer.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (8)

1. A locating coupling, comprising:

the socket sleeve is provided with a first through hole; one end of the socket sleeve is provided with a first limiting clamping piece; the outer wall of the socket sleeve is also provided with a fourth limiting clamping piece;

the positioning cap is provided with a second through hole, and the socket sleeve is inserted and fixed in the second through hole; a second limiting clamping piece and a third limiting clamping piece are respectively arranged at two ends of the positioning cap;

the steel core penetrates through the first through hole and the second through hole, and two ends of the steel core are detachably connected with fixing caps;

the steel buckle, steel buckle both sides are provided with the joint ear, the steel buckle has seted up the third through-hole, the steel buckle passes through the third through-hole cover is established on the steel core, the joint ear joint is in on the spacing fastener of second and/or the first spacing fastener.

2. The positioning and connecting piece as recited in claim 1, wherein a first engaging tooth is provided on an outer wall of the socket sleeve, a second engaging tooth is provided on an inner wall of the second through hole, and the first engaging tooth is adapted to the second engaging tooth.

3. A positioning connection member according to claim 1, wherein said fixing cap is threaded with said steel core.

4. The positioning and connecting piece according to claim 1, wherein the socket sleeve, the positioning cap and the fixing cap are made of high-strength engineering plastics or resin-based composite materials, and the steel core is galvanized round steel.

5. The positioning and connecting piece as recited in claim 1, wherein the steel snap is integrally "C" shaped.

6. A novel steel wire mesh frame heat insulation system comprises a heat insulation plate and at least one steel wire mesh sheet, and is characterized in that the heat insulation plate and the steel wire mesh sheet are connected and positioned through the positioning connecting piece of any one of claims 1-5.

7. A novel steel wire mesh frame heat preservation system as claimed in claim 6, wherein the steel wire mesh frame is provided with a piece of steel wire mesh frame, and the piece of steel wire mesh frame is arranged on one side of the heat preservation plate to form a single-sided steel wire mesh frame plate; the socket sleeve penetrates through the heat-insulation board and is connected with the positioning cap, and the first limiting clamping piece and the third limiting clamping piece are positioned on two side walls of the heat-insulation board respectively; the second limiting clamping piece is positioned on the side wall of the steel wire mesh, the steel core penetrates through the steel wire mesh, the second through hole and the first through hole and extends to the outside, the steel buckle is arranged on the other side of the steel wire mesh, the steel core is sleeved with the third through hole, and the steel wire mesh and the second limiting clamping piece are clamped and fixed through the clamping lug; the two ends of the steel core are connected with the positioning caps.

8. A novel steel wire mesh frame heat preservation system as claimed in claim 6, wherein the steel wire mesh frame is provided with two pieces which are arranged on two sides of the heat preservation plate to form a double-sided steel wire mesh frame plate; the socket sleeve penetrates through the heat-insulation board and is connected with the positioning cap, and the fourth limiting clamping piece and the third limiting clamping piece are positioned on two side walls of the heat-insulation board respectively; the second limiting clamping piece and the first limiting clamping piece are respectively positioned on the side wall of the steel wire mesh; the steel core penetrates through the steel wire mesh, the second through hole and the first through hole to extend to the outside, the steel buckle is arranged on the other side of the steel wire mesh, the steel core is sleeved with the third through hole, and the two steel wire meshes are fixedly clamped with the second limiting clamping piece and the first limiting clamping piece through clamping lugs respectively; the two ends of the steel core are connected with the positioning caps.

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