CN211007194U - Quickly assembled building wallboard structure and building formed by assembling same - Google Patents

Abstract

The utility model discloses a building wallboard structure capable of being rapidly assembled and a building formed by assembling the same, which comprises a base plate and a connecting piece which are parallel to each other and are connected end to end, wherein the base plate is arranged at an installation position in a way that the long edge of the base plate is vertical to the ground, connecting holes which penetrate through the whole base plate are uniformly arranged in the base plate along the direction of the short edge, and the connecting piece passes through any connecting hole of the base plate and is connected with the base plate on one side adjacent to the connecting hole to be tensioned and fixed; the connecting piece includes a plurality of double threaded screw, extension and fixation nut, thereby be equipped with between the double threaded screw and extend long a plurality of base plates of continuous member structure formation, exterior structure is all connected at the both ends of member structure, and the centre is taut fixed with the base plate through the multiunit fixation nut that is equipped with. The utility model discloses a connection technique solved and connected compactness and fracture problem between assembled house plate body and the plate body.

Description

Quickly assembled building wallboard structure and building formed by assembling same

Technical Field

The utility model belongs to the technical field of the building, concretely relates to rapid Assembly's building wallboard structure and assembly forming's building thereof.

Background

The fabricated building is a building assembled by prefabricated parts on a construction site, and is called as a fabricated building. The building block is divided into five types, namely a block building, a plate building, a box building, a framework plate building, a rising-rise building and the like according to the form and the construction method of the prefabricated part.

The plate building is formed by assembling prefabricated large-scale inner and outer wall plates, floor slabs, roof slabs and other plates, and is also called as a large plate building. It is the main type of fully assembled building in an industrial system building. The plate building can reduce the weight of the structure, improve the labor productivity and enlarge the use area and the shockproof capability of the building. The inner wall board of the plate building is mostly a solid board or a hollow board made of reinforced concrete; the external wall board is mostly a reinforced concrete composite board with a heat-insulating layer, and can also be made of light aggregate concrete, foam concrete or macroporous concrete and the like to form the wall board with an external decorative surface. Equipment within a building often employs centralized indoor plumbing fittings or box toilets, etc., to enhance the degree of assembly. The key problem of large-plate buildings is node design. The integrity of the connection of the components is ensured structurally (the connection method between the plates mainly comprises welding and post-cast concrete integral connection). The waterproof structure is to properly solve the problems of waterproof of the joints of the external wall panels, thermal treatment of building joints and corner parts and the like. The main disadvantage of the large-plate building is that the building shape and layout are greatly restricted; the internal separation of large-plate buildings with small compartments and transverse bearing is lack of flexibility (the internal separation of longitudinal wall type, inner column type and large-span floor type can be flexibly carried out).

And carry out the exclusive connection between two liang between the current panel, not only assembly efficiency is relatively poor, also causes the problem that the fracture appears between board simultaneously easily.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model provides a.

The utility model discloses the technical scheme who adopts does:

a fast-assembly building wallboard structure is used for being arranged in a fixed building to form an independent space through splicing and comprises base plates and connecting pieces, wherein the base plates are parallel to each other and connected end to end, the base plates are arranged at an installation position in a mode that long sides of the base plates are perpendicular to the ground, connecting holes penetrating through the whole base plate are uniformly formed in the base plates along the direction of short sides, and the connecting pieces penetrate through the connecting holes of any one base plate and are connected with the base plate on one side adjacent to the base plate to be tensioned and fixed;

the connecting piece includes a plurality of double threaded screw, extension and fixation nut, thereby be equipped with between the double threaded screw and extend long a plurality of base plates of continuous member structure formation, exterior structure is all connected at the both ends of member structure, and the centre is taut fixed with the base plate through the multiunit fixation nut that is equipped with.

The utility model relates to a be applied to splice plate structure in assembly type structure field, many buildings can prefabricate general base plate in the mill in advance in order to improve assembly efficiency now in the construction, then assemble in transporting the place.

The assembly type building is a building form formed by assembling some or all parts of a structural system, an outer protection system, a device and pipeline system and an inner installation system of the whole building by prefabricated parts, and achieves the advantages of high efficiency, standard, low cost and building decoration integration through standardized structural design, part production, field assembly and process information management.

The utility model also provides a wall structure adopted in the fabricated building, the so-called wall structure is formed by connecting a plurality of base plates with the same or similar structures end to end, and can be directly arranged on the reserved installation position in a fixed structure, thereby independently forming an inner wall structure; or separately on the ground for forming the partition wall structure. Most of the existing walls are formed by cast-in-place formworks or brick laying, the on-site construction process can be reduced by splicing and assembling prefabricated plates, and meanwhile, the production is carried out according to the flow industrialization standard, and the quality of the existing walls is easier to control compared with the cast-in-place and brick laying modes.

However, although the assembly construction efficiency can be improved and the cost can be reduced by adopting the prefabricated slab splicing assembly method, if the base plate and the base plate are connected by adopting the conventional bar planting or steel bar connection method, the installation efficiency is influenced. The utility model provides a connecting piece is the screw rod structure that directly adopts the run-through to connect, just the screw rod adopts shorter double-end screw as main connection structure in order to improve the adaptability to the extension piece through being equipped with carries out extension connection, thereby can run through a plurality of base plates.

The fixing nut is used for fixing and tensioning a single substrate, one end of a double-threaded screw is fixed on an external structure, and then a unit rod piece is formed by connecting an elongated piece at the other end of the double-threaded screw. Because a plurality of through connection holes are formed in a single substrate, a plurality of unit bars are fixed on the same external structure corresponding to the plurality of connection holes of the single substrate.

The number and the length of the unit rods needed by penetrating through a single substrate are set according to the actual width of the substrate, and only the part which just falls out after penetrating through the single substrate is a threaded double-head screw part, and at the moment, the substrate is attached to an external structure or the substrate connected with the other end. Then the fixing nuts are arranged on the threaded parts after penetrating through for fixing, and the substrate is tightly attached to an external structure or a substrate connected with the substrate after the plurality of fixing nuts are screwed down, so that the aim of fixing the single substrate is fulfilled. And then the wall surface is continuously lengthened through the lengthening piece, then the base plate or the base plates are inserted and then fixed through the fixing nuts, and finally the base plates and the unit rod pieces are fixed to form the wall surface whole body.

Furthermore, the single substrate is closely connected with the adjacent external structure or the substrate through a plurality of fixing nuts.

Because the whole wall surface is a structure formed by connecting a plurality of substrates end to end in parallel, but the fixing mode comprises a plurality of modes, according to the assembling process and the steps, a plurality of double-headed screws are uniformly fixed on an external structure in a row, then each double-headed screw is lengthened by using the lengthening piece, if the lengthening distance is less than the length of a single connecting hole, the double-headed screws and the lengthening pieces are continued to be lengthened until the base plate can be installed after the base plate can penetrate through the connecting hole of the single base plate.

Then each connecting rod formed by connecting the double-threaded screw and the lengthening piece is aligned with the corresponding connecting hole and then inserted into the single substrate, so that the insertion end face of the substrate is attached to an external structure, the part, which just penetrates through the opening of the connecting hole, of the connecting rod is a thread with a certain length, and the length of the thread is at least greater than that of the internal thread of the single fixing nut. The fixation is then completed by screwing the fixation nut onto the tie-rod and moving it towards the already mounted single substrate until the tightening of the fixation nut presses the substrate against the outer structure.

According to the mode, the connecting rods are lengthened in sequence, then the base plates are installed, so that a continuous wall surface is formed, after the last base plate is installed, the connecting rod portion which is remained and the double-headed screw which is preset on the external structure of the other side are connected through the lengthening piece, and therefore the whole blocking wall structure is completed.

Furthermore, the multiple substrates are connected end to form a single plate unit, and the plate unit is connected with the adjacent substrate, the plate unit or an external structure in a clinging manner through the multiple fixing nuts.

Different from the scheme, the mode is that the fixing nuts are adopted for fixing each substrate in sequence, so that a better fixing effect is achieved. But to the wall of different sizes or usage, can fix a plurality of base plates through a set of fixation nut, can reduce the use of material as far as possible under the prerequisite that guarantees to have better connection stability.

And the width of the base plate in a single plate unit is inconsistent with the width of the base plate in a common single fixing mode, the width of the base plate in a common plate unit is small, and a window or a door frame is required to be arranged on the plate unit to reserve occupation, so that the multifunctional utilization of the wall surface is realized.

The fixing can be flexibly carried out by adopting the mode, for example, three substrates are adopted as one plate unit to be fixed in sequence, or a plurality of plate units are adopted, and three substrates, four substrates, five substrates and the like are adopted as plate units to be connected in sequence; or adopt the mode of board unit and single base plate interval connection, the homoenergetic constitutes complete wall structure, but can set up according to the structural style of difference according to actual demand to improve the adaptability more.

Furthermore, the base plate is provided with a sinking groove at the opening at the same side of the connecting hole, and the fixing nut is completely sunk into the corresponding sinking groove of the base plate after being screwed down.

The heavy groove structure is the structure that is used for holding the fixation nut who sets up between base plate and base plate, because be connected for the laminating between base plate and the base plate, fixation nut can have certain clearance, the heavy groove size that the event was equipped with is greater than fixation nut's size, when fixation nut screws up, can sink into heavy inslot completely, then reuse viscose or cement mortar fill and seal to further increase connection stability.

Further, the extension piece is a long-strip tubular sleeve, and a through and homodromous continuous internal thread is arranged in the sleeve and is connected with the double-end screw through the internal thread.

Further, the extension piece is rectangular tubulose sleeve pipe, all be equipped with the internal thread of inside extension on the opening inner wall of sleeve pipe both sides, the internal thread's of both sides opposite direction of spiral just extends to the sleeve pipe middle part in opposite directions and connects.

Further, the extension piece is rectangular tubulose sleeve pipe, all be equipped with the internal thread of inside extension on the opening inner wall of sleeve pipe both sides, the internal thread helical direction of both sides is the same, and the sleeve pipe middle part is equipped with and is used for spaced baffle, and the internal thread of both sides inwards extends to baffle department.

Further, the extension piece includes rectangular pipy sleeve pipe and with sleeve pipe complex connecting pipe, all be equipped with the internal thread that is used for connecting double-end screw in the sheathed tube both sides opening, and connecting pipe one side is equipped with the opening to be equipped with the internal thread that is used for connecting double-end screw equally on the opening inner wall, and the outside protruding connector that has the external screw thread that forms of opposite side terminal surface, through the connector with sheathed tube internal thread connection lengthens.

An assembled building is formed from the above described fast-assembling building panel structure.

Further, by the cuboid structure of base plate concatenation formation, wherein the exterior structure is for pouring the wall body or the cylinder that forms, with structural connection two sets of by of the wall that the base plate concatenation formed of individual exterior.

The utility model has the advantages that:

the connection technology provided by the utility model solves the problems of connection tightness and cracking between the plate bodies of the prefabricated building, so that the building has good waterproof, fireproof, soundproof and heat-insulating performances while keeping the shock resistance and the shock resistance; through the plate body reserved with the transverse multi-channel through holes, the difficult connection between the assembled plate bodies is solved, and the difficult problem of poor connection performance is solved, so that the assembled plate bodies have good stability.

Drawings

Fig. 1 is an isometric view of embodiment 7 of the present invention;

FIG. 2 is a partially cut-away isometric view of the present invention with two substrates attached;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a perspective view of the present invention in FIG. 1, primarily for the purpose of illustrating the arrangement of the plurality of connecting holes and connecting members provided therein;

figure 5 is a perspective view of the present invention from figure 2;

fig. 6 is a schematic structural view of the substrate of embodiment 7 of the present invention with a part of the substrate removed;

fig. 7 is an enlarged partial view of B in fig. 6 according to the present invention;

fig. 8 is a schematic axial view of embodiment 7 of the present invention with the top substrate removed;

fig. 9 is an enlarged schematic view of a portion C of fig. 8 according to the present invention;

fig. 10 is a schematic view of a split structure using a sleeve and a connecting pipe in embodiment 6 of the present invention.

In the figure: 1-substrate, 2-connecting hole, 3-double-head screw, 4-fixing nut, 5-sink groove, 6-sleeve and 7-connecting pipe.

Detailed Description

The present invention will be further explained with reference to the drawings and the embodiments.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. 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 application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which is usually placed when the product of the application is used, the description is only for convenience and simplicity, and the indication or suggestion 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 application. Furthermore, the appearances of the terms "first," "second," and the like in the description herein are only used for distinguishing between similar elements and are not intended to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like when used in the description of the present application do not require that the components be absolutely horizontal or overhanging, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be interpreted broadly, e.g., as being 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 meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Example 1:

the embodiment is a splice plate structure applied to the field of fabricated building, and in order to improve the assembly efficiency in the construction of many buildings, a universal base plate 1 can be prefabricated in a factory in advance and then transported to a site for assembly. The assembly type building is a building form formed by assembling some or all parts of a structural system, an outer protection system, a device and pipeline system and an inner installation system of the whole building by prefabricated parts, and achieves the advantages of high efficiency, standard, low cost and building decoration integration through standardized structural design, part production, field assembly and process information management.

The embodiment also provides a wall structure adopted in an assembly type building, wherein the wall structure is formed by connecting a plurality of base plates 1 with the same or similar structures end to end and can be directly arranged on a reserved installation position in a fixed structure, so that an inner wall structure is independently formed; or separately on the ground for forming the partition wall structure. Most of the existing walls are formed by cast-in-place formworks or brick laying, the on-site construction process can be reduced by splicing and assembling prefabricated plates, and meanwhile, the production is carried out according to the flow industrialization standard, and the quality of the existing walls is easier to control compared with the cast-in-place and brick laying modes.

However, although the assembly construction efficiency can be improved and the cost can be reduced by adopting the prefabricated slab splicing assembly method, if the base plate 1 and the base plate 1 are connected by adopting the conventional bar planting or steel bar connection method, the installation efficiency is influenced.

The embodiment specifically discloses a quickly-assembled building wallboard structure, as shown in fig. 1-9, which is used for being arranged inside a fixed building to form a single space through splicing and comprises a base plate 1 and a connecting piece, wherein the base plate 1 and the connecting piece are parallel to each other and connected end to end, the base plate 1 is arranged at an installation position in a manner that the long edge of the base plate is perpendicular to the ground, connecting holes 2 penetrating through the whole base plate 1 are uniformly arranged in the base plate 1 along the short edge direction, and the connecting piece penetrates through the connecting hole 2 of any base plate 1 and is connected with the base plate 1 on one side adjacent to the base plate to be; the connecting piece includes a plurality of double threaded screw 3, extension piece and fixation nut 4, thereby it forms continuous member structure to be equipped with the extension piece between the double threaded screw 3 and runs through a plurality of base plates 1, exterior structure is all connected at the both ends of member structure, and the centre is taut fixed with base plate 1 through multiunit fixation nut 4 that is equipped with.

The connecting piece in this embodiment directly adopts the screw rod structure of through type to connect, just the screw rod adopts shorter double-end screw rod 3 as main connection structure in order to improve the adaptability to carry out extension connection through the extension piece that is equipped with, thereby can run through a plurality of base plates 1. The fixing nut 4 is a structure for fixing and tensioning the single substrate 1, and first, one end of the double-headed screw 3 is fixed to an external structure, and then, a unit bar is formed by connecting an elongated member to the other end of the double-headed screw 3. Since the single substrate 1 is provided with the plurality of through connection holes 2, a plurality of unit bars are first fixed on the same external structure corresponding to the plurality of connection holes 2 of the single substrate 1. The number and length of the unit rods needed to penetrate through a single substrate 1 are set according to the width of the actual substrate 1, and only the part which just falls out after penetrating through the single substrate 1 is the threaded double-thread screw 3 part, and at the moment, the substrate 1 is attached to an external structure or the substrate 1 connected with the other end.

Then, the fixing nuts 4 are arranged on the threaded parts after penetrating through for fixing, and the substrate 1 is tightly attached to an external structure or the substrate 1 connected with the substrate 1 after the plurality of fixing nuts 4 are screwed down, so that the aim of fixing the single substrate 1 is fulfilled. And then the wall surface is continuously lengthened through the lengthening piece, then the base plate or the base plates 1 are inserted and then fixed through the fixing nuts 4, and finally the base plates 1 and the unit rod pieces are fixed to form the wall surface whole body.

In the present embodiment, the single substrate 1 is closely connected to the adjacent external structure or substrate 1 through the plurality of fixing nuts 4. Because the whole wall surface is a structure formed by connecting a plurality of substrates 1 end to end in parallel, but the fixing mode comprises a plurality of modes, according to the assembling process and steps, a plurality of double-headed screws 3 are uniformly fixed on an external structure in a row, then each double-headed screw 3 is lengthened by using a lengthening piece, if the lengthening distance is less than the length of a single connecting hole 2, the double-headed screws 3 and the lengthening pieces are continuously lengthened until the substrate 1 can penetrate through the connecting holes 2 of the single substrate 1, and then the substrate 1 is installed.

Then each connecting rod formed by connecting the double-head screw rod 3 with the lengthening piece is aligned with the corresponding connecting hole 2 and then inserted into the single substrate 1, so that the insertion end face of the substrate 1 is attached to an external structure, the part of the connecting rod, which just penetrates through the opening of the connecting hole 2, is a thread with a certain length, and the length of the thread is at least greater than that of the internal thread of the single fixing nut 4.

The fixation is then completed by screwing the fixation nut 4 onto the tie-rod and moving towards the already mounted single base plate 1 until the fixation nut 4 is tightened to press the base plate 1 against the outer structure. The connecting rods are lengthened in sequence according to the mode, then the base plates 1 are installed, so that a continuous wall surface is formed, after the last base plate 1 is installed, the remaining connecting rod portions and the double-headed screws 3 which are preset on the external structure of the other side are connected through the lengthening pieces, and therefore the wall blocking structure is completed.

Example 2:

the embodiment specifically discloses a quickly-assembled building wallboard structure, which is used for being arranged in a fixed building to form an independent space through splicing and comprises base plates 1 and connecting pieces, wherein the base plates 1 are parallel to each other and connected end to end, the base plates 1 are arranged at an installation position in a mode that the long sides of the base plates are perpendicular to the ground, connecting holes 2 penetrating through the whole base plates 1 are uniformly arranged in the base plates 1 along the short side direction, and the connecting pieces penetrate through the connecting holes 2 of any base plate 1 and are connected with the base plate 1 on one side adjacent to the base plate 1 to be tensioned and fixed; the connecting piece includes a plurality of double threaded screw 3, extension piece and fixation nut 4, thereby it forms continuous member structure to be equipped with the extension piece between the double threaded screw 3 and runs through a plurality of base plates 1, exterior structure is all connected at the both ends of member structure, and the centre is taut fixed with base plate 1 through multiunit fixation nut 4 that is equipped with.

The connecting piece in this embodiment directly adopts the screw rod structure of through type to connect, just the screw rod adopts shorter double-end screw rod 3 as main connection structure in order to improve the adaptability to carry out extension connection through the extension piece that is equipped with, thereby can run through a plurality of base plates 1. The fixing nut 4 is a structure for fixing and tensioning the single substrate 1, and first, one end of the double-headed screw 3 is fixed to an external structure, and then, a unit bar is formed by connecting an elongated member to the other end of the double-headed screw 3. Further, a plurality of base plates 1 are connected end to form a single plate unit, and the plate unit is connected with adjacent base plates 1, plate units or external structures in a clinging mode through a plurality of fixing nuts 4.

Different from the embodiment 1, the above-mentioned method is to fix each substrate 1 by using the fixing nut 4 in sequence, so as to achieve a better fixing effect. But for the wall of different sizes or usage, can fix a plurality of base plates 1 through a set of fixation nut 4 of same, can reduce the use of material as far as possible under the prerequisite of guaranteeing to have better connection stability. And the width of the base plate 1 in a single plate unit is inconsistent with the width of the base plate 1 in a common single fixing mode, the width of the base plate 1 in a common plate unit is smaller, and a window or a door frame is required to be arranged on the plate unit to reserve occupation, so that the multifunctional utilization of the wall surface is realized.

The fixing can be flexibly carried out by adopting the mode, for example, three substrates 1 are adopted to be fixed in sequence as a plate unit, or a plurality of plate units are adopted, and three substrates 1, four substrates 1, five substrates 1 and the like are adopted to be connected in sequence as plate units; or adopt the mode of board unit and 1 interval connection of single base plate, the homoenergetic can constitute complete wall structure, but can set up according to the structural style of difference according to actual demand to improve the adaptability more.

Example 3:

in this embodiment, optimization and limitation are performed on the basis of the above embodiment 1, a sinking groove 5 is provided at the same-side opening of the connecting hole 2 on the substrate 1, and the fixing nut 4 is completely sunk into the corresponding sinking groove 5 of the substrate 1 after being tightened.

The structure of the sinking groove 5 is used for accommodating the structure of the fixing nut 4 arranged between the substrate 1 and the substrate 1, because the substrate 1 and the substrate 1 are jointed and connected, the fixing nut 4 has a certain gap, the size of the sinking groove 5 arranged is larger than that of the fixing nut 4, when the fixing nut 4 is screwed down, the sinking groove 5 can be sunk completely, and then the connection stability is further increased by pouring viscose glue or cement mortar.

Wherein, extension piece is rectangular pipy sleeve pipe 6, be equipped with in the sleeve pipe 6 and run through and syntropy continuous internal thread, through the internal thread with double threaded screw 3 is connected.

Example 4:

in this embodiment, optimization and limitation are performed on the basis of the above embodiment 1, a sinking groove 5 is provided at the same-side opening of the connecting hole 2 on the substrate 1, and the fixing nut 4 is completely sunk into the corresponding sinking groove 5 of the substrate 1 after being tightened.

The structure of the sinking groove 5 is used for accommodating the structure of the fixing nut 4 arranged between the substrate 1 and the substrate 1, because the substrate 1 and the substrate 1 are jointed and connected, the fixing nut 4 has a certain gap, the size of the sinking groove 5 arranged is larger than that of the fixing nut 4, when the fixing nut 4 is screwed down, the sinking groove 5 can be sunk completely, and then the connection stability is further increased by pouring viscose glue or cement mortar.

Wherein, extension piece is rectangular pipy sleeve pipe 6, all be equipped with the internal thread of inside extension on the opening inner wall of 6 both sides of sleeve pipe, the internal thread's of both sides spiral opposite direction just extends to 6 middle parts of sleeve pipe in opposite directions and connect.

Example 5:

in this embodiment, optimization and limitation are performed on the basis of the above embodiment 1, a sinking groove 5 is provided at the same-side opening of the connecting hole 2 on the substrate 1, and the fixing nut 4 is completely sunk into the corresponding sinking groove 5 of the substrate 1 after being tightened. The structure of the sinking groove 5 is used for accommodating the structure of the fixing nut 4 arranged between the substrate 1 and the substrate 1, because the substrate 1 and the substrate 1 are jointed and connected, the fixing nut 4 has a certain gap, the size of the sinking groove 5 arranged is larger than that of the fixing nut 4, when the fixing nut 4 is screwed down, the sinking groove 5 can be sunk completely, and then the connection stability is further increased by pouring viscose glue or cement mortar.

Wherein, extension piece is rectangular pipy sleeve pipe 6, all be equipped with the internal thread of inside extension on the opening inner wall of 6 both sides of sleeve pipe, the internal thread's of both sides spiral direction is the same, and 6 middle parts of sleeve pipe are equipped with and are used for spaced baffle, and the internal thread of both sides inwards extends to baffle department.

Example 6:

the embodiment is optimized and limited based on the above embodiment 2, as shown in fig. 10, wherein the elongated member includes an elongated tubular sleeve 6 and a connecting pipe 7 matched with the sleeve 6, the openings at both sides of the sleeve 6 are both provided with internal threads for connecting the double-headed screw 3, one side of the connecting pipe 7 is provided with an opening, the inner wall of the opening is also provided with internal threads for connecting the double-headed screw 3, and the other side is protruded outwards to form a connecting head with external threads, and the elongated member is connected with the internal threads of the sleeve 6 through the connecting head for elongation.

Example 7:

an assembled building is formed from the above described fast-assembling building panel structure.

The cuboid structure that forms by the concatenation of base plate 1, wherein the exterior structure is for pouring the wall body or the cylinder that forms, with structural connection two sets of by of individual exterior the wall that forms of the concatenation of base plate 1.

The wall surface comprises base plates 1 and connecting pieces which are parallel to each other and connected end to end, the base plates 1 are arranged at an installation position in a mode that long sides of the base plates are perpendicular to the ground, connecting holes 2 which penetrate through the whole base plates 1 are uniformly formed in the base plates 1 along the short side direction, and the connecting pieces penetrate through the connecting holes 2 of any one base plate 1 and are connected with the base plate 1 on one side adjacent to the base plate 1 to be tensioned and fixed; the connecting piece includes a plurality of double threaded screw 3, extension piece and fixation nut 4, thereby it forms continuous member structure to be equipped with the extension piece between the double threaded screw 3 and runs through a plurality of base plates 1, exterior structure is all connected at the both ends of member structure, and the centre is taut fixed with base plate 1 through multiunit fixation nut 4 that is equipped with.

The opening at the same side of the connecting hole 2 on the substrate 1 is provided with a sinking groove 5, and the fixing nut 4 is completely sunk into the corresponding sinking groove 5 of the substrate 1 after being screwed down.

The structure of the sinking groove 5 is used for accommodating the structure of the fixing nut 4 arranged between the substrate 1 and the substrate 1, because the substrate 1 and the substrate 1 are jointed and connected, the fixing nut 4 has a certain gap, the size of the sinking groove 5 arranged is larger than that of the fixing nut 4, when the fixing nut 4 is screwed down, the sinking groove 5 can be sunk completely, and then the connection stability is further increased by pouring viscose glue or cement mortar.

Wherein, extension piece is rectangular pipy sleeve pipe 6, be equipped with in the sleeve pipe 6 and run through and syntropy continuous internal thread, through the internal thread with double threaded screw 3 is connected.

The present invention is not limited to the above-mentioned alternative embodiments, and various other products can be obtained by anyone under the teaching of the present invention. The above detailed description should not be taken as limiting the scope of the invention, which is defined in the following claims, and which can be used to interpret the claims.

Claims (10)

1. The utility model provides a rapid Assembly's building wallboard structure for the setting forms solitary space through the concatenation inside fixed building, its characterized in that: the novel LED lamp comprises base plates (1) and connecting pieces, wherein the base plates (1) are connected end to end in parallel, the long sides of the base plates (1) are arranged at a mounting position in a mode that the long sides of the base plates are perpendicular to the ground, connecting holes (2) penetrating through the whole base plates (1) are uniformly formed in the base plates (1) along the short side direction, and the connecting pieces penetrate through the connecting holes of any one base plate (1) and are connected with the base plate (1) on one side adjacent to the base plate to be tensioned and fixed;

the connecting piece includes a plurality of double threaded screw (3), extension and fixation nut (4), thereby it forms continuous member structure to be equipped with the extension between double threaded screw (3) and runs through a plurality of base plates (1), exterior structure is all connected at the both ends of member structure, and the centre is taut fixed with base plate (1) through multiunit fixation nut (4) that are equipped with.

2. A quick-fit building panel structure as claimed in claim 1, wherein: the single substrate (1) is connected with an adjacent external structure or substrate (1) in a clinging mode through a plurality of fixing nuts (4).

3. A quick-fit building panel structure as claimed in claim 1, wherein: a plurality of base plates (1) end to end form a single plate unit, and the plate unit is connected with adjacent base plates, plate units or external structures in a clinging mode through a plurality of fixing nuts (4).

4. A quick-fit building panel structure as claimed in any one of claims 1 to 3, wherein: the fixing structure is characterized in that a sinking groove (5) is formed in the opening of the base plate (1) at the same side of the connecting hole (2), and the fixing nut (4) is completely sunk into the sinking groove (5) of the corresponding base plate (1) after being screwed down.

5. A quick-fit building panel structure as claimed in claim 4, wherein: the extension piece is long-strip tubular sleeve pipe (6), be equipped with in sleeve pipe (6) and run through and syntropy continuous internal thread, through the internal thread with double-end screw (3) are connected.

6. A quick-fit building panel structure as claimed in claim 4, wherein: the extension piece is rectangular pipy sleeve pipe (6), all be equipped with the internal thread of inside extension on sleeve pipe (6) both sides opening inner wall, the internal thread opposite of spiral direction of both sides just extends to sleeve pipe (6) middle part in opposite directions and connects.

7. A quick-fit building panel structure as claimed in claim 4, wherein: the extension is rectangular pipy sleeve pipe (6), all be equipped with the internal thread of inside extension on sleeve pipe (6) both sides opening inner wall, the internal thread helical direction of both sides is the same, and sleeve pipe (6) middle part is equipped with and is used for spaced baffle, and the internal thread of both sides inwards extends to baffle department.

8. A quick-fit building panel structure as claimed in claim 4, wherein: the extension piece includes rectangular pipy sleeve pipe (6) and with sleeve pipe (6) complex connecting pipe (7), all be equipped with the internal thread that is used for connecting double-end screw (3) in the both sides opening of sleeve pipe (6), and connecting pipe (7) one side is equipped with the opening to be equipped with the internal thread that is used for connecting double-end screw (3) equally on the opening inner wall, and the outside protruding connector that has the external screw thread that forms of opposite side terminal surface, through the connector with the internal thread connection of sleeve pipe (6) lengthens.

9. An assembled building, characterized in that: consisting of a quick-fit building panel structure as claimed in claim 5.

10. An assembled building as defined in claim 9 in which: the cuboid structure formed by splicing the substrates, wherein the external structure is a wall body or a column body formed by pouring, and the same external structure is connected with two groups of wall surfaces formed by splicing the substrates (1).

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