CN210439543U - Four-cavity type masonry module - Google Patents

Abstract

A four-cavity masonry module. The existing masonry module is small in hole area and deficient in self strength, can only be matched with reinforced concrete to realize masonry of a single-storey house or a double-storey building, is difficult to achieve design requirements of multiple storeys and high storeys, has limitation in self application, and can directly influence the compressive strength of a building block by increasing the section area of a hole through increasing the height of the hole, so that the self strength is difficult to stably ensure. The inner part of the support frame in the utility model is separated by the main reinforcing rib and the two auxiliary reinforcing ribs to form four holes which are arranged in parallel, the front side surface of the support frame is provided with a first filling groove along the length direction, the groove bottom of the first filling groove is a cambered surface groove bottom, and the groove bottom of the first filling groove is communicated with each hole; the rear side face of the supporting frame is provided with a second filling groove along the length direction, the groove bottom of the second filling groove is a plane groove bottom, the second filling groove is communicated with each hole, and the outer walls of the two ends of the supporting frame are respectively provided with a first inserting port and a second inserting port. The utility model is used for in the construction.

Description

Four-cavity type masonry module

Technical Field

The utility model belongs to the building field, concretely relates to four-chamber formula brickwork module.

Background

The building blocks are block building products which are larger than the common brick bodies. A building constructed by adopting the building blocks is called a block building, the consumption of reinforced concrete is limited due to the self structure of the building blocks in the use process of the building blocks at present, the main characteristic is that the arrangement and the concrete pouring amount of reinforcing steel bars are limited due to the cross-sectional area of holes of the building blocks, the number of the reinforcing steel bars arranged in the holes is limited, the arrangement positions of the reinforcing steel bars are not flexible enough, the concrete pouring amount and the pouring position are also limited, the integral stability of a bearing wall body formed by the building blocks, the reinforcing steel bars and the concrete is difficult to improve, the building block can be only applied to flat houses or two-storey buildings more, the building block is difficult to be widely applied to multi-storey and high-storey buildings, and. The cross-sectional area of increase hole is realized through the height of heightening the hole to current most building blocks, but the compressive strength of building block itself can directly be influenced to the hole of too big area, leads to self intensity to be difficult to the stable assurance.

The invention content is as follows:

to the problem, the utility model discloses a four-chamber formula brickwork module.

The utility model discloses the technical scheme who adopts does:

a four-cavity masonry module comprises a supporting frame, a main reinforcing rib and two auxiliary reinforcing ribs, wherein the main reinforcing rib and the two auxiliary reinforcing ribs are short strip-shaped ribs, the supporting frame is a rectangular frame body, the main reinforcing rib and the two auxiliary reinforcing ribs are arranged in the supporting frame in parallel, the main reinforcing rib is vertically arranged in the middle of the supporting frame, the two auxiliary reinforcing ribs are respectively arranged on two sides of the main reinforcing rib, the inside of the supporting frame is divided into four holes arranged in parallel through the main reinforcing rib and the two auxiliary reinforcing ribs, a first filling groove is processed on the front side surface of the supporting frame along the length direction of the supporting frame, the groove bottom of the first filling groove is an arc groove bottom, and the groove bottom of the first filling groove is communicated with each hole; the rear side face of the supporting frame is provided with a second filling groove along the length direction, the groove bottom of the second filling groove is a plane groove bottom, the second filling groove is communicated with each hole, and the outer walls of the two ends of the supporting frame are respectively provided with a first inserting port and a second inserting port.

As a preferable scheme: the cross-sectional area of the hole is 21450mm²。

As a preferable scheme: the groove bottom of the first filling groove is provided with an arc-shaped groove, two single grooves and two convex blocks, the arc-shaped groove is arranged along the length direction of the first filling groove, the two single grooves are arranged on two sides of the arc-shaped groove in parallel, each single groove is correspondingly provided with one convex block, and each single groove is fixedly connected with the inner side wall of the first filling groove through the corresponding convex block.

As a preferable scheme: the single groove is a flat groove.

As a preferable scheme: a convex edge is arranged between the arc-shaped groove and the single groove.

As a preferable scheme: the supporting frame comprises an upper plate body, a lower plate body and two end plates, wherein the upper plate body and the lower plate body are sequentially horizontally arranged from top to bottom, the two end plates are vertically arranged between the upper plate body and the lower plate body in parallel, the upper plate body, the lower plate body and the two end plates are fixedly connected into a whole, one of the two end plates is provided with a first plug socket and the other end plate is provided with a second plug socket on the outer wall of the end plate.

As a preferable scheme: the outer wall of the upper plate body is provided with a plurality of first groove bodies in parallel along the length direction, the length direction of each first groove body is the same as the width direction of the upper plate body, the inner wall of the upper plate body is provided with a plurality of second groove bodies in parallel along the length direction, and the length direction of each second groove body is the same as the width direction of the upper plate body; a first slot assembly is processed on the upper side wall of the first filling slot and comprises a plurality of first upper grooves and a plurality of first lower grooves, the plurality of first upper grooves are arranged on the top surface of the front side part of the upper plate body along the length direction of the upper plate body, each first upper groove is correspondingly provided with a first slot body, each first upper groove is communicated with one end of the corresponding first slot body, and the slot depth of each first slot body is smaller than that of the corresponding first upper groove; the first lower grooves are arranged on the bottom surface of the front side portion of the upper plate body along the length direction of the upper plate body, each second groove body is correspondingly provided with one first lower groove, each second groove body is communicated with the corresponding first lower groove, and the groove depth of each second groove body is smaller than that of the corresponding first lower groove.

As a preferable scheme: the inner wall of the lower plate body is provided with a plurality of third groove bodies in parallel along the length direction, the length direction of each third groove body is the same as the width direction of the upper plate body, the outer wall of the lower plate body is provided with a plurality of fourth groove bodies in parallel along the length direction, and the length direction of each fourth groove body is the same as the width direction of the upper plate body; a second slot assembly is processed on the lower side wall of the first filling slot, the second slot assembly comprises a plurality of second upper grooves and a plurality of second lower grooves, the plurality of second upper grooves are arranged on the top surface of the front side part of the lower plate body along the length direction of the lower plate body, each third slot body is correspondingly provided with one second upper groove, each third slot body is communicated with the corresponding second upper groove, and the depth of each third slot body is smaller than that of the corresponding second upper groove; the plurality of second lower grooves are arranged on the bottom surface of the front side part of the lower plate body along the length direction of the lower plate body, each second lower groove is correspondingly provided with a fourth groove body, each second lower groove is communicated with the corresponding fourth groove body, and the groove depth of each fourth groove body is smaller than that of the corresponding second lower groove.

As a preferable scheme: the upper side wall of the second filling groove is provided with a third slot assembly, the lower side wall of the second filling groove is provided with a fourth slot assembly, the structure of the third slot assembly is the same as that of the first slot assembly, and the structure of the fourth slot assembly is the same as that of the second slot assembly.

The utility model has the advantages that:

the utility model relates to a block structure of flat shape, moreover, the steam generator is simple in structure reasonable, the inside of carriage is divided through the main stiffening rib of short bar shape and two vice stiffening ribs and is formed four holes that set up side by side, every hole is a cavity, thereby form the module of four-chamber structure, break the structural style of five conventional chamber modules, the reasonable space of putting that provides for the reinforcing bar, for the sufficient pouring space of concrete provision, make house and building concrete structure, the reinforcing bar is put quantity and position more reasonable, it is more stable, accord with the requirement of architectural design parameter, be favorable to cooperating structural design and be applied to in multilayer or high-rise building.

Two, the utility model discloses a module with four holes that set up side by side not only can be for the reasonable space of putting that reinforcing bar and concrete provided and pour the space, can also ensure overall structure's compressive strength on increase hole cross sectional area's basis, and its compressive strength's advantage is higher than from the brickwork module that highly promotes hole cross sectional area.

Processing has first packing groove on the preceding terminal surface of carriage, and processing has the second to fill the groove on the rear end face of carriage, and first packing groove and second are filled the groove and all are used for filling the concrete, provide more spaces for concrete placement, and first packing groove, second are filled four holes that set up side by side of groove cooperation and are formed and violently indulge crisscross concrete arrangement structure, strengthen the utility model discloses a bearing performance is favorable to promoting the performance of whole module.

Four, the utility model discloses a sample detection, each item index homoenergetic can reach national architectural design standard.

Five, carriage, main stiffening rib and two vice stiffening rib fixed connection system are as an organic whole, can make the utility model discloses a four-chamber formula brickwork module is firmly stable, and the number of main stiffening rib and two vice stiffening ribs can effectively avoid four-chamber formula brickwork module to break and warp with setting up the position, makes the utility model discloses be particularly useful for in the multilayer or high-rise construction.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and accompanying drawings.

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

fig. 2 is a schematic view of the structure of the present invention;

FIG. 3 is a left side view of the structure of FIG. 2;

FIG. 4 is a rear view of the structure of FIG. 2;

FIG. 5 is a schematic top view of the structure of FIG. 2;

the labels in the figure are as follows:

1-a support frame; 1-1-upper plate body; 1-2-lower plate body; 1-3-end plate; 2-1-primary stiffener; 2-2-secondary stiffening ribs; 3-holes; 4-first filled trench; 5-a second filling groove; 6-a first trough body; 8-a first upper groove; 9-a first lower groove; 10-a third trough body; 12-a second upper groove; 13-a second lower groove; 14-an arc-shaped groove; 15-single groove; 16-a bump; 17-a rib; 18-a first interface; 19-a second interface.

The specific implementation mode is as follows:

in order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described below with reference to specific embodiments shown in the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

The first embodiment is as follows: the embodiment is described by combining with figures 1, 2, 3, 4 and 5, and comprises a support frame 1, a main reinforcing rib 2-1 and two auxiliary reinforcing ribs 2-2, wherein the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 are both short strip-shaped ribs, the support frame 1 is a rectangular frame body, the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 are arranged in the support frame 1 in parallel, the main reinforcing rib 2-1 is vertically arranged in the middle of the support frame 1, the two auxiliary reinforcing ribs 2-2 are respectively arranged on two sides of the main reinforcing rib 2-1, the inside of the support frame 1 is partitioned by the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 to form four holes 3 arranged in parallel, a first filling groove 4 is processed on the front side surface of the support frame 1 along the length direction of the support frame, the groove bottom of the first filling groove 4 is an arc groove bottom, the bottom of the first filling groove 4 is communicated with each hole 3; the rear side face of the support frame 1 is processed with a second filling groove 5 along the length direction, the groove bottom of the second filling groove 5 is a plane groove bottom, the second filling groove 5 is communicated with each hole 3, and the outer walls of the two ends of the support frame 1 are respectively processed with a first inserting port 18 and a second inserting port 19.

The utility model discloses the structure is a brickwork module of multislot structure, and wherein first filling groove 4 and second filling groove 5 increase the pouring volume of concrete in the carriage 1 for the cell body of the filling usefulness of concrete, in addition, are favorable to reinforcing bar and concrete rational arrangement and quantity, are favorable to reinforced concrete's structure to form, reach or are superior to the national architectural design requirement.

The utility model discloses a sample detection many times can know, the utility model discloses a density is 25 ~ 35kg/m³The compression strength is 0.25-0.35 Mpa, the heat conductivity coefficient is less than or equal to 0.033W/(m.k), the compressive strength perpendicular to the plane direction is 0.3-0.5 Mpa, and the breaking bending load is 45-70N.

The utility model discloses the work progress of cooperation reinforcing bar and concrete is the same with prior art.

The necessary operation processes of other non-mentioned cooperation reinforcing bars and concrete in the utility model are the same as the prior art.

The second embodiment is as follows: the present embodiment is further limited by the first specific embodiment, in the present embodiment, on the premise of ensuring the compressive strength of the masonry module itself, the cross-sectional area of the hole 3 is expanded from the transverse direction, and it can be known through many experiments that the shape of the hole 3 is rectangular, the cross-sectional area of the hole 3 is rectangular, the optimal value of the length of the hole 3 is 165mm, the optimal value of the width of the hole 3 is 130mm, and thus the optimal cross-sectional area of the hole 3 is 21450mm²。

Further, the shape of the support frame 1 is rectangular, the optimal size of the length of the support frame 1 is 1000mm, the optimal size of the width of the support frame 1 is 250mm, the optimal size of the height of the support frame 1 is 318mm, that is, the optimal size of the length of the upper plate body 1-1 or the lower plate body 1-2 is 1000mm, the optimal size of the width of the upper plate body 1-1 or the lower plate body 1-2 is 250mm, and the optimal size of the height of the end plate 1-3 is 318 mm.

Furthermore, the cross-sectional area of the hole 3 is 165mm x 130mm, compared with the existing module, the hole 3 is a large cavity structure, the large cavity is enough to facilitate reasonable arrangement of the reinforcing steel bars, the binding size of the reinforcing steel bars meets the building specification requirement, the large cavity is beneficial to filling of concrete, and the design of the cavity structure is beneficial to meeting the requirement of building design parameters after the reinforcing steel bars are combined and formed.

The third concrete implementation mode: the embodiment is further limited by the first or second embodiment, the two types of the reinforcing ribs in the utility model are the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 respectively according to different arrangement positions, the structure and the size of the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 can be the same or different,

when the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 have the same structure and size, the size of the main reinforcing rib 2-1 is as follows: the length multiplied by the width multiplied by the height multiplied by 85mm multiplied by 135mm multiplied by 100mm, which is set as the optimal dimension finally determined by a plurality of sample tests, can ensure that the front side and the back side of the main reinforcing rib 2-1 are closely matched with concrete pouring, so that the main reinforcing rib has enough contact area with the concrete, the main reinforcing rib 2-1 is not easy to break and deform during the construction process, and simultaneously, the size of the main reinforcing rib 2-1 can also ensure that the main reinforcing rib is a structure with a coarse reinforcing supporting and connecting effect. The main reinforcing rib 2-1 can effectively increase the stability of the whole structure, and the structural design has more obvious advantages in the construction of more than three storied buildings and high-rise buildings. The same is true for the purpose of the arrangement of the secondary reinforcing ribs 2-2.

In another mode, when the size of the main reinforcing rib 2-1 is different from that of the two auxiliary reinforcing ribs 2-2, the length, width and height of the main reinforcing rib 2-1 are 5-10 mm larger than that of the auxiliary reinforcing rib 2-2 because the main reinforcing rib 2-1 is positioned at the center of the support frame 1, so that the compressive strength and stability of the whole structure are enhanced.

Furthermore, when the area of the four holes 3 formed by the support frame 1 through the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 is the same, the optimal sectional area is 21450mm²。

In another mode, when the areas of four holes 3 formed by the support frame 1 through the separation of the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 are different, and the size and the structure of the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 are consistent, the cross-sectional area of the hole 3 formed between the auxiliary reinforcing rib 2-2 and the inner wall of the end part of the support frame 1 is smaller than the cross-sectional area of the hole 3 formed between the main reinforcing rib 2-1 and the auxiliary reinforcing rib 2-2.

In another mode, when the areas of four holes 3 formed by the support frame 1 through the separation of the main reinforcing rib 2-1 and the two auxiliary reinforcing ribs 2-2 are different, and the main reinforcing rib 2-1 is positioned at the center of the support frame 1, and the length, width and height of the main reinforcing rib 2-1 are 5-10 mm larger than the size of the auxiliary reinforcing rib 2-2, the cross-sectional area of the hole 3 formed between the main reinforcing rib 2-1 and the auxiliary reinforcing rib 2-2 is smaller than the cross-sectional area of the hole 3 formed between the auxiliary reinforcing rib 2-2 and the inner wall of the end part of the support frame 1.

The above-mentioned settings are the best setting relations obtained by the sample test, and the uniform and stable compressive strength of the whole structure is ensured.

The fourth concrete implementation mode: the embodiment is further limited by the first, second or third embodiment, an arc-shaped groove 14, two single grooves 15 and two protruding blocks 16 are arranged on the bottom of the first filling groove 4, the arc-shaped groove 14 is arranged along the length direction of the first filling groove 4, the two single grooves 15 are arranged on two sides of the arc-shaped groove 14 in parallel, each single groove 15 is correspondingly provided with one protruding block 16, and each single groove 15 is fixedly connected with the inner side wall of the first filling groove 4 through the corresponding protruding block 16.

Further, the single groove 15 is a flat groove. The purpose of reducing the processing difficulty of the whole structure is achieved, and the shape of the convex block 16 and the arc-shaped groove 14 can be matched to be beneficial to pouring of concrete.

Further, a rib 17 is arranged between the arc-shaped groove 14 and the single groove 15.

The bottom of the first filling groove 4 is composed of three parts, namely, the front side of the main reinforcing rib 2-1 and the front sides of the two auxiliary reinforcing ribs 2-2 are processed and formed. Through arc wall 14, two single grooves 15 and two lugs 16 mutually support on the tank bottom of first filling groove 4 and form the special-shaped tank type that rises gradually from the center sunken to the both ends protruding transition to realize concrete and the sufficient contact of tank bottom of first filling groove 4, increase area of contact, lug 16's position sets up the density nature that can also ensure the tank bottom corner department of first filling groove 4 simultaneously, avoids influencing overall structure's intensity and stability because of the insufficient hollow angle that appears of concrete placement.

Furthermore, one side of the bump 16 facing the single groove 15 is an inclined surface, which is beneficial to the formation of a shape that the special-shaped groove is concave from the center to two ends.

The fifth concrete implementation mode: the embodiment is further limited by the first, second, third or fourth embodiment, the support frame 1 comprises an upper plate body 1-1, a lower plate body 1-2 and two end plates 1-3, the upper plate body 1-1 and the lower plate body 1-2 are sequentially and horizontally arranged from top to bottom, the two end plates 1-3 are vertically arranged between the upper plate body 1-1 and the lower plate body 1-2 in parallel, the upper plate body 1-1, the lower plate body 1-2 and the two end plates 1-3 are fixedly connected into a whole, a first inserting port 18 is machined on the outer wall of one end plate 1-3 of the two end plates 1-3, and a second inserting port 19 is machined on the outer wall of the other end plate 1-3 of the two end plates 1-3.

Furthermore, the upper plate body 1-1 and the lower plate body 1-2 have the same structure and different arrangement positions.

The sixth specific implementation mode: the embodiment is further limited by the first, second, third, fourth or fifth embodiment, the outer wall of the upper plate body 1-1 is provided with a plurality of first groove bodies 6 in parallel along the length direction, the length direction of each first groove body 6 is in the same direction as the width direction of the upper plate body 1-1, the inner wall of the upper plate body 1-1 is provided with a plurality of second groove bodies in parallel along the length direction, and the length direction of each second groove body is in the same direction as the width direction of the upper plate body 1-1.

In this embodiment, the plurality of first grooves 6 are provided to enhance the connection strength between the outer wall of the upper plate 1-1 and other modules. The stability during the connection process is enhanced. The setting of a plurality of second cell body is for strengthening the joint strength between 3 inner walls in hole and the concrete, the reinforcing the utility model discloses holistic compressive strength and stability.

Further, the upper side wall of the first filling groove 4 is the front side part of the upper plate body 1-1, the front side part of the upper plate body 1-1 is provided with a first groove assembly, the first groove assembly comprises a plurality of first upper grooves 8 and a plurality of first lower grooves 9, the plurality of first upper grooves 8 are arranged on the top surface of the front side part of the upper plate body 1-1 along the length direction of the upper plate body 1-1, each first upper groove 8 is correspondingly provided with a first groove body 6, each first upper groove 8 is communicated with one end of the corresponding first groove body 6, and the groove depth of each first groove body 6 is smaller than that of the corresponding first upper groove 8; the plurality of first lower grooves 9 are arranged on the bottom surface of the front side part of the upper plate body 1-1 along the length direction of the upper plate body 1-1, each second groove body is correspondingly provided with one first lower groove 9, each second groove body is communicated with the corresponding first lower groove 9, and the groove depth of each second groove body is smaller than that of the corresponding first lower groove 9.

Furthermore, a plurality of third groove bodies 10 are arranged on the inner wall of the lower plate body 1-2 in parallel along the length direction of the lower plate body, the length direction of each third groove body 10 is the same as the width direction of the upper plate body 1-1, a plurality of fourth groove bodies are arranged on the outer wall of the lower plate body 1-2 in parallel along the length direction of the lower plate body, and the length direction of each fourth groove body is the same as the width direction of the upper plate body 1-1;

further, a second slot assembly is processed on the lower side wall of the first filling slot 4, the second slot assembly comprises a plurality of second upper grooves 12 and a plurality of second lower grooves 13, the plurality of second upper grooves 12 are arranged on the top surface of the front side part of the lower plate body 1-2 along the length direction of the lower plate body 1-2, each third slot body 10 is correspondingly provided with one second upper groove 12, each third slot body 10 is communicated with the corresponding second upper groove 12, and the slot depth of each third slot body 10 is smaller than the slot depth of the corresponding second upper groove 12; the plurality of second lower grooves 13 are arranged on the bottom surface of the front side part of the lower plate body 1-2 along the length direction of the lower plate body 1-2, each second lower groove 13 is correspondingly provided with a fourth groove body, each second lower groove 13 is communicated with the corresponding fourth groove body, and the groove depth of each fourth groove body is smaller than that of the corresponding second lower groove 13.

The seventh embodiment: the embodiment is further limited by the first, second, third, fourth, fifth or sixth specific embodiments, a third slot assembly is processed on the upper side wall of the second filling groove 5, the upper side wall of the second filling groove 5 is the rear side part of the upper plate body 1-1, namely, the rear side part of the upper plate body 1-1 is provided with the third slot assembly, the third slot assembly comprises a plurality of third upper grooves and a plurality of third lower grooves, the plurality of third upper grooves are arranged on the top surface of the rear side part of the upper plate body along the length direction of the upper plate body, each third upper groove is correspondingly provided with one first slot body 6, each third upper groove is communicated with the other end of the corresponding first slot body 6, and the slot depth of each first slot body 6 is smaller than that of the corresponding third upper groove; the plurality of third lower grooves are arranged on the bottom surface of the rear side part of the upper plate body 1-1 along the length direction of the upper plate body 1-1, each second groove body is correspondingly provided with one third lower groove, each second groove body is communicated with the corresponding third lower groove, and the groove depth of each second groove body is smaller than that of the corresponding third lower groove.

In this embodiment, a fourth slot assembly is processed on a lower side wall of the second filling groove 5, the lower side wall of the second filling groove 5 is a rear side portion of the lower plate body 1-2, that is, the rear side portion of the lower plate body 1-2 is provided with the fourth slot assembly, the fourth slot assembly includes a plurality of fourth upper grooves and a plurality of fourth lower grooves, the plurality of fourth upper grooves are arranged on a top surface of the rear side portion of the lower plate body along a length direction of the upper plate body, each fourth upper groove is correspondingly provided with one third groove body 10, each fourth upper groove is communicated with the other end of the corresponding third groove body 10, and a groove depth of each third groove body 10 is smaller than a groove depth of the corresponding fourth upper groove; the plurality of fourth lower grooves are arranged on the bottom surface of the rear side part of the lower plate body 1-2 along the length direction of the lower plate body 1-2, each fourth groove body is correspondingly provided with one fourth lower groove, each fourth groove body is communicated with the corresponding fourth lower groove, and the groove depth of each fourth groove body is smaller than that of the corresponding fourth lower groove.

In the embodiment, the grooves in the first slot assembly, the second slot assembly, the third slot assembly and the fourth slot assembly provide concrete filling spaces for stably connecting the integral structure with other modules, and concrete pouring amount at the connecting position is increased. The structure of the third slot assembly is the same as that of the first slot assembly, and the structure of the fourth slot assembly is the same as that of the second slot assembly.

In this embodiment, the first tank 6, the second tank, the third tank 10, or the fourth tank are all slender tanks. The groove depth of each fourth groove body is smaller than that of the corresponding fourth lower groove, so that stable connection between the outer wall of the overall structure and other modules can be achieved, and the stability of the joint of the end corners can be enhanced.

First upper groove 8, first lower groove 9, second upper groove 12, second lower groove 13, third upper groove, third lower groove, fourth upper groove and fourth lower groove are the notch structure in this embodiment, make overall structure peg graft the back of finishing, overall structure should not control, reciprocate, make the relation of connection more stable between the module, it is more convenient to be under construction.

In addition, the first lower groove 9, the second upper groove 12, the third lower groove and the fourth upper groove are all flat groove structures, the pouring space of concrete is increased by matching with the hole 3, and the stable connection relation between the hole 3 and the concrete can be further ensured.

The specific implementation mode is eight: this embodiment is the further limited of embodiment six or seven, and when first upper groove 8, second low groove 13, third upper groove and fourth low groove were the dovetail, first cell body and fourth cell body were the dovetail, made overall structure grafting back, further made overall structure should not control, reciprocate, guaranteed that module outer wall terminal surface and outer edge department all have the structural style of dovetail, and relative position is stable firm between the module, is favorable to the construction more.

Another kind of structural style does, when first upper groove 8, second low groove 13, third upper groove and fourth low groove are the plain groove, first cell body and fourth cell body still are the dovetail, make overall structure peg graft the back that finishes, further make overall structure should not control, reciprocate, ensure that the area of module outer wall terminal surface has the structural style of dovetail, make the relative position between the module stable firm, be favorable to the construction more.

The specific implementation method nine: the embodiment is further limited to the first, second, third, fourth, fifth, sixth, seventh or eighth embodiment, wherein a first insertion port 18 is formed on an outer wall of one of the two end plates 1-3 of the end plate 1-3, and the first insertion port 18 is used for detachably connecting with the end of the other module. Similarly, the outer wall of the other end plate 1-3 of the two end plates 1-3 is provided with a second inserting port 19.

The detailed implementation mode is ten: the embodiment is further limited by the ninth embodiment, the first plug interface 18 is a plug structure formed by processing a strip-shaped protrusion and a slot on the outer wall of the end plate 1-3, the strip-shaped protrusion and the slot are processed on the outer wall of one end plate 1-3 of the two end plates 1-3, the strip-shaped protrusion and the slot are sequentially arranged along the height direction of the end plate 1-3, the length direction of the strip-shaped protrusion is the same as the width direction of the end plate 1-3, the strip-shaped protrusion is detachably connected with the slot on the other matched module end plate 1-3, the slot is arranged along the width direction of the end plate 1-3, and the slot is detachably connected with the convex rib on the other matched module end plate 1-3. Protruding and slot of bar be provided with and do benefit to the promotion the utility model discloses a when a plurality of, the connection stability of connecting gradually in-process tip.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a four cavate brickwork modules which characterized in that: the novel combined type solar cell comprises a supporting frame (1), a main reinforcing rib (2-1) and two auxiliary reinforcing ribs (2-2), wherein the main reinforcing rib (2-1) and the two auxiliary reinforcing ribs (2-2) are short strip-shaped ribs, the supporting frame (1) is a rectangular frame body, the main reinforcing rib (2-1) and the two auxiliary reinforcing ribs (2-2) are arranged in the supporting frame (1) in parallel, the main reinforcing rib (2-1) is vertically arranged in the middle of the supporting frame (1), the two auxiliary reinforcing ribs (2-2) are respectively arranged on two sides of the main reinforcing rib (2-1), the inside of the supporting frame (1) is separated into four holes (3) arranged in parallel through the main reinforcing rib (2-1) and the two auxiliary reinforcing ribs (2-2), a first filling groove (4) is processed on the front side face of the supporting frame (1) along the length direction of the supporting frame, the bottom of the first filling groove (4) is a cambered surface bottom, and the bottom of the first filling groove (4) is communicated with each hole (3); the rear side face of the support frame (1) is processed with a second filling groove (5) along the length direction of the support frame, the groove bottom of the second filling groove (5) is a plane groove bottom, the second filling groove (5) is communicated with each hole (3), and the outer walls of the two ends of the support frame (1) are respectively processed with a first inserting port (18) and a second inserting port (19).

2. The four-cavity masonry module according to claim 1, wherein: the cross-sectional area of the hole (3) is 21450mm²。

3. The four-cavity masonry module according to claim 2, wherein: arc-shaped groove (14), two single grooves (15) and two lugs (16) are arranged on the groove bottom of the first filling groove (4), the arc-shaped groove (14) is arranged along the length direction of the first filling groove (4), the two single grooves (15) are arranged on two sides of the arc-shaped groove (14) in parallel, each single groove (15) is correspondingly provided with one lug (16), and each single groove (15) is fixedly connected with the inner side wall of the first filling groove (4) through the corresponding lug (16).

4. A four-cavity masonry module according to claim 3 wherein: the single groove (15) is a flat groove.

5. The four-cavity masonry module according to claim 4, wherein: a convex rib (17) is arranged between the arc-shaped groove (14) and the single groove (15).

6. A four-cavity masonry module according to any one of claims 1 to 5, characterised in that: the supporting frame (1) comprises an upper plate body (1-1), a lower plate body (1-2) and two end plates (1-3), the upper plate body (1-1) and the lower plate body (1-2) are sequentially and horizontally arranged from top to bottom, the two end plates (1-3) are vertically arranged between the upper plate body (1-1) and the lower plate body (1-2) in parallel, the upper plate body (1-1), the lower plate body (1-2) and the two end plates (1-3) are fixedly connected into a whole, a first inserting port (18) is machined in the outer wall of one end plate (1-3) of the two end plates (1-3), and a second inserting port (19) is machined in the outer wall of the other end plate (1-3) of the two end plates (1-3).

7. The four-cavity masonry module according to claim 6, wherein: the outer wall of the upper plate body (1-1) is provided with a plurality of first groove bodies (6) in parallel along the length direction, the length direction of each first groove body (6) is the same as the width direction of the upper plate body (1-1), the inner wall of the upper plate body (1-1) is provided with a plurality of second groove bodies in parallel along the length direction, and the length direction of each second groove body is the same as the width direction of the upper plate body (1-1); a first slot assembly is processed on the upper side wall of the first filling groove (4), the first slot assembly comprises a plurality of first upper grooves (8) and a plurality of first lower grooves (9), the plurality of first upper grooves (8) are arranged on the top surface of the front side part of the upper plate body (1-1) along the length direction of the upper plate body (1-1), each first upper groove (8) is correspondingly provided with a first groove body (6), each first upper groove (8) is communicated with one end of the corresponding first groove body (6), and the groove depth of each first groove body (6) is smaller than that of the corresponding first upper groove (8); the first lower grooves (9) are arranged on the bottom surface of the front side portion of the upper plate body (1-1) along the length direction of the upper plate body (1-1), each second groove body is correspondingly provided with one first lower groove (9), each second groove body is communicated with the corresponding first lower groove (9), and the groove depth of each second groove body is smaller than that of the corresponding first lower groove (9).

8. The four-cavity masonry module according to claim 7, wherein: the inner wall of the lower plate body (1-2) is provided with a plurality of third groove bodies (10) in parallel along the length direction, the length direction of each third groove body (10) is the same as the width direction of the upper plate body (1-1), the outer wall of the lower plate body (1-2) is provided with a plurality of fourth groove bodies in parallel along the length direction, and the length direction of each fourth groove body is the same as the width direction of the upper plate body (1-1); a second slot assembly is processed on the lower side wall of the first filling slot (4), the second slot assembly comprises a plurality of second upper grooves (12) and a plurality of second lower grooves (13), the plurality of second upper grooves (12) are arranged on the top surface of the front side part of the lower plate body (1-2) along the length direction of the lower plate body (1-2), each third slot body (10) is correspondingly provided with one second upper groove (12), each third slot body (10) is communicated with the corresponding second upper groove (12), and the slot depth of each third slot body (10) is smaller than that of the corresponding second upper groove (12); the plurality of second lower grooves (13) are arranged on the bottom surface of the front side part of the lower plate body (1-2) along the length direction of the lower plate body (1-2), each second lower groove (13) is correspondingly provided with a fourth groove body, each second lower groove (13) is communicated with the corresponding fourth groove body, and the groove depth of each fourth groove body is smaller than that of the corresponding second lower groove (13).

9. The four-cavity masonry module according to claim 8, wherein: the upper side wall of the second filling groove (5) is provided with a third groove assembly, the lower side wall of the second filling groove (5) is provided with a fourth groove assembly, the structure of the third groove assembly is the same as that of the first groove assembly, and the structure of the fourth groove assembly is the same as that of the second groove assembly.

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