CN215889160U - Assembled piece structure - Google Patents

Abstract

The utility model relates to the technical field of fabricated floors, in particular to a fabricated splicing and sewing structure. The structure is used for connecting two supporting substrates and comprises a connecting sleeve and an adjusting piece; the connecting sleeve is provided with a clamping groove, the two supporting base plates are respectively provided with a supporting block, and the supporting blocks of the two supporting base plates are inserted into the clamping groove of the connecting sleeve; one the support substrate's concatenation side is equipped with the mounting groove, and another the support substrate's concatenation side is equipped with the insertion groove, the regulating part is including inserting the piece, the one end that inserts the piece pass through the elastic component with the mounting groove tank bottom is connected, the other end inserts in the insertion groove. In this application, insert the piece with inserting that connects through the elastic component in the supporting substrate mounting groove and insert the insertion groove of another supporting substrate, can accomplish the concatenation and the horizontal elasticity adjustment of two supporting substrates simultaneously. When the supporting substrate is transversely deformed, the elastic piece can realize adjustment and avoid the extrusion of the connecting part or the generation of a gap.

Description

Assembled piece structure

Technical Field

The utility model relates to the technical field of fabricated floors, in particular to a fabricated splicing and sewing structure.

Background

In recent years, with the rapid development of assembly decoration, the traditional decoration cannot meet the development requirements of the modern building industry, and the building decoration industry needs to be upgraded urgently. The assembly type decoration is also called industrial decoration, and is a decoration process that parts and components produced in the industrial mode are subjected to dry construction by industrial workers according to a standardized procedure in a reliable assembly mode. Simply speaking, the method is a new assembly house form that the basic layer and the surface layer of the wall plate and the top plate are prefabricated in a factory, the components required by the top surface, the wall surface and the ground are manufactured, and then the components are transported to a field for assembly and embedding. Compared with traditional decoration, the assembly type decoration has great advantages in the aspects of environmental protection, decoration period and quick change, on one hand, the assembly type decoration has no tile work and oil work, the site construction garbage is effectively reduced by more than 90%, the assembly type decoration adopts a dry construction mode, wet operation is not adopted, the floor tiles and the wall tiles are paved by adopting a dry method, so that the construction efficiency is improved, the dust pollution on a construction site is reduced, the environmental protection performance is greatly improved, and according to statistics, the site construction garbage can be effectively reduced by more than 90% in a full-dry type installation mode. The dry construction can not damage the original wall of the building, and the stability and the safety of the building body are ensured. On the other hand, the construction period is short, the replacement and the installation are fast, the wall, the roof and the ground are replaced when the wall, the roof and the ground are replaced, the assembly type construction can realize 7 days of completion of foundation construction, and 3 days of completion of storage and soft installation. If the house space of the house owner is functionally changed or the house owner has stage aesthetic fatigue, the top surface, the wall surface and the whole space style can be quickly converted.

The patent document with the publication number of CN212405930U discloses such shock attenuation built on stilts structure on assembled floor, and it includes a plurality of floors and a plurality of support ground, bottom on the floor is provided with a plurality of mounting grooves, it installs four to support the lower margin the crossing department on floor, it includes the base plate to support the lower margin, set up first bracing piece on the base plate, be provided with the shock attenuation post on the first bracing piece, be provided with first connecting plate in the shock attenuation post, fixedly connected with damping spring on the first connecting plate, damping spring's the relative other end is connected with the second connecting plate, be provided with the second bracing piece on the second connecting plate, be provided with the backup pad on the second bracing piece, be provided with a plurality of limiting plates in the backup pad, the limiting plate is pegged graft in the mounting groove. In the application, the floor and the floor are simply spliced, however, in daily use, the floor is extruded and impacted by various external forces, and is easy to deform and break; in addition, the floor is influenced by temperature and humidity changes in different regions in different seasons, and the floor is easy to deform and contract due to expansion with heat and contraction with cold, so that the simply spliced floor is easy to arch and crack, and the practicability and the attractiveness are influenced.

The patent document with the publication number of CN209129316U discloses such automatic flexible levelling device of floor, and its technical scheme main points are including the floor, the floor includes the floor unit that a plurality of concatenation formed in proper order, be equipped with keel frame between floor and the ground, insert between the gap of adjacent floor unit and be equipped with the connecting strip, the inside of connecting strip is opened has and is held the chamber, the connecting strip includes right connecting strip and left connecting strip, the right connecting strip slides on horizontal and connects in left connecting strip, it is equipped with to support tight spring to hold the intracavity, contradict respectively in right connecting strip and left connecting strip at the both ends of supporting tight spring. In this application, the floor is connected with the connecting strip in a clamping mode, and then the connecting strip abuts against the spring to conduct transverse telescopic adjustment. However, the floor and the connecting strip still have deformation and shrinkage phenomena, thereby causing the problem of connection failure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provides an assembled type splicing structure.

The technical scheme for solving the problems is that the utility model provides an assembled splicing seam structure which is used for connecting two supporting base plates and comprises a connecting sleeve and an adjusting piece; the connecting sleeve is provided with a clamping groove, the two supporting base plates are respectively provided with a supporting block, and the supporting blocks of the two supporting base plates are inserted into the clamping groove of the connecting sleeve; one the support substrate's concatenation side is equipped with the mounting groove, and another the support substrate's concatenation side is equipped with the insertion groove, the regulating part is including inserting the piece, the one end that inserts the piece pass through the elastic component with the mounting groove tank bottom is connected, the other end inserts in the insertion groove.

Preferably, the adjusting member further includes a flexible joint strip disposed between the splicing side surfaces of the two support substrates.

Preferably, the insertion block is T-shaped, and includes a connection portion connected to the elastic member and an insertion portion inserted into the insertion groove, and a notch of the installation groove is provided with a stopper portion for stopping the connection portion from popping out of the installation groove.

In a preferred embodiment of the present invention, the support substrate includes a guide slope portion on a mating side surface thereof on which the insertion groove is provided.

Preferably, a flexible pad is arranged at the bottom of the clamping groove.

Preferably, a slot is formed in the bottom of the slot, and the flexible pad is provided with a supporting inserting strip inserted into the slot.

Preferably, the support slips are not parallel to the splicing side face of the support substrate.

Preferably, the bottom of the clamping groove is further provided with a connecting groove, the flexible pad is provided with a reinforcing support strip inserted into the connecting groove, and the reinforcing support strip is not parallel to the support inserting strip.

Preferably, the cross section of the support slip is in an inverted T shape.

Preferably, the reinforcing support bars are perpendicular to the support slips.

The utility model has the beneficial effects that:

1. in this application, directly set up mounting groove and insertion groove at the both ends of supporting substrate, insert the insertion groove of another supporting substrate with the piece that inserts that connects through the elastic component in the supporting substrate mounting groove, can accomplish the concatenation and the horizontal elasticity adjustment of two supporting substrates simultaneously. When the supporting substrate is transversely deformed, the elastic piece can realize adjustment and avoid the extrusion of the connecting part or the generation of a gap. And other parts of the plurality of supporting substrates do not have transverse connection structures, so that the problem of connection failure caused by deformation of the supporting substrates is solved.

2. In this application, the concatenation side of two support substrates still is equipped with flexible joint strip, can fill the concatenation gap firstly, and flexible joint strip can transversely expand or contract along with support substrate's deformation, makes it fill the concatenation gap all the time.

3. In this application, still be equipped with the flexible pad between the supporting shoe of supporting substrate and adapter sleeve, the flexible pad can warp along with the deformation that the supporting substrate takes place in vertical direction, has solved the vertical deformation problem on floor.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the utility model. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is a schematic structural view of an assembled patchwork structure;

FIG. 2 is a schematic structural view of a connecting sleeve of an assembled splicing seam structure;

in the figure: the supporting base plate 1, the supporting block 11, the mounting groove 12, the limiting part 121, the insertion groove 13, the guiding inclined surface part 131, the connecting sleeve 2, the clamping groove 21, the flexible pad 22, the supporting insertion strip 221, the reinforcing supporting strip 222, the adjusting piece 3, the insertion block 31 and the flexible joint strip 32.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

An assembled splicing structure, as shown in figure 1, is used for connecting two supporting base plates 1 and comprises a connecting sleeve 2 and an adjusting piece 3. Wherein, adapter sleeve 2 is used for supporting 1 spacing, will support 1 primary connection of base plates together two, and adjusting part 3 cooperates adapter sleeve 2 to use, strengthens the joint strength between two support base plates 1, secondly when using in follow-up assembled plate structure, plays the elastic buffer effect, avoids arching, the fracture problem that leads to because panel deformation. The fabricated seam structure is suitable for various fabricated board structures, and in the embodiment, the fabricated seam structure is used for a fabricated floor.

The connecting sleeve 2 is provided with clamping grooves 21, the two supporting base plates 1 are respectively provided with supporting blocks 11, and the supporting blocks 11 of the two supporting base plates 1 are inserted into the clamping grooves 21 of the connecting sleeve 2, so that the two supporting base plates 1 can be spliced together. The width of the clamping groove 21 is usually slightly larger than the total width of the two supporting blocks 11, on one hand, the insertion of the supporting blocks 11 is facilitated, and on the other hand, a space in which the supporting substrate 1 can deform is reserved when the subsequent plate is expanded and deformed, so that the supporting substrate 1 is prevented from arching.

However, this causes a problem that the connection between the support substrates 1 is not stable, and thus, a mounting groove 12 is formed at the coupling side of one support substrate 1, an insertion groove 13 is formed at the coupling side of the other support substrate 1, and the adjusting member 3 includes an insertion block 31, one end of which is connected to the bottom of the mounting groove 12 by an elastic member, and the other end of which is inserted into the insertion groove 13. In order to avoid the damage caused by the insertion block 31 falling out of the installation groove 12 due to the elastic expansion of the elastic member when the insertion block is not installed, the present embodiment is summarized, the insertion block 31 is T-shaped and includes a connection portion connected with the elastic member and an insertion portion inserted into the insertion groove 13, and the notch of the installation groove 12 is provided with a limiting portion 121 for stopping the connection portion from popping out of the installation groove 12. Since the floor is formed by splicing a large number of support substrates 1, in order to mass-produce the support substrates, it is generally sufficient to install the installation groove 13 and the insertion groove 13 at both ends of one support substrate 1, and install the support blocks 11 at both ends. For convenience of mounting, the mating side of the support substrate 1 where the insertion groove 13 is provided includes a guide slope portion 131.

During installation, for example, according to the orientation in fig. 1, the support block 11 (left support block 11) at the end of the support substrate 1 provided with the installation groove 12 is first inserted into the connection sleeve 2, and the left support block 11 is made to abut against the left inner wall of the connection sleeve 2 as closely as possible. Then, the supporting block 11 (the supporting block 11 on the right side) of the other supporting substrate 1 having the insertion slot 13 is inserted into the connecting sleeve 2, and when the supporting block 11 is slid into the connecting sleeve 2, the guiding inclined plane 131 pushes the inserting block 31 to move to the left to leave a distance for the supporting block 11 to be inserted completely. After the supporting block 11 is inserted into the connecting sleeve, the insertion block 31 slides out of the guiding inclined plane part 131 and slides into the insertion groove 13, and then the supporting block 11 on the right side abuts against the inner wall on the right side of the connecting sleeve 2 through the elastic expansion effect of the elastic member.

At this time, a certain gap may exist between the two support substrates 1, so that the adjusting member 3 further includes a flexible joint strip 32 disposed between the splicing side surfaces of the two support substrates 1, two edges of the flexible joint strip 32 are respectively connected with the two support substrates 1, and when the gap is expanded due to contraction of the plate, the flexible joint strip 32 can be expanded therewith; when the board expands to reduce the gap, the flexible joint strip 32 can be compressed along with the board, so that the flexible joint strip 32 always fills the gap between the two support substrates 1.

When the connecting sleeve 2 and the adjusting piece 3 are used in a fabricated floor, the transverse buffering adjustment can be realized when the floor is transversely deformed. However, when the supporting substrate 1 is deformed, the deformation direction thereof may be multi-directional, and the deformation may occur in the vertical direction. Therefore, in this application, the tank bottom of draw-in groove 21 is equipped with flexible pad 22, and flexible pad 22 can warp along with the deformation that supporting substrate 1 took place in vertical direction, has solved the vertical deformation problem on floor.

As shown in fig. 2, in order to prevent the flexible pad 22 from falling off from the connection sleeve 2, a slot is formed at the bottom of the slot 21, and the flexible pad 22 is provided with a support strip 221 inserted into the slot. Meanwhile, the cross section of the support slip 221 may be an inverted T-shape to further prevent dropping. In addition, the supporting strips 221 can be arranged to be non-parallel to the splicing side face of the supporting substrate 1, in the design structure, one part of the supporting strips 221 is necessarily located below one supporting block 11, the other part of the supporting strips 221 is located below the other supporting block 11, the vertical thickness of the supporting strips 221 is large, a reinforcing rib structure can be formed, and the flexible cushion 22 can be prevented from collapsing due to long-term use. Furthermore, the bottom of the slot 21 is further provided with a connecting slot, the flexible pad 22 is provided with a reinforcing support bar 222 inserted into the connecting slot, the reinforcing support bar 222 is not parallel to the supporting insert 221, a cross reinforcing rib is formed, and the reinforcing effect is further improved. Meanwhile, the support inserting strips 221 and the reinforcing support strips 222 are both arranged to be of an inverted T-shaped structure, so that the support structure can effectively prevent falling off, and can form a support structure with an I-shaped cross section together with the flexible pad 22, so that the flexible pad is guaranteed not to collapse, and the vertical buffering effect of the flexible pad is achieved for a long time.

Based on the structure, the mounting method of the assembly type splicing and sewing structure comprises the following steps: installing the connecting sleeve 2, firstly clamping the supporting substrate 1 provided with the installing groove 12 into the clamping groove 21 of the connecting sleeve 2 through the supporting block 11, and then controlling the elastic part to contract so that the inserting block 31 is folded into the installing groove 12; the support substrate 1 provided with the insertion groove 13 is then slid into the same card slot 21 through the support block 11, and the elastic member is controlled to expand so that the insertion block 31 is inserted into the insertion groove 13.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It should be noted that, in the description of the present application, it should be noted that the terms "upper end", "lower end" and "bottom end" indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which the product of the application is usually placed in when the product of the application is used, and are only for convenience of describing the present application and simplifying the description, but do not indicate or imply that the device referred to 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. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides an assembled piece structure for connection between two support base plates (1), its characterized in that: comprises a connecting sleeve (2) and an adjusting part (3); the connecting sleeve (2) is provided with a clamping groove (21), the two supporting substrates (1) are respectively provided with a supporting block (11), and the supporting blocks (11) of the two supporting substrates (1) are inserted into the clamping groove (21) of the connecting sleeve (2); one the concatenation side of support substrate (1) is equipped with mounting groove (12), another the concatenation side of support substrate (1) is equipped with insertion groove (13), regulating part (3) are including inserting piece (31), the one end of inserting piece (31) pass through the elastic component with mounting groove (12) tank bottom is connected, the other end inserts in insertion groove (13).

2. The fabricated tailored structure according to claim 1, wherein: the adjusting piece (3) further comprises a flexible joint strip (32) arranged between the splicing side faces of the two supporting base plates (1).

3. The fabricated tailored structure according to claim 1, wherein: the inserting block (31) is T-shaped and comprises a connecting portion connected with the elastic piece and an inserting portion inserted into the inserting groove (13), and a limiting portion (121) used for stopping the connecting portion from popping out of the installing groove (12) is arranged on a notch of the installing groove (12).

4. The fabricated tailored structure according to claim 1, wherein: the splicing side face of the support substrate (1) provided with the insertion groove (13) comprises a guide inclined plane part (131).

5. The fabricated tailored structure according to claim 1, wherein: the bottom of the clamping groove (21) is provided with a flexible pad (22).

6. The assembled tailored structure according to claim 5, wherein: the slot bottom of draw-in groove (21) has seted up the wire casing, flexible pad (22) are equipped with insert support cutting (221) of wire casing.

7. The fabricated tailored structure according to claim 6, wherein: the support slips (221) are non-parallel to the splicing side of the support substrate (1).

8. The fabricated tailored structure according to claim 6, wherein: the tank bottom of draw-in groove (21) has still seted up the spread groove, flexible pad (22) are equipped with and insert strengthen support bar (222) of spread groove, strengthen support bar (222) with support cutting (221) nonparallel.

9. The fabricated tailored structure according to claim 6, wherein: the cross section of the supporting cutting bar (221) is in an inverted T shape.

10. The assembled tailored structure according to claim 8, wherein: the reinforcing support bars (222) are perpendicular to the support slips (221).

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