CN220150943U - Assembled building coupling assembling - Google Patents

Abstract

The utility model relates to the technical field of building assembly connectors, in particular to an assembly type building connection assembly. The connecting assembly comprises a connecting assembly body, wherein the connecting assembly body comprises a connecting male part, a connecting female part and a square guide rod which are mutually spliced and matched along the horizontal and transverse directions. The connecting component main body is characterized in that in the using process: before splicing the connecting male piece and the connecting female piece, a user can rotate the rotating assembly at the connecting male piece and the connecting female piece out of the containing groove, and then insert the guide rod into the guide grooves at the two rotating assemblies, so that the connecting male piece and the connecting female piece are preliminarily connected.

Description

Assembled building coupling assembling

Technical Field

The utility model relates to the technical field of building assembly connectors, in particular to an assembly type building connection assembly.

Background

At present, the assembled building materials are produced in a standard and quantitative mode by factories and then are directly transported to a building construction site for on-site assembly connection, and the assembled building construction mode can well shorten the construction period, reduce the waste of building construction materials, save manpower and material resources and save resources.

In the splicing process, the positions of the male piece and the female piece which are used for splicing are required to be adjusted, so that the connecting positions of the male piece and the female piece are aligned, and then the male piece and the female piece are assembled and connected through fasteners such as bolts.

However, when the volume of the part of the connecting piece is large or the hands of the assembler are insufficient, the assembler has difficulty in conveniently, rapidly and accurately adjusting the relative position between the male piece and the female piece. This results in the fact that the positions of the male and female parts may need to be continuously fine-tuned a plurality of times during the assembly process to align the connection parts, which in turn results in inconvenient assembly and long time.

Disclosure of Invention

The present utility model provides a fabricated building connection assembly that overcomes some or all of the shortcomings of the prior art.

The utility model relates to an assembled building connecting component, which comprises a connecting component main body, wherein the connecting component main body comprises a connecting male part, a connecting female part and a square guide rod; the male connecting piece and the female connecting piece can be mutually spliced and matched along the horizontal and transverse directions;

the outer walls of the same side of the connecting male piece and the connecting female piece, which are positioned in the horizontal longitudinal direction, are concavely provided with accommodating grooves, and rotating assemblies rotatable around a vertical axis are arranged in the two accommodating grooves; square guide grooves are formed at the two rotating assemblies; the guide rod is used for being connected in the two guide grooves in a horizontal and transverse sliding mode when the rotating assembly rotates out of the accommodating groove.

Specifically, the connecting component main body in the utility model is used in the process of using: before splicing the connecting male piece and the connecting female piece, a user can rotate the rotating assembly at the connecting male piece and the connecting female piece out of the containing groove, and then insert the guide rod into the guide grooves at the two rotating assemblies, so that the connecting male piece and the connecting female piece are preliminarily connected.

It can be appreciated that the guide groove is square, so that the relative position between the male connecting piece and the female connecting piece can be preferably limited; the guide rod is equivalent to the guide rod, the guide rod and the guide rod are pre-positioned, the guide rod can only move along the extending direction of the guide rod, and then when an installer connects and splices the guide rod and the guide rod, the installer can relatively conveniently align the connecting parts of the guide rod and directly move the guide rod and the guide rod along the direction of the guide rod, the operation is relatively simple and convenient, and the offset of the guide rod and the guide rod in the approaching process can be effectively avoided; so that the male and female connection members can be connected for direct assembly to form the construction article.

And especially for the construction parts (such as plates and the like) with large parts, the corresponding male parts and female parts are also large, if no guide rod is provided, the connection parts of the male parts and the female parts are difficult to align accurately at one time by an installer, and the adjustment process is troublesome. After the guide rod is used for pre-positioning, the position between the male part and the female part can be adjusted more accurately and conveniently.

The rotating component is rotatably arranged in the accommodating groove, and can be rotated out when in use; when the rotary component is not used, the rotary component is only required to be screwed into the accommodating groove, namely, the rotary component can not interfere with normal use of other components when not used, and the normal work of an installer can not be influenced.

In addition, the guide rod is split with the male connecting piece and the female connecting piece, and the guide rod is used only when being installed in a guiding manner, and the guide rod is not interfered with normal use of other parts when not used, and does not cause adverse effects on normal work of installers. And the guide bar does not need to be specially customized and reusable.

Preferably, in combination with fig. 4, the rotating assembly includes a rotating shaft rotatably arranged in a vertical direction and a rotating block fixedly connected at the rotating shaft.

Preferably, referring to fig. 2 and 3, a mounting through hole for placing the rotating shaft is formed at the connecting male member or the connecting female member in a penetrating manner along the vertical direction, a mounting seat for movably mounting the rotating shaft is formed in the accommodating groove, and the rotating shaft is movably mounted between the outer walls of the upper side and the lower side of the connecting male member or the connecting female member through the mounting seat along the vertical direction.

Specifically, when in use, the rotating shaft can be installed in the accommodating groove through the installation seat, so that the installation seat can be used for realizing the rotary installation of the rotating shaft on one hand, and on the other hand, the rotating shaft can be limited, so that the rotating block is ensured not to be separated from the accommodating groove when rotating along with the rotating shaft.

Preferably, referring to fig. 3 and 4, a knob for pulling the rotation shaft is formed at the circumferential inner side of the upper end of the rotation shaft.

Specifically, when in use, an installer can directly control the rotation shaft to rotate through the knob, and the operation is simple and convenient.

Preferably, referring to fig. 3 and 4, a stopper is formed on the circumferential outer side of the upper end of the rotation shaft; the upper outer wall of the connecting male piece or the connecting female piece is provided with a circular arc-shaped limit groove matched with the limit block.

Preferably, in combination with fig. 3, one end of the limiting groove in the extending direction forms a horizontal groove surface, and the other end forms a vertical groove surface; the horizontal groove surface and the vertical groove surface are both used for being abutted against and matched with the limiting block to form limiting.

Preferably, in combination with fig. 3, the outer walls of the two sides of the limiting block are respectively provided with a limiting clamping block, and the horizontal groove surface and the vertical groove surface of the limiting groove are respectively provided with a limiting clamping groove used for being in limiting fit with the limiting clamping blocks.

Specifically, when using, installer also rotates at the rotation axis along with the rotation axis at the spacing inslot at the rotation, and when the rotation axis drove rotatory piece to roll out the holding groove, the stopper can be better to the rotatory stroke restriction of rotatory piece. When the limiting block rotates to the vertical groove surface, the limiting clamping block at the limiting block is also clamped into the limiting clamping groove at the vertical groove surface; therefore, the position of the rotating block is locked, the rotating block cannot rotate further and cannot retract, on one hand, the limiting block can limit the rotating stroke of the rotating block to ensure that the position of the guide groove at the rotating block is corresponding to the guide rod, on the other hand, the limiting clamping block at the limiting block is matched with the limiting clamping groove to position the rotating block, and when the guide rod is connected with the guide groove at the rotating block in a penetrating mode, the guide groove can be kept stable better, and accordingly the situation that the guide rod is offset along with the rotating block due to the retracting of the rotating block is effectively avoided.

Preferably, in combination with fig. 5, a plurality of connecting plates extending along the horizontal transverse direction are formed at the outer wall of one side of the connecting male member along the horizontal transverse direction in an outward protruding manner; referring to fig. 6, a plurality of connection grooves in one-to-one connection with the connection plates are formed in the inner recess at the outer wall of one side of the connection female member in the horizontal and transverse directions.

Specifically, when in use, an installer approaches the male connection part and the female connection part along the guide rod, so that a plurality of connection plates can accurately enter the connection grooves in a one-to-one correspondence manner; and because the connecting component is provided with the guide rod which can provide pre-positioning guide, the connecting male piece and the connecting female piece can be provided with more connecting plates and connecting grooves so as to improve the connection stability between the connecting male piece and the connecting female piece, and because the guide rod is arranged, manual careful adjustment is not needed during installation so as to ensure that each connecting plate can be aligned with the position of the connecting groove.

Preferably, referring to fig. 5 and 6, a plurality of first screw holes penetrating into the connection groove in a vertical direction are formed at the connection female member; the connecting plate of the connecting male part is also provided with a plurality of second screw holes which are communicated in the vertical direction.

Preferably, the first screw hole and the second screw hole are used for being concentrically matched to screw in the bolt when the connecting block is connected and matched with the connecting groove.

Specifically, through the pre-limiting adjustment of the guide rod, the relative positions of the first screw hole and the second screw hole can be accurately concentric, so that the subsequent screw bolts can be screwed and fastened conveniently. Therefore, the installation process of the installer is more convenient, the positions of the first screw hole and the second screw hole do not need to be carefully adjusted so that the bolts are screwed in, the work tasks of the installer are better lightened, the whole installation process is more convenient, and the connection stability is better.

Drawings

Fig. 1 is a schematic structural view of a main body of a connection assembly in embodiment 1;

FIG. 2 is a schematic view of an explosive structure of FIG. 1;

FIG. 3 is an enlarged schematic view of FIG. 2 at A;

FIG. 4 is a schematic view showing the structure of a rotary member in embodiment 1;

FIG. 5 is a schematic view of the connecting male member of FIG. 1;

fig. 6 is a schematic structural view of the connection female member in fig. 1.

Detailed Description

For a further understanding of the present utility model, the present utility model will be described in detail with reference to examples. It is to be understood that the examples are illustrative of the present utility model and are not intended to be limiting.

Example 1

The embodiment provides a fabricated building connection assembly, and referring to fig. 1-2, the fabricated building connection assembly comprises a connection assembly main body 100, wherein the connection assembly main body 100 comprises a connection male member 110 and a connection female member 120 which are mutually spliced and matched along the horizontal and transverse directions;

the outer walls of the male connecting piece 110 and the female connecting piece 120, which are positioned on the same side in the horizontal longitudinal direction, are recessed to form accommodating grooves 140, and rotating assemblies 150 rotatable around a vertical axis are arranged in the two accommodating grooves 140; square guide grooves 410 are formed at the two rotating assemblies 150, and the same guide rod 130 can be arranged in the two guide grooves 410; the guide bar 130 is adapted to be slidably coupled in the two guide grooves 410 in the horizontal lateral direction when the rotating assembly 150 is rotated out of the receiving groove 140.

Specifically, the connection assembly main body 100 in the present embodiment is in use: before the user splices the connection male member 110 and the connection female member 120, the user can first rotate the rotating assemblies 150 at the connection male member 110 and the connection female member 120 out of the receiving grooves 140 and then insert the guide rods 130 into the guide grooves 410 at the two rotating assemblies 150, thereby preliminarily connecting the connection male member 110 and the connection female member 120.

It will be appreciated that since the guide groove 410 is square, the relative position between the connection male member 110 and the connection female member 120 can be preferably limited; the guide rod 130 is equivalent to the guide rod 130, the guide rod 130 can only move along the extending direction of the guide rod 130, so that when an installer connects and splices the guide rod 130, the installer can relatively conveniently align the connecting parts of the guide rod 130 and the guide rod 130, and the guide rod 130 can be directly moved close to the guide rod, so that the guide rod is relatively simple and convenient to operate, and the offset of the guide rod and the guide rod can be effectively avoided in the approaching process; so that the connection male member 110 and the connection female member 120 can be connected to be directly assembled to form a construction element.

And especially for a part of the construction member (e.g., a plate material, etc.) having a large volume, the male member and the female member corresponding thereto are also large in volume, and if the guide bar 130 is not provided, it is difficult for the installer to accurately align the connection portion of the male member and the female member at one time, and the adjustment process is troublesome. After the guide bar 130 in this embodiment performs the pre-positioning, the position adjustment between the male member and the female member can be more accurate and convenient.

In addition, the rotating assembly 150 in the present embodiment is rotatably installed in the accommodating groove 140, and can be rotated out when in use; when the rotary component is not used, the rotary component is only required to be screwed into the accommodating groove 140, namely, the rotary component 150 can not interfere with normal use of other components when not used, and the normal work of an installer can not be influenced.

In addition, the guide rod 130 is split with the male connecting member and the female connecting member 120, and can be used only when being guided and installed, and the guide rod is not interfered with normal use of other parts when not used, and does not cause adverse effects on normal work of installers. And the guide bar 130 does not need to be specially customized and reusable.

In this embodiment, referring to fig. 4, the rotating assembly 150 includes a rotating shaft 151 rotatably arranged in a vertical direction and a rotating block 152 fixedly connected to the rotating shaft 151.

In this embodiment, referring to fig. 2 and 3, a mounting through hole 310 for placing the rotating shaft 151 is formed at the connecting male member 110 or the connecting female member 120 in a vertical direction, a mounting seat 320 for movably mounting the rotating shaft 151 is formed in the accommodating groove 140, and the rotating shaft 151 is movably mounted between the outer walls of the upper and lower sides of the connecting male member 110 or the connecting female member 120 through the mounting seat 320 in the vertical direction.

Specifically, in use, the rotation shaft 151 can be mounted in the accommodating groove 140 by the mounting seat 320, so that the mounting seat 320 can be mounted rotatably on the rotation shaft 151, and can limit the rotation shaft 151, thereby ensuring that the rotation block 152 does not separate from the accommodating groove 140 when rotating with the rotation shaft 151.

In the present embodiment, referring to fig. 3 and 4, a knob 153 for pulling the rotation shaft 151 is formed at the circumferential inner side of the upper end of the rotation shaft 151.

Specifically, when in use, an installer can directly control the rotation shaft 151 to rotate through the knob 153, and the operation is simple and convenient.

In the present embodiment, referring to fig. 3 and 4, a stopper 330 is formed on the upper end of the rotation shaft 151 at the outer circumferential side thereof; a circular arc-shaped limit groove 340 for being matched with the limit block 330 is formed at the upper outer wall of the connecting male member 110 or the connecting female member 120.

In this embodiment, referring to fig. 3, one end of the limiting groove 340 in the extending direction forms a horizontal groove surface 341, and the other end forms a vertical groove surface 342; both the horizontal groove surface 341 and the vertical groove surface 342 are used for abutting and matching with the limiting block 330 to form limiting.

In this embodiment, referring to fig. 3, the outer walls of two sides of the limiting block 330 are formed with limiting blocks 350, and the horizontal groove surface 341 and the vertical groove surface 342 of the limiting groove 340 are formed with limiting grooves for limiting cooperation with the limiting blocks 350.

Specifically, when the rotary shaft 151 is rotated by an installer, the stopper 330 also rotates in the limiting groove 340 along with the rotary shaft 151, and when the rotary shaft 151 drives the rotary block 152 to rotate out of the accommodating groove 140, the stopper 330 can preferably limit the rotation stroke of the rotary block 152. When the limiting block 330 rotates to the vertical groove surface 342, the limiting clamping block 350 at the limiting block 330 is also clamped into the limiting clamping groove at the vertical groove surface 342; therefore, the position of the rotating block 152 is locked, the rotating block 152 cannot rotate any further and cannot retract itself, so that the limiting block 330 can limit the rotating stroke of the rotating block 152 to ensure that the position of the guide groove 410 at the rotating block 152 can correspond to the guide rod 130, and on the other hand, the limiting clamping block 350 at the limiting block 330 is matched with the limiting clamping groove to position the rotating block 152, so that when the guide rod 130 is connected with the guide groove 410 at the rotating block 152 in a penetrating way, the guide groove 410 can be kept stable better, and the situation that the guide rod 130 is deflected along with the rotating block 152 due to the retracting of the rotating block 152 is effectively avoided.

In this embodiment, referring to fig. 5, a plurality of connection plates 111 extending in the horizontal transverse direction are formed to protrude outward at an outer wall of one side of the connection male member 110 in the horizontal transverse direction; referring to fig. 6, the coupling female member 120 is formed with a plurality of coupling grooves 121 coupled to the coupling plates 111 in a one-to-one correspondence manner by being recessed inward at an outer wall of one side in a horizontal lateral direction.

Specifically, in use, the installer brings the male connection member 110 and the female connection member 120 together along the guide bar 130, so that the plurality of connection plates 111 can be accurately inserted into the connection grooves 121 in a one-to-one correspondence; and because the connection assembly in the present embodiment is provided with the guide bar 130 capable of providing the pre-positioning guide, the connection male member 110 and the connection female member 120 in the present embodiment can be provided with more connection plates 111 and connection grooves 121 to improve connection stability between the connection male member 110 and the connection female member 120, because the guide bar 130 is already provided, manual careful adjustment is not required at the time of installation to ensure that each connection plate 111 is aligned with the connection groove 121.

In the present embodiment, referring to fig. 5 and 6, a plurality of first screw holes 122 penetrating into the connection groove 121 in the vertical direction are formed at the connection female member 120; a plurality of second screw holes 112 penetrating in the vertical direction are also formed at the connection plate 111 of the connection male member.

In this embodiment, the first screw hole 122 and the second screw hole 112 are used to concentrically fit to screw in a bolt when the connection block is coupled to the connection groove 121.

Specifically, by the pre-limiting adjustment of the guide rod 130, the relative positions between the first screw hole 122 and the second screw hole 112 in the present embodiment can be more accurately concentric, so as to facilitate the screwing and fastening of the subsequent bolts. Therefore, the installation process of the installer is more convenient, the positions of the first screw hole 122 and the second screw hole 112 do not need to be carefully adjusted so that the bolts are screwed in, the work task of the installer is preferably lightened, the whole installation process is more convenient, and the connection stability is also better.

It is to be understood that, based on one or several embodiments provided in the present utility model, those skilled in the art may combine, split, reorganize, etc. the embodiments of the present utility model to obtain other embodiments, which do not exceed the protection scope of the present utility model.

The utility model and its embodiments have been described above by way of illustration and not limitation, and the examples are merely illustrative of embodiments of the utility model and the actual construction is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present utility model.

Claims (10)

1. An assembled building coupling assembling, its characterized in that: the connecting assembly comprises a connecting assembly main body (100), wherein the connecting assembly main body (100) comprises a connecting male piece (110) and a connecting female piece (120) which are mutually spliced and matched along the horizontal and transverse directions;

the outer walls of the connecting male piece (110) and the connecting female piece (120) which are positioned on the same side in the horizontal longitudinal direction are recessed to form accommodating grooves (140), and rotating assemblies (150) which can rotate around a vertical axis are arranged in the two accommodating grooves (140); square guide grooves (410) are formed at the two rotating assemblies (150), and the same guide rod (130) can be arranged in the two guide grooves (410); the guide rods (130) are used for being connected in the two guide grooves (410) in a sliding mode along the horizontal transverse direction when the rotating assembly (150) rotates out of the accommodating groove (140).

2. A fabricated building connection assembly according to claim 1, wherein: the rotating assembly (150) includes a rotating shaft (151) rotatably arranged in a vertical direction and a rotating block (152) fixedly connected to the rotating shaft (151).

3. A fabricated building connection assembly according to claim 2, wherein: the connecting male part (110) or the connecting female part (120) is communicated with a mounting through hole (310) for placing the rotating shaft (151) in the vertical direction, a mounting seat (320) for movably mounting the rotating shaft (151) is formed in the accommodating groove (140), and the rotating shaft (151) is movably mounted between the outer walls of the upper side and the lower side of the connecting male part (110) or the connecting female part (120) through the mounting seat (320) in the vertical direction.

4. A fabricated building connection assembly according to claim 2, wherein: a knob (153) for pulling the rotary shaft (151) is formed on the circumferential inner side of the upper end of the rotary shaft (151).

5. A fabricated building connection assembly according to claim 2, wherein: a limit block (330) is formed on the outer side of the circumference of the upper end of the rotating shaft (151); the upper outer wall of the connecting male part (110) or the connecting female part (120) is provided with a circular arc-shaped limit groove (340) which is matched with the limit block (330).

6. The fabricated building connection assembly of claim 5, wherein: one end of the limiting groove (340) in the extending direction forms a horizontal groove surface (341), and the other end forms a vertical groove surface (342); the horizontal groove surface (341) and the vertical groove surface (342) are used for being abutted against and matched with the limiting block (330) to form limiting.

7. The fabricated building connection assembly according to claim 6, wherein: limiting clamping blocks (350) are formed at the outer walls of two sides of the limiting block (330), and limiting clamping grooves used for being in limiting fit with the limiting clamping blocks (350) are formed at the horizontal groove surface (341) and the vertical groove surface (342) of the limiting groove (340).

8. A fabricated building connection assembly according to any of claims 1-7, wherein: the outer wall of one side of the connecting male part (110) along the horizontal transverse direction is outwards protruded to form a plurality of connecting plates (111) extending along the horizontal transverse direction; a plurality of connecting grooves (121) which are in one-to-one corresponding connection and matching with the connecting plates (111) are formed on the connecting female part (120) along the inner concave part of the outer wall of one side in the horizontal transverse direction.

9. The fabricated building connection assembly of claim 8, wherein: a plurality of first screw holes (122) penetrating into the connecting grooves (121) along the vertical direction are formed at the connecting female part (120); a plurality of second screw holes (112) penetrating in the vertical direction are also formed at the connecting plate (111) of the connecting male member (110).

10. The fabricated building connection assembly of claim 9, wherein: the first screw hole (122) and the second screw hole (112) are used for being concentrically matched to screw in a bolt when the connecting block is connected and matched with the connecting groove (121).