CN211007049U - Assembly type middle layer beam column connecting piece and assembly type middle layer beam column mounting structure - Google Patents

Abstract

The utility model relates to an assembled intermediate layer beam column connecting piece, including two straight face risers that relative parallel arrangement, be provided with the connection riser that is used for connecting two risers between two straight face risers, the connection riser is connected with straight face riser is perpendicular, and the connection riser is connected in the middle part of two straight face risers, the space between two straight face risers is separated into installation through groove and mounting groove by the connection riser, two straight face risers and connection riser are provided with the fixed support board that is used for supporting floor beam in the mounting groove, the fixed support board is perpendicular with the connection riser; one sides of the two straight vertical plates, which are far away from the connecting vertical plate, are provided with U-shaped mounting parts for mounting the wallboard beams; two vertical face risers are seted up respectively and are used for the first fixed orifices of fixed heel post and are located the relative setting of fixed orifices of two vertical face risers. It can realize fixed between a post and a plurality of roof beams, has the fixed number of times and the advantage that reduces installation labour and installation time when reducing the installation.

Description

Assembly type middle layer beam column connecting piece and assembly type middle layer beam column mounting structure

Technical Field

The utility model relates to an assembled steel structural member field, in particular to assembled intermediate level beam column connecting piece and assembled intermediate level beam column mounting structure.

Background

The cross beam and the upright post at the side part of the conventional fabricated steel structure building are directly connected through welded flange plates on the cross beam and the upright post, the connecting structure only bears shearing force, bending moment and torque between beam columns through bolts between the flange plates, the overall rigidity of the beam column connecting part is limited, lifting equipment is required to be matched in the whole process during assembly, the operation difficulty is high, and the construction period is long. Because the cross beams are arranged on the side parts of the upright columns of the side parts of the fabricated steel structure building, in order to reserve an operation space for bolts of the flange plates, the cross beams must be provided with height differences, and the cross beams cannot be arranged on the same horizontal height, so that the floor plates of the building have fall.

Current application bulletin date is 2019.04.02, the patent document of grant bulletin number CN109555223A discloses a precast beam column connecting piece, including lower part rectangle steel sheet, lower part rectangle steel sheet a pair of parallel side wherein all is connected with the curb plate, one of them side in the other both sides of lower part rectangle steel sheet is connected with back rectangle steel sheet, back rectangle steel sheet and curb plate back to the upper and lower surface that sets up at lower part rectangle steel sheet, the curb plate is perpendicular with lower part rectangle steel sheet, the curb plate is provided with first screw hole, back rectangle steel sheet is all perpendicular with both sides board and lower part rectangle steel sheet, back rectangle steel sheet is provided with the second screw hole.

However, this precast beam column connecting piece can only fix a post and a roof beam, then need a plurality of precast beam column connecting pieces to being connected between a post and a plurality of roof beams, need fixed many times when the installation, though improved the bulk rigidity of beam column junction, but need lift by crane whole journey cooperation of equipment during the assembly, extravagant installation time and installation manpower, consequently, this precast beam column connecting piece needs to be fixed many times to being connected between a post and a plurality of roof beams, and the installation is loaded down with trivial details, wastes time and energy.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an assembled intermediate level beam column connecting piece, the device can realize fixed between a post and a plurality of roof beam, fixed number of times when reducing the installation to reduce installation labour and installation time.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the assembly type intermediate layer beam column connecting piece comprises two straight face vertical plates which are arranged in parallel relatively, a connecting vertical plate used for connecting the two vertical plates is arranged between the two straight face vertical plates, the connecting vertical plate is vertically connected with the straight face vertical plates, the connecting vertical plate is connected to the middle parts of the two straight face vertical plates, the connecting vertical plate divides the space between the two straight face vertical plates into an installation through groove used for installing a bearing column and an installation groove used for installing a floor beam, a fixed supporting plate used for supporting the floor beam is arranged at the installation groove of the two straight face vertical plates and the connecting vertical plate, and the fixed supporting plate is perpendicular to the connecting vertical plate; one sides of the two straight vertical plates, which are far away from the connecting vertical plate, are provided with U-shaped mounting parts for mounting the wallboard beams; two the straight face riser is offered the first fixed orifices that is used for fixed heel post respectively and is located the relative setting of fixed orifices of two straight face risers, or/and the second fixed orifices that is used for fixed heel post is offered to the connection riser.

Through adopting above-mentioned technical scheme, when connecting middle level beam column, lead to the groove with the installation of connecting piece and install on the heel post, it is fixed with connecting piece and heel post through first fixed orifices or second fixed orifices, install the floor roof beam in the mounting groove and make the lower surface and the fixed bolster upper surface butt of floor roof beam support fixedly, install the wallboard roof beam in the U type installed part and support fixedly through U type installed part to it. Therefore, the utility model discloses can realize having the fixed number of times when reducing the installation to fixing between a post and a plurality of roof beams to reduce installation labour and installation time's advantage.

The utility model discloses further set up to: and the upper surface of the fixed supporting plate is provided with a secondary supporting mechanism for supporting the floor beam.

Through adopting above-mentioned technical scheme, can strengthen the support to the floor roof beam through inferior supporting mechanism to make the floor roof beam more firm.

The utility model discloses further set up to: the secondary supporting mechanism comprises a movable supporting plate and a height adjusting assembly, the movable supporting plate is used for supporting the floor beam, the height adjusting assembly is arranged between the movable supporting plate and the fixed supporting plate and used for adjusting the distance between the movable supporting plate and the fixed supporting plate, and the movable supporting plate and the fixed supporting plate are arranged in parallel.

Through adopting above-mentioned technical scheme, through the cooperation that removes backup pad and altitude mixture control subassembly, realize removing the backup pad and fixed support plate between the interval adjust to the realization supports the floor roof beam that the cross-section height dimension is different.

The utility model discloses further set up to: the height adjusting assembly comprises a first screw rod fixedly arranged on the upper surface of the fixed supporting plate, a second screw rod fixedly arranged on the lower surface of the movable supporting plate and a threaded sleeve sleeved on the upper end of the first screw rod and the lower end of the second screw rod, the threaded sleeve is in threaded connection with the first screw rod and the second screw rod respectively, and the thread spiral directions of the first screw rod and the second screw rod are opposite.

Through adopting above-mentioned technical scheme, the screw thread screw direction of first screw rod and second screw rod is opposite, and rotatory screw sleeve makes screw sleeve and second screw rod syntropy move, realizes the regulation of height through forward rotation or reverse rotation screw sleeve.

The utility model discloses further set up to: the one end that removes the backup pad and be close to connecting the riser is provided with the guide bar, connecting the riser and having seted up vertical bar hole, the guide bar slides and connects in vertical bar hole.

Through adopting above-mentioned technical scheme, realize the direction to removing the backup pad through guide bar and vertical bar hole cooperation.

The utility model discloses further set up to: the movable supporting plate is provided with a threaded hole, the end part of the guide rod is provided with an external thread, and the guide rod is in threaded connection with the movable supporting plate.

Through adopting above-mentioned technical scheme, realize the connection of guide bar and removal backup pad through the screw thread.

The utility model discloses further set up to: the outer peripheral face of guide bar is provided with spacing outer bulge loop, connect the riser and be located between removal backup pad and the spacing outer bulge loop.

Through adopting above-mentioned technical scheme, realize removing the backup pad and connect the fixed between the riser through guide bar and spacing outer bulge loop.

The above technical purpose of the present invention can be achieved by the following technical solutions:

assembled intermediate level beam column mounting structure, including floor roof beam, wallboard roof beam and spandrel column, still include above-mentioned assembled intermediate level beam column connecting piece.

Through adopting above-mentioned technical scheme, realize fixed and being connected the support of floor roof beam, wallboard roof beam and spandrel column through above-mentioned assembled intermediate level beam column connecting piece.

The above technical purpose of the present invention can be achieved by the following technical solutions:

assembled intermediate level beam column mounting structure, including floor roof beam, wallboard roof beam and heel post, the floor roof beam is transversal personally submits the rectangle setting, the aforesaid assembled intermediate level beam column connecting piece, the diapire of floor roof beam is seted up and is supplied the groove of stepping down that inferior supporting mechanism passes through.

By adopting the technical scheme, the assembled middle-layer beam column connecting piece is used for supporting, fixing and connecting the floor beam, the wallboard beam and the bearing column, and the installation between the floor beam and the secondary supporting mechanism is realized through the abdicating groove of the floor beam.

To sum up, the utility model discloses following beneficial effect has: when connecting middle floor beam column, lead to the groove with the installation of connecting piece and install on the heel post, it is fixed with the heel post through first fixed orifices or second fixed orifices, install the floor roof beam in the mounting groove and make the lower surface of floor roof beam support fixedly with the fixed bolster upper surface butt, install the U type installed part with the wallboard roof beam and support fixedly. Therefore, the utility model discloses can realize having the fixed number of times when reducing the installation to fixing between a post and a plurality of roof beams to reduce installation labour and installation time's advantage.

Drawings

FIG. 1 is a schematic view of the overall structure of embodiment 1;

FIG. 2 is a schematic view of the entire structure of embodiment 2;

FIG. 3 is a schematic view of the entire structure of embodiment 3;

FIG. 4 is a front view of embodiment 3;

FIG. 5 is a sectional view taken along line A-A of example 3;

FIG. 6 is an exploded view of example 4;

FIG. 7 is a schematic view of the entire structure of embodiment 4.

In the figure: 1. a straight vertical plate; 11. a first fixing hole; 12. a third fixing hole; 2. connecting a vertical plate; 21. a second fixing hole; 22. a vertical strip-shaped hole; 3. fixing the support plate; 31. a fourth fixing hole; 4. a U-shaped mounting member; 41. a vertical plate; 411. a fifth fixing hole; 42. supporting the transverse plate; 5. a secondary support mechanism; 51. moving the support plate; 511. a guide bar; 5111. a limiting convex ring; 512. a threaded hole; 52. a height adjustment assembly; 521. a first screw; 522. a second screw; 523. a threaded sleeve; 6. a floor beam; 61. a yielding groove; 7. a wallboard beam; 8. a load-bearing column.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1: an assembly type intermediate layer beam column connecting piece is shown in figure 1 and comprises two straight face vertical plates 1, wherein the two straight face vertical plates 1 are arranged in parallel, a connecting vertical plate 2 is integrally formed between the two straight face vertical plates 1, the connecting vertical plate 2 is positioned in the middle of the two straight face vertical plates 1 and is vertical to the two straight face vertical plates 1, the connecting vertical plate 2 divides the space between the two straight face vertical plates 1 into an installation through groove and an installation groove, six first fixing holes 11 are formed in the installation through groove of the two straight face vertical plates 1, and the first fixing holes 11 of the two straight face vertical plates 1 are arranged oppositely; three third fixing holes 12 are formed in the mounting grooves of the two straight vertical plates 1, the third fixing holes 12 of the two straight vertical plates 1 are arranged oppositely, and the connecting vertical plate 2 is provided with six second fixing holes 21; two vertical face risers 1 and connection riser 2 are provided with fixing support plate 3 in mounting groove department integrated into one piece, fixing support plate 3 be located the bottom of connecting riser 2 and with be connected riser 2 perpendicular, fixing support plate 3 is the U type with two vertical face risers 1, and fixing support plate 3 has seted up two fourth fixed orificess 31.

The U-shaped mounting pieces 4 are integrally formed on one sides, far away from the connecting vertical plates 2, of the two straight vertical plates 1 respectively, the U-shaped mounting pieces 4 are located at the upper ends, close to the mounting through grooves, of the straight vertical plates 1, each U-shaped mounting piece 4 comprises a supporting transverse plate 42 and two vertical plates 41, the two vertical plates 41 are respectively provided with two fifth fixing holes 411, and the fifth fixing holes 411 of the two vertical plates 41 are arranged oppositely; the supporting horizontal plate 42 is provided with two sixth fixing holes.

Example 2: the assembly type middle layer beam-column mounting structure is shown in the combined figures 1 and 2 and comprises a floor beam 6, a wallboard beam 7 and a bearing column 8 and an assembly type middle layer beam-column connecting piece in the embodiment 1.

The bearing column 8 is inserted into the installation through groove, the bearing column 8 is attached to the wall of the installation groove, a first fastening bolt penetrating through the bearing column 8 penetrates through a first fixing hole 11 arranged oppositely, and a first fastening nut is connected to the end of the first fastening bolt (the first fastening bolt and the first fastening nut are not shown in the figure); a second fastening bolt penetrating through the bearing column 8 is arranged in the second fixing hole 21, and a second fastening nut (the second fastening bolt and the second fastening nut are not shown in the figure) is connected to the end of the second fastening bolt; the first fastening bolt and the second fastening bolt are perpendicular to each other and do not contact with each other.

The floor beam 6 is placed in the mounting groove, the lower surface of the floor beam 6 is abutted against the upper surface of the fixed support plate 3, a third fastening bolt penetrating through the floor beam 6 is arranged in a third fixing hole 12 which is arranged oppositely, and the end part of the third fastening bolt is connected with a third fastening nut (the third fastening bolt and the third fastening nut are not shown in the figure); a fourth fastening bolt penetrating through the bearing column 8 is arranged in the fourth fixing hole 31, and a fourth fastening nut (the fourth fastening bolt and the fourth fastening nut are not shown in the figure) is connected to the end of the fourth fastening bolt; the third fastening bolt and the fourth fastening bolt are perpendicular to each other and do not contact with each other.

The wallboard beam 7 is inserted into the U-shaped mounting member 4, the lower surface of the wallboard beam 7 abuts against the upper surface of the supporting transverse plate 42, a fifth fastening bolt penetrating through the floor beam 6 is arranged in the fifth fixing hole 411 in an opposite mode, and a fifth fastening nut is connected to the end portion of the fifth fastening bolt (the fifth fastening bolt and the fifth fastening nut are not shown in the figure); a sixth fastening bolt penetrating through the bearing column 8 is arranged in the sixth fixing hole in a penetrating manner, and a sixth fastening nut is connected to the end of the sixth fastening bolt (the sixth fastening bolt and the sixth fastening nut are not shown in the figure); the fifth fastening bolt and the sixth fastening bolt are arranged perpendicular to each other, and the fifth fastening bolt and the sixth fastening bolt are not in contact.

Example 3: the fabricated middle deck beam column connection member, as shown in fig. 3, is different from embodiment 1 in that the upper surface of the fixed supporting plate 3 is provided with a sub-supporting mechanism 5 for supporting the floor beam 6.

As shown in fig. 4 and 5 in conjunction, the secondary support mechanism 5 includes a movable support plate 51 and a height adjustment assembly 52.

The moving support plate 51 is disposed in parallel with the fixed support plate 3.

The height adjustment assembly 52 is disposed between the moving support plate 51 and the fixed support plate 3. The height adjustment assembly 52 includes a first screw 521, a second screw 522, and a threaded sleeve 523. The first screw 521 is perpendicular to the fixed support plate 3, the lower end of the first screw 521 is welded on the upper surface of the fixed support plate 3, and the first screw 521 is located in the middle of the fixed support plate 3 and is close to the connecting vertical plate 2; the second screw rod 522 is perpendicular to the movable support plate 51, and the upper end of the second screw rod 522 is welded on the lower surface of the movable support plate 51; the upper end of the first screw 521 and the lower end of the second screw 522 are sleeved with the threaded sleeve 523, the screw threads of the first screw 521 and the second screw 522 are opposite in spiral direction, screw threads opposite in spiral direction are arranged at two ends of the inner wall of the threaded sleeve 523, the lower portion of the threaded sleeve 523 is in threaded connection with the first screw 521, and the upper portion of the threaded sleeve 523 is in threaded connection with the second screw 522.

A threaded hole 512 is formed in one end, close to the connecting vertical plate 2, of the movable supporting plate 51, a guide rod 511 is installed in the threaded hole 512, an external thread matched with the threaded hole 512 is arranged at the connecting end, close to the connecting vertical plate 2, of the guide rod 511, and the movable supporting plate 51 is in threaded connection with the guide rod 511; the guide rod 511 and the external peripheral surface of the non-connecting end of the movable support plate 51 are integrally formed with a limiting convex ring 5111, the connecting vertical plate 2 is provided with a vertical strip-shaped hole 22 at the connecting part of the connecting vertical plate and the guide rod 511, and the connecting vertical plate 2 is positioned between the movable support plate 51 and the limiting convex ring 5111.

Example 4: the fabricated middle-layer beam-column mounting structure, shown in fig. 6 and 7, includes a floor beam 6, a wall plate beam 7, and a load-bearing column 8, and a fabricated middle-layer beam-column connecting member as in embodiment 3. The cross section of the floor beam 6 is rectangular, and the bottom wall of the floor beam 6 is provided with a abdicating groove 61 for the first screw 521 to pass through; the holding tank that is used for holding spacing evagination ring 5111 is seted up to heel post 8, and the cross section of holding tank is greater than the cross section (vertical bar hole is shown in fig. 5) of vertical bar hole 22, and spacing evagination ring 5111 is located the holding tank.

According to the height of the rectangular cross section of the floor beam 6, the threaded sleeve 523 is rotated to adjust the distance between the fixed support plate 3 and the movable support plate 51, so that the distance between the lower surface of the floor beam 6 and the inner top wall thereof is equal to the distance between the fixed support plate 3 and the movable support plate 51, and the movable support rod is fastened with the connecting vertical plate 2 by adjusting the guide rod 511.

The bearing column 8 is inserted into the installation through groove, the bearing column 8 is attached to the wall of the installation groove, a first fastening bolt penetrating through the bearing column 8 penetrates through a first fixing hole 11 arranged oppositely, and a first fastening nut is connected to the end of the first fastening bolt (the first fastening bolt and the first fastening nut are not shown in the figure); a second fastening bolt penetrating through the bearing column 8 is arranged in the second fixing hole 21, and a second fastening nut (the second fastening bolt and the second fastening nut are not shown in the figure) is connected to the end of the second fastening bolt; the first fastening bolt and the second fastening bolt are perpendicular to each other and do not contact with each other.

The floor beam 6 is placed in the mounting groove, the first screw 521 penetrates through the abdicating groove 61, the lower surface of the floor beam 6 is abutted against the upper surface of the fixed supporting plate 3, and the upper surface of the movable supporting plate 51 is abutted against the inner top wall of the floor beam 6. Third fastening bolts penetrating through the floor beam 6 are arranged opposite to the third fixing holes 12, and the end parts of the third fastening bolts are connected with third fastening nuts (the third fastening bolts and the third fastening nuts are not shown in the figure); a fourth fastening bolt penetrating through the bearing column 8 is arranged in the fourth fixing hole 31, and a fourth fastening nut (the fourth fastening bolt and the fourth fastening nut are not shown in the figure) is connected to the end of the fourth fastening bolt; the third fastening bolt and the fourth fastening bolt are perpendicular to each other and do not contact with each other.

The wallboard beam 7 is inserted into the U-shaped mounting member 4, the lower surface of the wallboard beam 7 abuts against the upper surface of the supporting transverse plate 42, a fifth fastening bolt penetrating through the floor beam 6 is arranged in the fifth fixing hole 411 in an opposite mode, and a fifth fastening nut is connected to the end portion of the fifth fastening bolt (the fifth fastening bolt and the fifth fastening nut are not shown in the figure); a sixth fastening bolt penetrating through the bearing column 8 is arranged in the sixth fixing hole in a penetrating manner, and a sixth fastening nut is connected to the end of the sixth fastening bolt (the sixth fastening bolt and the sixth fastening nut are not shown in the figure); the fifth fastening bolt and the sixth fastening bolt are arranged perpendicular to each other, and the fifth fastening bolt and the sixth fastening bolt are not in contact.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The assembly type middle layer beam column connecting piece is characterized by comprising two straight face vertical plates (1) which are arranged in parallel relatively, a connecting vertical plate (2) used for connecting the two vertical plates is arranged between the two straight face vertical plates (1), the connecting vertical plate (2) is vertically connected with the straight face vertical plate (1), the connecting vertical plate (2) is connected to the middle parts of the two straight face vertical plates (1), the connecting vertical plate (2) divides the space between the two straight face vertical plates (1) into an installation through groove used for installing a bearing column (8) and an installation groove used for installing a floor beam (6), a fixed supporting plate (3) used for supporting the floor beam (6) is arranged at the installation groove of the two straight face vertical plates (1) and the vertical plate connecting (2), and the fixed supporting plate (3) is perpendicular to the connecting vertical plate (2);

one sides of the two straight vertical plates (1) far away from the connecting vertical plate (2) are provided with U-shaped mounting pieces (4) for mounting wallboard beams (7);

two the first fixed orifices (11) that are used for fixed bearing column (8) and the fixed orifices that are located two vertical face risers (1) are seted up respectively in vertical face riser (1) and are set up relatively, or/and second fixed orifices (21) that are used for fixed bearing column (8) are seted up in connection riser (2).

2. Fabricated intermediate deck beam-column connection according to claim 1, characterized in that the upper surface of the fixed support plate (3) is provided with secondary support means (5) for supporting a floor beam (6).

3. The fabricated middle-deck beam-column connection according to claim 1, wherein the secondary support mechanism (5) comprises a moving support plate (51) for supporting the floor beam (6) and a height adjustment assembly (52) disposed between the moving support plate (51) and the fixed support plate (3) and for adjusting a distance between the moving support plate (51) and the fixed support plate (3), the moving support plate (51) being disposed in parallel with the fixed support plate (3).

4. The fabricated middle-layer beam-column connecting piece according to claim 3, wherein the height adjusting assembly (52) comprises a first screw (521) fixedly arranged on the upper surface of the fixed support plate (3), a second screw (522) fixedly arranged on the lower surface of the movable support plate (51), and a threaded sleeve (523) sleeved on the upper end of the first screw (521) and the lower end of the second screw (522), the threaded sleeve (523) is respectively in threaded connection with the first screw (521) and the second screw (522), and the thread spiral directions of the first screw (521) and the second screw (522) are opposite.

5. The assembled intermediate layer beam-column connecting piece of claim 4, wherein one end of the movable supporting plate (51) close to the connecting vertical plate (2) is provided with a guide rod (511), the connecting vertical plate (2) is provided with a vertical strip-shaped hole (22), and the guide rod (511) is connected to the vertical strip-shaped hole (22) in a sliding manner.

6. The fabricated middle-layer beam-column connecting piece as claimed in claim 5, wherein the movable supporting plate (51) is provided with a threaded hole (512), the end part of the guide rod (511) is provided with an external thread, and the guide rod (511) is in threaded connection with the movable supporting plate (51).

7. The fabricated intermediate floor beam-column connection according to claim 6, wherein the guide bar (511) is provided at its outer circumferential surface with a limit outward-protruding ring (5111), and the connection riser (2) is located between the movable support plate (51) and the limit outward-protruding ring (5111).

8. Assembled intermediate deck beam column mounting structure, including floor beam (6), wallboard beam (7) and heel post (8), characterized by, still include assembled intermediate deck beam column connecting piece according to claim 1.

9. Assembly type middle layer beam column installation structure comprises a floor beam (6), a wallboard beam (7) and a bearing column (8), wherein the cross section of the floor beam (6) is rectangular, the assembly type middle layer beam column connecting piece is characterized by further comprising the assembly type middle layer beam column connecting piece according to any one of claims 2 to 7, and a yielding groove (61) for the secondary supporting mechanism (5) to pass through is formed in the bottom wall of the floor beam (6).

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