CN210289221U

CN210289221U - A reinforced structure for indoor post of taking out of building

Info

Publication number: CN210289221U
Application number: CN201920852798.0U
Authority: CN
Inventors: 李碧卿; 淳庆; 姜涛; 张钰钦; 李今保; 马江杰; 李虎卿; 丁晓丹
Original assignee: Jiangsu Dongnan Special Engineering &technology Co ltd
Current assignee: Jiangsu Dongnan Special Engineering &technology Co ltd
Priority date: 2019-06-06
Filing date: 2019-06-06
Publication date: 2020-04-10
Anticipated expiration: 2029-06-06

Abstract

The utility model discloses a reinforced structure for indoor post of taking out of building belongs to the building technology field, the supporting layer below is provided with the carrier bar, both ends are all fixed the cup joint respectively on right side support column and left side support column through the connecting sleeve post about the carrier bar, the supporting layer top is provided with the arm-tie, be equipped with a plurality of arm-ties that run through on the arm-tie, the connecting nail post of supporting layer and carrier bar, the screw thread has closed the nut soon on the carrier bar connecting nail post, both parts are connected with left side upper strata support column and right side upper strata support column respectively through a plurality of first pull rods about the arm-tie. The pulling plate of the utility model provides an upward pulling force for the supporting layer above the supporting layer, thereby reducing the load of the bearing beam; the bearing block provides an upward supporting force for the bearing beam at the position of the extraction column, the bearing beam cannot be sunken in the middle, the bearing capacity of the bearing beam is improved, and the supporting lug directly acts on the supporting column above the extraction column to reduce the load of the bearing beam.

Description

A reinforced structure for indoor post of taking out of building

Technical Field

The utility model relates to a take out construction reinforcing apparatus of post, especially relate to a reinforced structure who is used for indoor post of taking out of building belongs to building technical field.

Background

The existing column drawing construction reinforcing device is a cross beam, an independent cross beam structure is used for supporting the top, the cross section height can be large, and the deflection in the middle of the cross beam is large, so that the use can be influenced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a reinforced structure for indoor post of taking out of building, the arm-tie gives ascending pulling force of supporting layer in the supporting layer top, alleviates the load of carrier beam and the supporting layer is firm simultaneously the cross-section height of carrier beam and the amount of deflection of roof beam all less simultaneously more.

The purpose of the utility model can be achieved by adopting the following technical scheme:

a reinforced structure for indoor column drawing of building comprises a left side supporting column, a right side supporting column, a column drawing upper supporting column, a left side upper supporting column and a right side upper supporting column, wherein the left side upper supporting column is fixedly connected with the left side supporting column, the right side upper supporting column is fixedly connected with the right side supporting column, a supporting layer is arranged at the joint of the left side supporting column and the left side upper supporting column and the joint of the right side supporting column and the right side upper supporting column, a bearing beam is arranged below the supporting layer, the left end and the right end of the bearing beam are respectively fixedly sleeved on the right side supporting column and the left side supporting column through connecting sleeve columns, a pulling plate is arranged above the supporting layer, a plurality of connecting nail columns penetrating through the pulling plate, the supporting layer and the bearing beam are arranged on the pulling plate, the nut is screwed on the connecting nail column in a threaded manner below the carrier bar, and the left portion and the right portion of the pulling plate are respectively connected with the left upper supporting column and the right upper supporting column through a plurality of first pulling rods.

Preferably, one of the support layers close to the left support column and one of the support layers close to the right support column are selected as bearing blocks, bearing blocks are arranged below the support column above the drawing column of the bearing beam, and the bearing blocks are connected to the two bearing blocks through second pull rods respectively.

Preferably, a supporting bump penetrating through the bearing beam and connected with the support column above the extraction column is arranged above the bearing block.

Preferably, a plurality of resistance needles are arranged on the inner side of the connecting sleeve column, one end of each resistance needle is inserted into the connecting sleeve column, and the other end of each resistance needle is inserted into the left supporting column or the right supporting column.

Preferably, a stop dog fixedly connected with the left supporting column or the right supporting column is arranged below the connecting sleeve column.

Preferably, a third pull rod is fixedly connected to the connecting sleeve column, and the third pull rod penetrates through the supporting layer and is connected with a baffle.

Preferably, a supporting inclined column is arranged between the connecting sleeve column and the bearing beam.

The utility model has the advantages of:

1. the pull plate provides the supporting layer with an upward pulling force above the supporting layer, so that the load of the bearing beam is reduced, the supporting inclined column provides a supporting force for the bearing beam, the bearing beam is firmer, the bearing beam supports the supporting layer more stably, and the bearing beam is not easy to sink.

2. The bearing block provides an upward supporting force for the bearing beam at the column drawing position, so that the bearing beam is not sunken in the middle, the service life of the bearing beam is prolonged, the supporting strength of the bearing beam is increased, the supporting of the supporting layer is firmer, the supporting lug directly acts on the supporting column above the column drawing position, the load of the bearing beam is reduced, the service life of the bearing beam is prolonged, the supporting of the supporting layer is firmer,

3. the resistance needle makes the connection of connecting sleeve post and left side support column or right side support column inseparabler, make the connection of bearer beam and left side support column or right side support column inseparabler, prevent that the dog makes and can not glide on connecting sleeve post and left side support column or the right side support column, guarantee the stability of bearer beam, fixedly connected with third pull rod on the connecting sleeve post, the third pull rod runs through the supporting layer and is connected with the baffle, make and can not glide on connecting sleeve post and left side support column or the right side support column, guarantee the stability of bearer beam.

Drawings

Fig. 1 is a schematic overall perspective view of a preferred embodiment of a reinforcing structure for an indoor column of a building according to the present invention;

fig. 2 is a schematic partial perspective view of a preferred embodiment of a reinforcing structure for an indoor column of a building according to the present invention;

fig. 3 is a schematic side sectional view of a preferred embodiment of a reinforcing structure for an indoor column of a building according to the present invention;

fig. 4 is a schematic sectional view of a preferred embodiment of a reinforcing structure for an indoor column of a building according to the present invention.

In the figure: 1-right upper support column, 2-left upper support column, 3-upper support column for drawing column, 4-right support column, 5-left support column, 6-bearing beam, 7-pulling plate, 8-connecting sleeve column, 9-bearing block, 10-bearing block, 11-second pull rod, 13-connecting nail column, 14-nut, 15-first pull rod, 16-supporting layer, 17-resistance needle, 18-stopping block, 19-third pull rod, 20-baffle plate, 21-supporting oblique column and 22-supporting convex block.

Detailed Description

In order to make the technical solutions of the present invention clearer and clearer for those skilled in the art, the present invention will be described in further detail with reference to the following embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-4, the reinforcing structure for an indoor column of a building provided in this embodiment includes a left support column 5, a right support column 4, a column 3 above the column, a left upper support column 2 disposed above the left support column 5 and fixedly connected to the left support column 5, and a right upper support column 1 disposed above the right support column 4 and fixedly connected to the right support column 4, a support layer 16 is disposed at a connection position of the left support column 5 and the left upper support column 2, and a connection position of the right support column 4 and the right upper support column 1, a carrier beam 6 is disposed below the support layer 16, both left and right ends of the carrier beam 6 are respectively fixedly connected to the right support column 4 and the left support column 5 through a connection sleeve column 8, a pull plate 7 is disposed above the support layer 16, a plurality of connection studs 13 penetrating through the pull plate 7, the support layer 16, and the carrier beam 6 are disposed on the pull plate 7, the nut 14 is screwed on the connecting nail column 13 below the carrier beam 6, the left part and the right part of the pulling plate 7 are respectively connected with the left upper supporting column 2 and the right upper supporting column 1 through a plurality of first pulling rods 15, the carrier beam 6 supports the supporting layer 16 in the column pulling area, meanwhile, the pulling plate 7 provides upward pulling force for the supporting layer 16 above the supporting layer 16, the load of the carrier beam 6 is reduced, and meanwhile, the supporting of the supporting layer 16 is firmer.

In this embodiment, as shown in fig. 1, one of the support layers 16 close to the left side support column 5 and one of the support layers 16 close to the right side support column 4 are selected as the bearing blocks 9, a bearing block 10 is disposed under the support column 3 above the bearing beam 6, the bearing blocks 10 are respectively connected to the two bearing blocks 9 through the second pull rods 11, and the bearing block 10 provides an upward supporting force for the bearing beam 6 at the column drawing position, so that the bearing beam 6 is not recessed in the middle, the service life of the bearing beam 6 is prolonged, and the supporting strength of the bearing beam 6 is increased, so that the support of the support layers 16 is firmer.

In this embodiment, as shown in fig. 4, a supporting protrusion 22 penetrating through the carrier beam 6 and connected to the support column 3 above the column is disposed above the bearing block 10, and the supporting protrusion 22 directly acts on the support column 3 above the column, so as to reduce the load of the carrier beam 6, increase the service life of the carrier beam 6, and make the support of the support layer 16 more firm.

In this embodiment, as shown in fig. 3, the inner side of the connecting sleeve column 8 is provided with a plurality of resistance needles 17, one end of each resistance needle is inserted into the connecting sleeve column 8, and the other end of each resistance needle is inserted into the left supporting column 5 or the right supporting column 4, so that the connecting sleeve column 8 and the left supporting column 5 or the right supporting column 4 are connected more tightly by the resistance needles 17, and the connection between the carrier beam 6 and the left supporting column 5 or the right supporting column 4 is more tightly connected.

In this embodiment, as shown in fig. 1, a stopping block 18 fixedly connected to the left side supporting column 5 or the right side supporting column 4 is disposed below the connecting sleeve column 8, and the stopping block 18 prevents the connecting sleeve column 8 and the left side supporting column 5 or the right side supporting column 4 from sliding downwards, so as to ensure the stability of the carrier bar 6.

In this embodiment, as shown in fig. 3, the third pull rod 19 is fixedly connected to the connecting sleeve column 8, and the third pull rod 19 penetrates through the supporting layer 16 and is connected to the baffle 20, so that the connecting sleeve column 8 and the left side supporting column 5 or the right side supporting column 4 do not slide down, and the stability of the carrier bar 6 is ensured.

In this embodiment, as shown in fig. 1, a supporting oblique column 21 is disposed between the connecting sleeve column 8 and the load-bearing beam 6, and the supporting oblique column 21 provides a supporting force for the load-bearing beam 6, so that the load-bearing beam 6 is firmer and the load-bearing beam 6 supports the supporting layer 16 more stably.

As shown in fig. 1 to 4, the present embodiment provides a reinforcement structure for an indoor pillar of a building, which operates according to the following principle:

1. the bearing beam 6 supports a support layer 16 in a column drawing area, meanwhile, the pull plate 7 provides an upward pulling force for the support layer 16 above the support layer 16, so that the load of the bearing beam 6 is reduced, the support of the support layer 16 is firmer, and the bearing block 10 provides an upward supporting force for the bearing beam 6 at the column drawing position, so that the bearing beam 6 cannot be sunken in the middle, the service life of the bearing beam 6 is prolonged, the supporting strength of the bearing beam 6 is improved, and the support of the support layer 16 is firmer;

2. the supporting lug 22 directly acts on the supporting column 3 above the pull column, so that the load of the bearing beam 6 is reduced, the service life of the bearing beam 6 is prolonged, the supporting of the supporting layer 16 is firmer, the supporting oblique column 21 provides supporting force for the bearing beam 6, the bearing beam 6 is firmer, and the supporting of the bearing beam 6 on the supporting layer 16 is more stable;

3. resistance needle 17 makes the connection of connecting sleeve post 8 and left side support column 5 or right side support column 4 inseparabler, make the connection of carrier bar 6 and left side support column 5 or right side support column 4 inseparabler, prevent that dog 18 makes and can not glide on connecting sleeve post 8 and left side support column 5 or right side support column 4, guarantee the stability of carrier bar 6, fixedly connected with third pull rod 19 on the connecting sleeve post 8, third pull rod 19 runs through supporting layer 16 and is connected with baffle 20, make and can not glide on connecting sleeve post 8 and left side support column 5 or right side support column 4, guarantee the stability of carrier bar 6.

In summary, in the present embodiment, in the reinforcing structure for an indoor column of a building, the carrier beam 6 supports the support layer 16 in the column-pulling region, and the pulling plate 7 provides an upward pulling force to the support layer 16 above the support layer 16, so as to reduce the load of the carrier beam 6, and make the support of the support layer 16 more firm, the bearing block 10 provides an upward supporting force to the carrier beam 6 at the column-pulling position, so that the carrier beam 6 does not sag in the middle, increase the service life of the carrier beam 6, and increase the supporting strength of the carrier beam 6, so as to make the support of the support layer 16 more firm, the supporting protrusions 22 directly act on the support columns 3 above the column-pulling, reduce the load of the carrier beam 6, increase the service life of the carrier beam 6, make the support of the support layer 16 more firm, and the resistance pins 17 make the connection between the connecting sleeve column 8 and the left support column 5 or the right support, make the connection of carrier bar 6 and left side support column 5 or right side support column 4 inseparabler, prevent that dog 18 makes and can not glide on connecting sleeve post 8 and left side support column 5 or right side support column 4, guarantee the stability of carrier bar 6, fixedly connected with third pull rod 19 on connecting sleeve post 8, third pull rod 19 runs through supporting layer 16 and is connected with baffle 20, make and can not glide on connecting sleeve post 8 and left side support column 5 or right side support column 4, guarantee the stability of carrier bar 6, support batter post 21 and give a holding power of carrier bar 6, make the more firm of carrier bar 6, carrier bar 6 is more stable to the support of supporting layer 16.

The above description is only a further embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can replace or change the technical solution and the concept of the present invention within the scope of the present invention.

Claims

1. A reinforced structure for indoor column of taking out of building which characterized in that: comprises a left side supporting column (5), a right side supporting column (4), a column drawing upper supporting column (3), a left side upper supporting column (2) fixedly connected with the left side supporting column (5) and a right side upper supporting column (1) fixedly connected with the right side supporting column (4) and arranged above the left side supporting column (5), a supporting layer (16) is arranged at the joint of the left side supporting column (5) and the left side upper supporting column (2) and the joint of the right side supporting column (4) and the right side upper supporting column (1), a bearing beam (6) is arranged below the supporting layer (16), the left end and the right end of the bearing beam (6) are respectively and fixedly sleeved on the right side supporting column (4) and the left side supporting column (5) through connecting sleeve columns (8), a pulling plate (7) is arranged above the supporting layer (16), be provided with a plurality of running through on arm-tie (7) supporting layer (16) and connecting nail post (13) of carrier bar (6), carrier bar (6) below is in screw thread closes soon on connecting nail post (13) has nut (14), two portions about arm-tie (7) through a plurality of first pull rod (15) respectively with left side upper support column (2) and right side upper support column (1) are connected.

2. The reinforcing structure for an indoor stud of a building according to claim 1, wherein: one supporting layer (16) close to the left supporting column (5) and one supporting layer (16) close to the right supporting column (4) are selected as bearing blocks (9), bearing blocks (10) are arranged under the supporting column (3) above the drawing column of the bearing beam (6), and the bearing blocks (10) are connected to the two bearing blocks (9) through second pull rods (11) respectively.

3. The reinforcing structure for an indoor stud of a building according to claim 2, wherein: and a supporting convex block (22) which penetrates through the bearing beam (6) and is connected with the support column (3) above the drawing column is arranged above the bearing block (10).

4. The reinforcing structure for an indoor stud of a building according to claim 1, wherein: a plurality of resistance needles (17) with one end inserted in the connecting sleeve column (8) and the other end inserted in the left supporting column (5) or the right supporting column (4) are arranged on the inner side of the connecting sleeve column (8).

5. The reinforcing structure for an indoor stud of a building according to claim 1, wherein: a stop dog (18) fixedly connected with the left side supporting column (5) or the right side supporting column (4) is arranged below the connecting sleeve column (8).

6. The reinforcing structure for an indoor stud of a building according to claim 1, wherein: and a third pull rod (19) is fixedly connected to the connecting sleeve column (8), and the third pull rod (19) penetrates through the supporting layer (16) and is connected with a baffle (20).

7. The reinforcing structure for an indoor stud of a building according to claim 1, wherein: and a supporting inclined column (21) is arranged between the connecting sleeve column (8) and the bearing beam (6).