CN214786212U - Green building engineering frame roof beam reinforced structure - Google Patents

Abstract

The application relates to a green building engineering frame beam reinforced structure, which comprises a reinforcing member arranged along the circumferential direction of a frame column, wherein the reinforcing member comprises a first reinforcing plate and a second reinforcing plate, the first reinforcing plate is used for abutting against the frame column, the second reinforcing plate is used for abutting against a cross beam, the first reinforcing plate and the second reinforcing plate are both used for being arranged at the joint between the frame column and the cross beam, the first reinforcing plate is connected with the frame column through a first connecting piece, and the second reinforcing plate is connected with the cross beam through a second connecting piece; inclined support rods are arranged between the first reinforcing plate and the second reinforcing plate of the same reinforcing member, and two opposite ends of each inclined support rod are respectively installed on the first reinforcing plate and the second reinforcing plate. This application has the effect that improves the junction stability of crossbeam and frame post.

Description

Green building engineering frame roof beam reinforced structure

Technical Field

The application relates to the field of constructional engineering reinforcement, in particular to a green constructional engineering frame beam reinforced structure.

Background

At present, along with the continuous development of society, the requirement of people on living environment is continuously improved, green buildings gradually appear at the eye of people, and in the process of building of green buildings, a frame beam can be used, and the frame beam is spliced together by a section steel rod piece through welding and bolt connection, so that a roof truss structure is formed.

Present, the frame roof beam includes crossbeam and many frame posts, and the crossbeam extends towards the horizontal direction, and the frame post extends towards vertical direction, and many frame posts set up towards the length direction interval of crossbeam, and many frame posts tip and crossbeam welding up.

In view of the above-mentioned related art, the inventor believes that there is a defect that the beam and the frame column of the frame beam are easily broken when vibration occurs during construction due to the connection by welding.

SUMMERY OF THE UTILITY MODEL

In order to improve the junction stability of crossbeam and frame post, the application provides a green building engineering frame roof beam reinforced structure.

The application provides a pair of green building engineering frame roof beam reinforced structure adopts following technical scheme:

a green building engineering frame beam reinforced structure comprises a reinforced member arranged along the circumferential direction of a frame column, wherein the reinforced member comprises a first reinforced plate and a second reinforced plate, the first reinforced plate is abutted against the frame column, the second reinforced plate is abutted against a cross beam, the first reinforced plate and the second reinforced plate are both arranged at the joint between the frame column and the cross beam, the first reinforced plate is connected with the frame column through a first connecting piece, and the second reinforced plate is connected with the cross beam through a second connecting piece; inclined support rods are arranged between the first reinforcing plate and the second reinforcing plate of the same reinforcing member, and two opposite ends of each inclined support rod are respectively installed on the first reinforcing plate and the second reinforcing plate.

By adopting the technical scheme, after the frame column and the cross beam are welded, the first reinforcing plate is abutted against the frame column and positioned at the joint of the frame column and the cross beam, and the second reinforcing plate is abutted against the cross beam and positioned at the joint of the cross beam and the frame column; and finally, the two opposite ends of the diagonal brace are respectively arranged on the first reinforcing plate and the second reinforcing plate, so that the reinforcement between the frame column and the cross beam can be realized, and the stability of the joint of the cross beam and the frame column is improved.

Preferably, it is located same the one end that first gusset plate and the second gusset plate of reinforcement are close to each other all is equipped with the connecting block, and it is same to be located position between first gusset plate and the second gusset plate of reinforcement all is equipped with the articulated shaft, the articulated shaft wears to locate the connecting block of first gusset plate and the connecting block of second gusset plate simultaneously, the relative both ends of articulated shaft all are equipped with the external screw thread, the equal threaded mounting of external screw thread has lock nut, two the connecting block is and is located two between the lock nut.

Through adopting above-mentioned technical scheme, through wearing to locate the connecting block of first gusset plate and the connecting block of second gusset plate simultaneously with the articulated shaft, install the lock nut screw thread at the external screw thread of articulated shaft again after that, until making the lock nut butt at the relative lateral wall of two connecting blocks to dismantlement formula installation improves the practicality between first gusset plate and the second gusset plate.

Preferably, the reinforcing member is adapted to be disposed opposite to opposite sidewalls of the frame post, and the first connecting member includes: the fixing screw rod is used for penetrating through the first reinforcing plate and the frame column at the same time, and the fixing nuts are installed at two opposite ends of the fixing screw rod in a threaded mode.

Through adopting above-mentioned technical scheme, after first gusset plate butt is at the frame post, pass two relative first gusset plates and the frame post that set up simultaneously with fixing screw, twist fixing nut again into fixing screw's relative both ends to can accomplish and carry out stable installation to first gusset plate and frame post.

Preferably, the second connecting member includes: the positioning device comprises a positioning screw rod and a positioning nut, one end of the positioning screw rod is arranged on the cross beam in advance, the other end of the positioning screw rod penetrates through the second reinforcing plate, and the positioning nut is arranged on the positioning screw rod in a threaded mode.

Through adopting above-mentioned technical scheme, make positioning screw pass the second gusset plate when with second gusset plate butt at the crossbeam, rethread set nut twists positioning screw after that to can reach second gusset plate fixed mounting at the crossbeam, this structural installation is stable.

Preferably, first gusset plate and second gusset plate all are equipped with the groove of sliding, the sliding block is installed to the equal sliding in the groove of sliding, the position that just is located the relative both sides of sliding block in the groove of sliding all is equipped with the elastic component, the relative both ends of diagonal brace articulate respectively in the sliding block that is located first gusset plate and the sliding block that is located the second gusset plate.

Through adopting above-mentioned technical scheme, when taking place the vibration between frame post and the crossbeam, can make the sliding block slide in the groove that slides, reach the cushioning effect through the elastic action of elastic component, improve the connection stability of frame post and crossbeam.

Preferably, the sliding groove is a dovetail groove, and the sliding block is a dovetail block.

By adopting the technical scheme, the dovetail groove and the dovetail block are matched with each other, so that the dovetail block can slide in the dovetail groove more stably, and the sliding stability is improved.

Preferably, the first reinforcing plate is provided with an insertion block for being inserted into an insertion groove provided in the frame column in advance.

Through adopting above-mentioned technical scheme, thereby can be when the first gusset plate of installation is at the frame post through being provided with the grafting piece, can improve the installation effectiveness to first gusset plate prepositioning on the frame post.

Preferably, the insertion block is in a circular truncated cone shape, and the cross-sectional area of the insertion block gradually decreases from the first reinforcing plate to the bottom of the insertion groove.

Through adopting above-mentioned technical scheme to it is more smooth and easy in making the grafting piece insert the inserting groove, improves the prepositioning efficiency to first gusset plate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after the frame column and the cross beam are welded, abutting a first reinforcing plate against the frame column and at the joint of the frame column and the cross beam, and abutting a second reinforcing plate against the cross beam and at the joint of the cross beam and the frame column; then, the first reinforcing plate is installed on the frame column through the first connecting piece, the second reinforcing plate is installed on the cross beam through the second connecting piece, and finally, the two opposite ends of the inclined strut are installed on the first reinforcing plate and the second reinforcing plate respectively, so that the purpose of reinforcing the space between the frame column and the cross beam can be achieved, and the stability of the connecting position of the cross beam and the frame column is improved;

2. the hinge shaft is simultaneously penetrated through the connecting block of the first reinforcing plate and the connecting block of the second reinforcing plate, and then the locking nut is screwed on the external thread of the hinge shaft until the locking nut is abutted against the opposite side walls of the two connecting blocks, so that the first reinforcing plate and the second reinforcing plate are detachably mounted, and the practicability is improved;

3. when the vibration takes place between frame post and the crossbeam, can make the sliding block slide in the groove that slides, reach the cushioning effect through the elastic action of elastic component, improve the connection stability of frame post and crossbeam.

Drawings

Fig. 1 is a schematic structural view of the reinforcing member of the present invention installed on a frame column and a cross member.

Figure 2 is a structural cross-sectional view of the reinforcement of the present invention installed in a frame post and a beam.

Fig. 3 is a schematic structural view of a pair of reinforcing members according to the present invention.

Description of reference numerals: 1. a reinforcement; 11. a first reinforcing plate; 111. an insertion block; 12. a second reinforcing plate; 13. connecting blocks; 14. hinging a shaft; 141. an external thread; 142. a locking nut; 15. fixing the screw rod; 16. fixing a nut; 17. a diagonal brace; 18. a sliding groove; 19. a sliding block; 10. an elastic member; 2. a frame column; 21. inserting grooves; 3. a cross beam; 31. positioning a screw rod; 32. and positioning the nut.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The frame beam comprises a cross beam and a plurality of frame columns, the cross section of the cross beam is rectangular, and the cross beam extends towards the horizontal direction; the cross section of frame post is the rectangle form, and many frame posts set up towards the length direction interval of crossbeam, and the one end welding of frame post is in crossbeam one side down, the other end vertical downwardly extending.

The embodiment of the application discloses green building engineering frame roof beam reinforced structure. Referring to fig. 1, a frame beam reinforcing structure including four reinforcing members 1 is provided at a junction between each frame post 2 and the cross beam 3.

Referring to fig. 1 and 2, four reinforcing members 1 are respectively arranged at four side wall positions of a frame column 2 along the circumferential direction, each reinforcing member 1 comprises a first reinforcing plate 11 and a second reinforcing plate 12, one end of each first reinforcing plate 11 is arranged close to the joint of the frame beam and a cross beam 3, the other end of each first reinforcing plate 11 extends downwards in the length direction of the frame beam, and each first reinforcing plate 11 abuts against the outer side wall of the frame column 2; one end of the second reinforcing plate 12 is disposed near the joint of the frame beam and the cross beam 3, and the other end extends downward in the longitudinal direction of the cross beam 3, and the second reinforcing plate 12 abuts on the side of the cross beam 3 near the frame beam.

Referring to fig. 2 and 3, connecting blocks 13 are fixedly mounted at both one end of the first reinforcing plate 11 close to the second reinforcing plate 12 and one end of the second reinforcing plate 12 close to the first reinforcing plate 11, a hinge shaft 14 is disposed at the connecting block 13 of the first reinforcing plate 11 and the connecting block 13 of the second reinforcing plate 12, the hinge shaft 14 simultaneously penetrates through the two connecting blocks 13, and the hinge shaft 14 is rotatably connected with the connecting blocks 13; the outer side walls of the two opposite ends of the hinge shaft 14 are provided with external threads 141, locking nuts 142 are installed at the positions, where the external threads 141 are arranged, of the hinge shaft 14 in a threaded manner, and the two locking nuts 142 abut against the connecting block 13, so that the detachable connection of the first reinforcing plate 11 and the second reinforcing plate 12 can be completed.

The two first reinforcing plates 11 positioned on two opposite sides of the frame column 2 are a pair, each pair of first reinforcing plates 11 is arranged on the outer side wall of the frame column 2 through a first connecting piece, each first connecting piece comprises a fixing screw rod 15 and a fixing nut 16, and the fixing screw rods 15 simultaneously penetrate through the two first reinforcing plates 11 and the frame column 2 of the same pair; the two fixing nuts 16 are arranged, the two fixing nuts 16 are respectively installed at two opposite ends of the fixing screw rod 15 in a threaded mode, and the two fixing nuts 16 are abutted to one side, away from the frame column 2, of the first reinforcing plate 11, so that the detachable connection between the first reinforcing plate 11 and the frame column 2 can be completed.

One side that first gusset plate 11 is close to frame post 2 all is provided with insertion piece 111, the position that the lateral wall of frame post 2 corresponds insertion piece 111 all is provided with inserting groove 21, the one end fixed mounting of insertion piece 111 all is in first gusset plate 11, the other end extends towards the direction of inserting groove 21 and inserts in inserting groove 21, and the cross-sectional area of insertion piece 111 reduces gradually towards the tank bottom direction of inserting groove 21 from first gusset plate 11, thereby can fix first gusset plate 11 when frame post 2, carry out prepositioning to first gusset plate 11.

Every second gusset plate 12 all installs the lateral wall at crossbeam 3 through the second connecting piece, the second connecting piece includes positioning screw 31 and set nut 32, positioning screw 31's one end fixed mounting is at crossbeam 3, the other end vertical downwardly extending of orientation just wears to locate second gusset plate 12, set nut 32 screw thread is installed in the one end that crossbeam 3 was kept away from at positioning screw 31, set nut 32 butt is close to one side of crossbeam 3 at second gusset plate 12, thereby can accomplish to be connected the dismantlement formula between second gusset plate 12 and the crossbeam 3.

Referring to fig. 2 and 3, a sliding groove 18 is formed in each side of the first reinforcing plate 11, which is far away from the frame column 2, and each side of the second reinforcing plate 12, which is far away from the cross beam 3, the sliding grooves 18 extend in the length direction of the first reinforcing plate 11 or the second reinforcing plate 12, each sliding groove 18 is a dovetail groove, a sliding block 19 is slidably mounted in each sliding groove 18, and each sliding block 19 is a dovetail block; an inclined strut 17 is arranged between the first reinforcing plate 11 and the second reinforcing plate 12 of the same reinforcing member 1, and the opposite ends of the inclined strut 17 are respectively hinged to a sliding block 19 positioned on the first reinforcing plate 11 and a sliding block 19 positioned on the second reinforcing plate 12; the relative both ends position that the groove 18 that slides is located the sliding block 19 on the slip direction all is provided with elastic component 10, and elastic component 10 is the spring, and the one end fixed mounting of elastic component 10 is at the tip of sliding block 19, other end fixed mounting at the groove 18 that slides to can make and have the cushioning effect between frame post 2 and the crossbeam 3.

The implementation principle of the frame beam reinforced structure of the green building engineering in the embodiment of the application is as follows: after the frame column 2 and the cross beam 3 are welded, the first reinforcing plate 11 is abutted against the frame column 2, and the insertion block 111 is inserted into the insertion groove 21; abutting the second reinforcing plate 12 against the cross beam 3, enabling the positioning screw 31 to penetrate through the second reinforcing plate 12, and screwing the positioning nut 32 into the positioning screw 31 to complete installation of the second reinforcing plate 12; then, the fixing screw 15 is simultaneously passed through the two first reinforcing plates 11 and the frame column 2 of the same pair, and the fixing nut 16 is screwed into the fixing screw 15 to complete the installation of the first reinforcing plate 11, so that the reinforcement between the frame column 2 and the cross beam 3 can be achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The green constructional engineering frame beam reinforcing structure is characterized by comprising a reinforcing member (1) arranged along the circumferential direction of a frame column (2), wherein the reinforcing member (1) comprises a first reinforcing plate (11) and a second reinforcing plate (12), the first reinforcing plate (11) is used for abutting against the frame column (2), the second reinforcing plate (12) is used for abutting against a cross beam (3), the first reinforcing plate (11) and the second reinforcing plate (12) are both used for being arranged at the joint between the frame column (2) and the cross beam (3), the first reinforcing plate (11) is connected with the frame column (2) through a first connecting piece, and the second reinforcing plate (12) is connected with the cross beam (3) through a second connecting piece; inclined struts (17) are arranged between the first reinforcing plate (11) and the second reinforcing plate (12) of the same reinforcing member (1), and two opposite ends of each inclined strut (17) are respectively installed on the first reinforcing plate (11) and the second reinforcing plate (12).

2. The green construction engineering frame beam reinforcement structure according to claim 1, wherein connecting blocks (13) are respectively arranged at the ends, close to each other, of the first reinforcing plate (11) and the second reinforcing plate (12) of the same reinforcement member (1), hinge shafts (14) are respectively arranged at the positions between the first reinforcing plate (11) and the second reinforcing plate (12) of the same reinforcement member (1), the hinge shafts (14) are simultaneously arranged in the connecting blocks (13) of the first reinforcing plate (11) and the connecting blocks (13) of the second reinforcing plate (12) in a penetrating manner, external threads (141) are respectively arranged at the two opposite ends of the hinge shafts (14), locking nuts (142) are respectively installed on the external threads (141) in a threaded manner, and the two connecting blocks (13) are respectively arranged between the two locking nuts (142).

3. A green construction work frame beam reinforcement structure according to claim 2, wherein the reinforcement members (1) are adapted to be oppositely disposed at opposite side walls of the frame post (2), and the first connecting member comprises: the fixing device comprises a fixing screw rod (15) and a fixing nut (16), wherein the fixing screw rod (15) is used for simultaneously penetrating through the first reinforcing plate (11) and the frame column (2), and the fixing nut (16) is installed at two opposite ends of the fixing screw rod (15) in a threaded mode.

4. A green construction work frame beam reinforcement structure according to claim 3, wherein said second connector comprises: positioning screw (31) and set nut (32), the one end of positioning screw (31) is used for installing in advance in crossbeam (3), and the second gusset plate (12) is worn to locate by the other end, set nut (32) threaded mounting is in positioning screw (31).

5. A green building engineering frame beam reinforcement structure according to claim 1, wherein the first reinforcement plate (11) and the second reinforcement plate (12) are provided with sliding grooves (18), sliding blocks (19) are slidably mounted in the sliding grooves (18), elastic members (10) are arranged in the sliding grooves (18) and at positions on two opposite sides of the sliding blocks (19), and two opposite ends of the diagonal brace (17) are hinged to the sliding blocks (19) of the first reinforcement plate (11) and the sliding blocks (19) of the second reinforcement plate (12) respectively.

6. A green building engineering frame beam reinforcement structure according to claim 5, characterized in that the sliding grooves (18) are dovetail grooves, and the sliding blocks (19) are dovetail blocks.

7. A green construction work frame beam reinforcement structure according to claim 1, wherein the first reinforcement plate (11) is provided with an insertion block (111) for insertion into an insertion groove (21) provided in advance in the frame post (2).

8. The green constructional engineering frame beam reinforcement structure of claim 7, wherein the insertion block (111) is in a circular truncated cone shape, and the cross-sectional area of the insertion block (111) is gradually reduced from the first reinforcing plate (11) toward the bottom of the insertion groove (21).

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