CN214784109U - Pre-buried reinforcing frame of steel construction rag bolt - Google Patents

Abstract

The application relates to a steel structure foundation bolt pre-buried reinforcing frame, which comprises a connecting frame, wherein a first through hole for a foundation bolt to pass through is formed in the connecting frame, a limiting mechanism is arranged on the connecting frame and comprises a connecting block, a clamping block, an adjusting assembly and a connecting assembly, the connecting block is abutted against the connecting frame, and the connecting block is connected to the connecting frame through the connecting assembly; the connecting block is provided with two sliding grooves, the two clamping blocks are connected to two ends of the sliding grooves in a sliding mode respectively, the adjusting assembly is arranged on the connecting block, and the two clamping blocks are connected with the adjusting assembly. This application can improve rag bolt's welding effect.

Description

Pre-buried reinforcing frame of steel construction rag bolt

Technical Field

The application relates to the technical field of building construction, especially, relate to a pre-buried reinforcing frame of steel construction rag bolt.

Background

Anchor bolts, also known as short anchor bolts, are used in conjunction with the poured foundation to secure the equipment against strong vibration and shock.

At present, the chinese patent with the publication number of grant CN203129161U discloses a pre-buried reinforcing frame of steel construction rag bolt, include the joist that forms by the shaped steel welding and the rag bolt gasket of welding in the rag bolt bottom, the joist includes upper joist and lower floor's joist, upper joist and lower floor's joist are formed by the shaped steel of horizontal setting and the shaped steel welding of vertical setting, the shaped steel of horizontal setting is equipped with the bolt hole with the shaped steel handing-over department of vertical setting, upper joist and lower floor's joist and the rag bolt welding of wearing to establish in the bolt hole become an organic whole.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the foundation bolt penetrates through the threaded hole and is welded on the upper-layer joist and the lower-layer joist, the foundation can move relative to the upper-layer joist and the lower-layer joist, and therefore the welding effect is influenced.

SUMMERY OF THE UTILITY MODEL

In order to improve rag bolt's welding effect, this application provides a pre-buried reinforcing frame of steel construction rag bolt.

The application provides a pair of pre-buried reinforcing frame of steel construction rag bolt adopts following technical scheme:

a steel structure foundation bolt pre-buried reinforcing frame comprises a connecting frame, wherein a first through hole for a foundation bolt to pass through is formed in the connecting frame, a limiting mechanism is arranged on the connecting frame and comprises a connecting block, a clamping block, an adjusting assembly and a connecting assembly, the connecting block abuts against the connecting frame, and the connecting block is connected to the connecting frame through the connecting assembly; the connecting block is provided with two sliding grooves, the two clamping blocks are connected to two ends of the sliding grooves in a sliding mode respectively, the adjusting assembly is arranged on the connecting block, and the two clamping blocks are connected with the adjusting assembly.

By adopting the technical scheme, the connecting plate is connected to the connecting frame through the connecting assembly, then the bolt penetrates through the first through hole in the connecting frame, then the adjusting assembly is started, the adjusting assembly drives the two clamping blocks to move oppositely in the sliding groove, so that the two clamping blocks clamp the foundation bolt, and finally the foundation bolt is welded on the connecting frame; the limiting mechanism can improve the welding effect of the foundation bolt.

Optionally, the adjusting assembly includes an adjusting motor and a bidirectional screw rod, the bidirectional screw rod is disposed in the chute, and the two clamping blocks are respectively connected to two ends of the bidirectional screw rod; the adjusting motor is arranged on the connecting block and connected with the bidirectional screw rod.

By adopting the technical scheme, the adjusting motor is started, the adjusting motor drives the bidirectional screw to rotate, and the bidirectional screw drives the two clamping blocks to move oppositely, so that the two clamping blocks clamp the anchor bolts.

Optionally, the connecting assembly includes a connecting bolt and a nut, a second through hole is formed in the connecting block, a third through hole is formed in the connecting frame, and one end of the connecting bolt, which is far away from the nut, sequentially penetrates through the second through hole and the third through hole; the nut and the connecting bolt penetrate through one end of the third through hole to be in threaded connection, and the nut abuts against the connecting frame tightly.

By adopting the technical scheme, the connecting block is placed on the connecting frame, then one end of the connecting bolt, which is far away from the nut, sequentially penetrates through the second through hole and the third through hole, and the nut of the connecting bolt abuts against the connecting block; then the nut is connected with the connecting bolt in a threaded manner and abuts against the connecting frame tightly, so that the connecting block is fixed on the connecting frame; the connecting assembly is simple in structure and convenient to operate.

Optionally, a sliding groove is formed in the connecting block, a moving mechanism is arranged on the connecting block, the moving mechanism includes a moving block and a driving assembly, the moving block is connected in the sliding groove in a sliding manner, and the sliding groove is formed in the moving block; the driving component is arranged on the connecting block and connected with the moving block.

By adopting the technical scheme, the foundation bolt penetrates through the first through hole on one side of the connecting frame, then the foundation bolt is clamped by the two clamping blocks, and finally the foundation bolt is welded on the connecting frame; then, the two clamping blocks do not clamp the foundation bolts, the foundation bolts penetrate through the first through holes in the other side of the connecting frame, then the driving assembly is started, the driving assembly drives the moving block to move in the sliding groove towards the direction far away from the welded foundation bolts, the clamping blocks on the moving block move towards the direction close to the unwelded foundation bolts, and then the unwelded foundation bolts are clamped by the clamping blocks.

Optionally, the driving assembly includes a driving screw and a driving motor, the driving screw is disposed in the sliding groove, and the driving screw is connected to the moving block; the driving motor is arranged on the connecting block and connected with the driving screw rod.

By adopting the technical scheme, the driving motor is started, the driving motor drives the driving screw to rotate, and the driving screw drives the moving block to slide in the sliding groove; the driving assembly is simple in structure and convenient to operate.

Optionally, an adjusting mechanism is arranged on the connecting block, the adjusting mechanism includes a fixed block, an adjusting block and a lifting assembly, the fixed block is arranged on the moving block, a groove is formed in the fixed block, the adjusting block is arranged in the groove, the sliding groove is formed in the adjusting block, and the adjusting assembly is arranged on the adjusting block; the lifting assembly is arranged on the fixed block and connected with the adjusting block.

By adopting the technical scheme, the foundation bolt penetrates through the first through hole on one side of the connecting frame, then the foundation bolt is clamped by the two clamping blocks, the lifting assembly is started, the lifting assembly drives the adjusting block to slide in the groove of the fixed block, the adjusting block can change the position of the clamping block, and the clamping block can drive the foundation bolt to change relative to the position of the connecting frame; the adjusting mechanism who sets up can adjust the position of rag bolt on the link to make the better connection of rag bolt on the link.

Optionally, the lifting assembly includes a lifting motor, a moving gear and a lifting rack, the lifting motor is disposed on the fixed block, and the moving gear is disposed on the lifting motor; the lifting rack is arranged on the adjusting block and meshed with the moving gear.

Through adopting above-mentioned technical scheme, start elevator motor, elevator motor's output shaft drives the motion gear revolve, and the lifting rack with motion gear meshing will move, and the lifting rack will drive the adjusting block and slide in the recess of fixed block, and the lifting unit simple structure of setting is convenient for operate.

Optionally, a clamping groove is formed in the moving block, and a clamping block clamped in the clamping groove is arranged on the fixed block.

Through adopting above-mentioned technical scheme, through the joint of fixture block and draw-in groove, can be when fixed block or connecting block damage, the fixed block of being convenient for separates with the connecting block to can be convenient for to the maintenance or the change of fixed block and connecting block.

To sum up, this application includes following at least one steel construction rag bolt pre-buried reinforcing frame beneficial technical effect:

1. the arranged limiting mechanism can improve the welding effect of the foundation bolt;

2. the adjusting mechanism who sets up can adjust the position of rag bolt on the link to make the better connection of rag bolt on the link.

Drawings

FIG. 1 is a schematic structural diagram of a steel structure foundation bolt embedded reinforcing frame in the embodiment of the application;

FIG. 2 is a schematic structural diagram of an adjusting mechanism according to an embodiment of the present application;

fig. 3 is an enlarged view of a in fig. 2.

Reference numerals: 1. a connecting frame; 2. a limiting mechanism; 21. connecting blocks; 211. a sliding groove; 212. a second through hole; 22. a clamping block; 23. an adjustment assembly; 231. adjusting the motor; 232. a bidirectional screw; 24. a connecting assembly; 241. a connecting bolt; 242. a nut; 3. a moving mechanism; 31. a moving block; 32. a drive assembly; 321. a drive screw; 322. a drive motor; 4. an adjustment mechanism; 41. a fixed block; 42. an adjusting block; 421. a chute; 43. a lifting assembly; 431. a lifting motor; 432. a motion gear; 433. a lifting rack.

Detailed Description

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

The embodiment of the application discloses pre-buried reinforcing frame of steel construction rag bolt.

Referring to fig. 1, the steel structure foundation bolt pre-embedded reinforcing frame comprises a connecting frame 1, wherein a first through hole for a foundation bolt to pass through is formed in the connecting frame 1; the connecting frame 1 is provided with a limiting mechanism 2 connected with an anchor bolt.

Referring to fig. 1 and 2, the limiting mechanism 2 includes a connecting block 21, the connecting block 21 is placed on the connecting frame 1, a second through hole 212 is formed on the connecting block 21, and a third through hole is formed on the connecting frame 1; be provided with coupling assembling 24 on connecting block 21, coupling assembling 24 includes connecting bolt 241, and the one end that the nut was kept away from to connecting bolt 241 passes second through-hole 212 and third through-hole in proper order, and connecting bolt 241 passes one of third through-hole and serves threaded connection and have nut 242, and connecting bolt 241's nut supports tight connecting block 21, and nut 242 supports tight link 1.

Referring to fig. 2, a sliding groove 211 is formed in the connecting block 21, a moving mechanism 3 is arranged on the connecting block 21, the moving mechanism 3 includes a moving block 31 connected in the sliding groove 211 in a sliding manner, and a clamping groove is formed in the moving block 31. A driving assembly 32 is arranged on the connecting block 21, the driving assembly 32 comprises a driving screw 321 which is rotatably connected in the sliding groove 211, and the driving screw 321 penetrates through the moving block 31 and is in threaded connection with the moving block 31; a driving motor 322 connected with one end of the driving screw 321 is fixedly connected to the connecting block 21.

Referring to fig. 2 and 3, an adjusting mechanism 4 is arranged on the moving block 31, the adjusting mechanism 4 includes a fixing block 41, and a clamping block clamped with the clamping groove is fixedly connected to the fixing block 41; one end of the fixing block 41, which is far away from the fixture block, is provided with a groove along the vertical direction, and the groove is connected with an adjusting block 42 in a sliding manner. An installation cavity communicated with the groove is formed in the fixed block 41, a lifting assembly 43 is arranged on the fixed block 41, the lifting assembly 43 comprises a lifting motor 431 fixedly connected to the side wall of the installation cavity, a movement gear 432 is connected to an output shaft of the lifting motor 431 in a key mode, and a part of the movement gear 432 is located in the groove; the adjusting block 42 is fixedly connected with a lifting rack 433, and the lifting rack 433 is meshed with the moving gear 432 located in the groove.

Referring to fig. 1 and 2, one end of the adjusting block 42 away from the clamping block is provided with a plurality of sliding grooves 421, two ends of each sliding groove 421 are connected with the clamping blocks 22 in a sliding manner, two ends of each clamping block 22 are clamping portions, the clamping portions on the two clamping blocks 22 form a clamping space, the anchor bolt is located in the clamping space, and the two clamping blocks 22 are all abutted against the anchor bolt. The adjusting block 42 is provided with an adjusting assembly 23, the adjusting assembly 23 comprises a bidirectional screw 232 rotatably connected in the sliding groove 211, the bidirectional screw 232 penetrates through the two clamping blocks 22, and the two clamping blocks 22 are respectively in threaded connection with two ends of the bidirectional screw 232; an adjusting motor 231 connected with one end of the bidirectional screw 232 is fixedly connected to the adjusting block 42.

The motors in this embodiment are all three-phase asynchronous motors.

The implementation principle of the pre-buried reinforcing frame of steel construction rag bolt of this application embodiment does: firstly, placing the connecting block 21 on the connecting frame 1, then enabling one end, far away from the nut, of the connecting bolt 241 to sequentially penetrate through the second through hole 212 on the connecting block 21 and the third through hole on the connecting frame 1, and enabling the nut of the connecting bolt 241 to tightly abut against the connecting block 21; then, the nut 242 is screwed with the coupling bolt 241 penetrating one end of the third through hole, and the nut 242 is pressed against the coupling frame 1.

The anchor bolts are then passed through the first through-holes in one side of the adapter 1.

The adjusting motor 231 is started, the adjusting motor 231 drives the two-way screw 232 to rotate, the two-way screw 232 drives the two clamping blocks 22 to move in opposite directions, and the two clamping blocks 22 clamp the foundation bolt.

Then, the lifting motor 431 is started, the lifting motor 431 drives the moving gear 432 to rotate, the moving gear 432 drives the lifting rack 433 to move, the lifting rack 433 drives the adjusting block 42 to move in the groove of the fixed block 41, the adjusting block 42 drives the clamping block 22 to move, and the clamping block 22 drives the foundation bolt to change relative to the position of the connecting frame 1; after the position of the foundation bolt is adjusted, the foundation bolt is welded on the connecting frame 1; the elevator motor 431 is started so that the two clamping blocks 22 no longer clamp the anchor bolt.

Then, the anchor bolt penetrates through the first through hole in the other side of the connecting frame 1, the driving motor 322 is started, the output shaft of the driving motor 322 drives the driving screw 321, the driving screw 321 drives the moving block 31 to move, the moving block 31 can drive the position of the fixed block 41 to change, the adjusting block 42 on the fixed block 41 can drive the clamping block 22 to move, the clamping block 22 moves towards the anchor bolt which is not welded on the connecting frame 1, and the clamping block 22 can clamp the anchor bolt which is not welded on the connecting frame 1.

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 steel structure foundation bolt pre-embedded reinforcing frame comprises a connecting frame (1), wherein a first through hole for a foundation bolt to pass through is formed in the connecting frame (1), and the steel structure foundation bolt pre-embedded reinforcing frame is characterized in that a limiting mechanism (2) is arranged on the connecting frame (1), the limiting mechanism (2) comprises a connecting block (21), a clamping block (22), an adjusting assembly (23) and a connecting assembly (24), the connecting block (21) abuts against the connecting frame (1), and the connecting block (21) is connected to the connecting frame (1) through the connecting assembly (24); the improved clamping device is characterized in that a sliding groove (421) is formed in the connecting block (21), two clamping blocks (22) are arranged, the two clamping blocks (22) are connected to two ends of the sliding groove (421) in a sliding mode respectively, the adjusting assembly (23) is arranged on the connecting block (21), and the two clamping blocks (22) are connected with the adjusting assembly (23).

2. The pre-buried reinforcing frame of steel structure foundation bolt of claim 1, characterized in that the adjusting component (23) comprises an adjusting motor (231) and a bidirectional screw (232), the bidirectional screw (232) is arranged in the chute (421), and the two clamping blocks (22) are respectively connected with two ends of the bidirectional screw (232); the adjusting motor (231) is arranged on the connecting block (21) and is connected with the bidirectional screw (232).

3. The steel structure foundation bolt embedded reinforcing frame as claimed in claim 1, wherein the connecting assembly (24) comprises a connecting bolt (241) and a nut (242), a second through hole (212) is formed in the connecting block (21), a third through hole is formed in the connecting frame (1), and one end, far away from the nut, of the connecting bolt (241) sequentially penetrates through the second through hole (212) and the third through hole; the nut (242) and one end of the connecting bolt (241) penetrating through the third through hole are in threaded connection, and the nut (242) abuts against the connecting frame (1).

4. The steel structure foundation bolt embedded reinforcing frame as claimed in claim 1, wherein a sliding groove (211) is formed in the connecting block (21), a moving mechanism (3) is arranged on the connecting block (21), the moving mechanism (3) comprises a moving block (31) and a driving assembly (32), the moving block (31) is connected in the sliding groove (211) in a sliding manner, and the sliding groove (421) is formed in the moving block (31); the driving component (32) is arranged on the connecting block (21) and is connected with the moving block (31).

5. The pre-buried reinforcing frame of steel structure foundation bolts as claimed in claim 4, wherein the driving assembly (32) comprises a driving screw (321) and a driving motor (322), the driving screw (321) is arranged in the sliding groove (211), and the driving screw (321) is connected with the moving block (31); the driving motor (322) is arranged on the connecting block (21) and is connected with the driving screw rod (321).

6. The pre-buried reinforcing frame of steel structure foundation bolts as claimed in claim 4, wherein an adjusting mechanism (4) is arranged on the connecting block (21), the adjusting mechanism (4) comprises a fixed block (41), an adjusting block (42) and a lifting assembly (43), the fixed block (41) is arranged on the moving block (31), the fixed block (41) is provided with a groove, the adjusting block (42) is arranged in the groove, the sliding groove (421) is provided with the adjusting block (42), and the adjusting assembly (23) is arranged on the adjusting block (42); the lifting assembly (43) is arranged on the fixing block (41) and connected with the adjusting block (42).

7. The pre-buried reinforcing frame of the steel structure anchor bolt of claim 6, wherein the lifting assembly (43) comprises a lifting motor (431), a moving gear (432) and a lifting rack (433), the lifting motor (431) is arranged on the fixed block (41), and the moving gear (432) is arranged on the lifting motor (431); the lifting rack (433) is arranged on the adjusting block (42) and meshed with the moving gear (432).

8. The pre-buried reinforcing frame of steel construction rag bolt of claim 6, characterized in that, draw-in groove has been seted up on the movable block (31), be provided with the fixture block of joint in the draw-in groove on fixed block (41).

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