CN221255722U - Supporting structure for reinforced concrete - Google Patents

Abstract

The utility model relates to the technical field of reinforced concrete supporting structures, and discloses a supporting structure for reinforced concrete. The utility model comprises the following steps: two reinforced concrete columns, two equal swing joint in one side of reinforced concrete column has the connecting block, two the inside of connecting block is all rotated and is connected with positive and negative screw thread post, and equal threaded connection has two internal thread clamp splice on two positive and negative screw thread posts, two the equal fixedly connected with motor in bottom of connecting block, two the motor respectively with two positive and negative screw thread post transmission are connected, two fixedly connected with same connecting frame on the connecting block. The utility model can realize repeated use when the equipment is used for pouring the reinforced concrete beam, and can be disassembled after the pouring is successful to wait for the next use when the reinforced concrete beam is poured, thereby reducing the condition that the concrete falls off during the pouring and avoiding the waste of the concrete.

Description

Supporting structure for reinforced concrete

Technical Field

The utility model relates to the technical field of reinforced concrete supporting structures, in particular to a supporting structure for reinforced concrete.

Background

Reinforced concrete structures refer to structures made of concrete that are reinforced with steel bars. The main components of the load bearing are constructed from reinforced concrete. The building comprises a thin shell structure, a large template cast-in-situ structure and a reinforced concrete structure built by using sliding forms, lifting plates and the like. A structure is made of steel bar and concrete. The steel bars bear the tensile force, and the concrete bears the compressive force. When pouring reinforced concrete beams, a reinforced concrete supporting structure is used, and the supporting structure generally plays a role in preliminary fixing between two reinforced concrete columns and is then poured on the supporting structure.

However, in the prior art, the supporting structure for reinforced concrete cannot be reused, and is fixed together with the reinforced concrete after one operation, so that the reinforced concrete cannot be reused, the loss is large, and when the reinforced concrete beam is poured, the concrete can fall off to a certain extent, so that the reinforced concrete beam is wasted.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a supporting structure for reinforced concrete.

The utility model is realized by adopting the following technical scheme: the two reinforced concrete columns are respectively connected with a connecting block at one side of the two reinforced concrete columns in a movable mode, the inside of the two connecting blocks are respectively connected with a positive and negative threaded column in a rotating mode, two internal threaded clamping blocks are connected to the two positive and negative threaded columns in a threaded mode, motors are fixedly connected to the bottoms of the two connecting blocks in a fixed mode, the two motors are respectively connected with the two positive and negative threaded columns in a transmission mode, and the two connecting blocks are fixedly connected with the same connecting frame.

As a further improvement of the scheme, the output shafts of the two motors are fixedly connected with rotating rods, one ends of the two rotating rods are fixedly connected with first belt pulleys, one ends of the two positive and negative threaded columns are fixedly connected with second belt pulleys, and connecting belts are sleeved between the two first belt pulleys and the two second belt pulleys.

As a further improvement of the scheme, the two connecting blocks are fixedly connected with sliding rods in the two connecting blocks, and the two ends of the two sliding rods penetrate through corresponding internal thread clamping blocks and are in sliding connection with the corresponding internal thread clamping blocks.

As a further improvement of the scheme, the bottoms of the two connecting blocks are fixedly connected with L-shaped supporting blocks, and the tops of the two L-shaped supporting blocks are respectively fixedly connected with the bottoms of the corresponding motors.

As a further improvement of the scheme, a plurality of threaded holes are formed in the tops of the two connecting blocks and the connecting frame, and bolts are connected to the threaded holes in a threaded mode.

As a further improvement of the scheme, one side of the connecting block is fixedly connected with a convex strip, one side of the reinforced concrete upright post is provided with a groove, and one side of the convex strip extends into the groove and is in sliding connection with the groove.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the reinforced concrete upright post, the connecting block, the front and back threaded post, the motor, the rotating rod and other structures are matched, so that the device can be reused when the reinforced concrete beam is poured when in use, can be disassembled after the pouring is successful and can be used when the reinforced concrete beam is poured next time, the condition that the concrete falls off when in pouring is also reduced, and the concrete waste is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of a support structure for reinforced concrete according to the present utility model;

FIG. 2 is a schematic view of a second split structure of a support structure for reinforced concrete according to the present utility model;

FIG. 3 is a schematic view of the motor, rotary rod, first pulley, second pulley and connecting belt structure of a support structure for reinforced concrete according to the present utility model;

fig. 4 is a schematic view showing a third disassembled structure of a supporting structure for reinforced concrete according to the present utility model;

fig. 5 is a schematic sectional view showing a part of the structure of a supporting structure for reinforced concrete according to the present utility model.

Main symbol description:

1. Reinforced concrete columns; 2. a connecting block; 3. a positive and negative threaded column; 4. a motor; 5. a rotating rod; 6. a first pulley; 7. a second pulley; 8. a connecting belt; 10. a slide bar; 11. an internal thread clamp block; 12. a bolt; 13. an L-shaped support block; 14. a connection frame; 15. reinforced concrete beam.

Detailed Description

The utility model will be further described with reference to the drawings and detailed description.

Referring to fig. 1 to 5, a support structure for reinforced concrete of the present embodiment includes: two reinforced concrete columns 1, the equal swing joint in one side of two reinforced concrete columns 1 has connecting block 2, and the inside of two connecting blocks 2 is all rotated and is connected with positive and negative screw thread post 3, and equal threaded connection has two internal thread clamp splice 11 on two positive and negative screw thread post 3, and the equal fixedly connected with motor 4 in the bottom of two connecting blocks 2, two motors 4 respectively with two positive and negative screw thread post 3 transmission connection, fixedly connected with same connecting frame 14 on two connecting blocks 2.

Through the technical scheme, the equipment can be reused when the reinforced concrete beam 15 is poured, and the waste of concrete when the reinforced concrete beam 15 is poured can also be placed.

The output shafts of the two motors 4 are fixedly connected with rotating rods 5, one ends of the two rotating rods 5 are fixedly connected with first belt pulleys 6, one ends of the two positive and negative threaded columns 3 are fixedly connected with second belt pulleys 7, and connecting belts 8 are sleeved between the two first belt pulleys 6 and the two second belt pulleys 7.

Through above-mentioned technical scheme, two first belt pulleys 6 and two second belt pulleys 7 and two connecting belt 8 are the driving medium for two positive and negative screw thread post 3 can be under the drive of the output shaft of two motors 4 synchronous rotation, with this centre gripping to reinforced concrete stand 1 is realized, with this stability of guaranteeing whole bearing structure.

The inside of two connecting blocks 2 is fixedly connected with slide bar 10, and the both ends of two slide bars 10 all run through corresponding internal thread clamp splice 11 and with corresponding internal thread clamp splice 11 sliding connection.

Through the technical scheme, the sliding rod 10 can improve the stability of the internal thread clamping block 11 while not affecting the movement of the internal thread clamping block 11.

The bottoms of the two connecting blocks 2 are fixedly connected with L-shaped supporting blocks 13, and the tops of the two L-shaped supporting blocks 13 are respectively and fixedly connected with the bottoms of the corresponding motors 4.

Through above-mentioned technical scheme, L shape supporting shoe 13 plays the support fixed action to motor 4 for motor 4 can with connecting block 2 fixed connection.

A plurality of threaded holes are formed in the tops of the two connecting blocks 2 and the connecting frame 14, and bolts 12 are connected to the threaded holes in a threaded mode.

Through the above technical scheme, the bolts 12 can play a role in assembling and disassembling the two connecting blocks 2 and the connecting frame 14.

One side fixedly connected with sand grip of connecting block 2, the recess is seted up to one side of reinforced concrete stand 1, sand grip and recess sliding connection.

Through above-mentioned technical scheme, sand grip and spout can play supplementary connecting block 2 and carry out preliminary fixed effect with reinforced concrete stand 1.

The implementation principle of the supporting structure for reinforced concrete in the embodiment of the application is as follows:

during the use, the recess of seting up is fixed through the sand grip of one side fixed connection of two connecting blocks 2 and one side of reinforced concrete stand 1 carries out preliminary connection, then rotate through the output shaft of two motors 4 and drive two rotary rods 5 and rotate, two rotary rods 5 rotate and drive two first belt pulleys 6 and rotate, two first belt pulleys 6 rotate and drive two connecting belts 8 and rotate, two connecting belts 8 rotate and drive two second belt pulleys 7 and rotate, two second belt pulleys 7 rotate and drive two L shape supporting shoe 13 that correspond and rotate, four internal thread clamp pieces 11 that two positive and negative screw thread post 3 rotate threaded connection translate the realization and fix reinforced concrete stand 1, make two connecting blocks 2 firm fixed on two reinforced concrete stand 1, then carry out bolted connection with connecting frame 14 through bolt 12 with two connecting blocks 2, then pour reinforced concrete roof beam 15 in connecting frame 14, pour the back through removing the threaded connection of two connecting frames 14, then to the centre gripping of reinforced concrete stand 1 and the structure of unloading and can be with the connecting block 2 repeatedly used with lifting down.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (6)

1. A support structure for reinforced concrete, comprising: two reinforced concrete columns, two equal swing joint in one side of reinforced concrete column has the connecting block, two the inside of connecting block is all rotated and is connected with positive and negative screw thread post, and equal threaded connection has two internal thread clamp splice on two positive and negative screw thread posts, two the equal fixedly connected with motor in bottom of connecting block, two the motor respectively with two positive and negative screw thread post transmission are connected, two fixedly connected with same connecting frame on the connecting block.

2. A support structure for reinforced concrete according to claim 1, wherein the output shafts of the two motors are fixedly connected with rotary rods, one ends of the two rotary rods are fixedly connected with first belt pulleys, one ends of the two front and back threaded columns are fixedly connected with second belt pulleys, and connecting belts are sleeved between the two first belt pulleys and the two second belt pulleys.

3. A support structure for reinforced concrete according to claim 1, wherein the inside of both of said connection blocks is fixedly connected with slide bars, both ends of both of which penetrate through and are slidably connected with the corresponding female screw clamp blocks.

4. A support structure for reinforced concrete as claimed in claim 1, wherein the bottoms of both said connection blocks are fixedly connected with L-shaped support blocks, and the tops of both said L-shaped support blocks are fixedly connected with the bottoms of the corresponding motors, respectively.

5. A support structure for reinforced concrete as claimed in claim 1, wherein the tops of both the connection blocks and the connection frame are provided with a plurality of screw holes, and bolts are screwed to the screw holes.

6. A support structure for reinforced concrete as claimed in claim 1, wherein a rib is fixedly connected to one side of the connection block, a groove is formed in one side of the reinforced concrete column, and one side of the rib extends into the groove and is slidably connected to the groove.