CN220705276U - Anti-seismic reinforcing mechanism is built in room - Google Patents

Abstract

The utility model relates to the technical field of building construction, and discloses a building construction earthquake-resistant reinforcing mechanism. The reinforcing mechanism is arranged, the space between the two sliding blocks of the reinforcing mechanism is adjustable, and the state of the adjusted sliding blocks is fixed, so that clamping and reinforcing operations between walls with different thicknesses are met. The supporting plate is used for clamping the wall body, is arranged on the sliding block through the angle adjusting mechanism, and adjusts the inclination angle of the supporting plate according to the inclination state of the wall body, so that the wall bodies with different inclination angles are clamped and fixed. The drill bit mechanism is arranged in the concave box, and the frame is integrally fixed in the ground by using the drill bit mechanism, so that the reinforcement mechanism is effectively fixed. Based on the above measures, the fixing operation is realized to different thicknesses and different inclination angles, the anti-seismic reinforcing requirements for cavities with various sizes are met, and the bearing capacity of the concave box in the soil is improved, so that the supporting effect of the wall body is increased, and the wall body is prevented from shaking.

Description

Anti-seismic reinforcing mechanism is built in room

Technical Field

The utility model relates to the technical field of building construction, in particular to a building construction earthquake-resistant reinforcing mechanism.

Background

In the house construction engineering, after a period of time, the original wall body may be unstable, and in order to ensure safety, some of the unstable wall bodies need to be reinforced in the subsequent process. In addition, when some construction processes are carried out in the original building, the original wall body can generate certain vibration, and the stability of the wall body can be greatly influenced. Therefore, the original wall body needs to be reinforced, and the anti-seismic reinforcing mechanism is a structure for reinforcing the wall body.

The house building reinforcing mechanism mainly aims at a wall body, the wall body mainly comprises a bearing wall and a non-bearing wall, and the non-bearing wall mainly plays a role in enclosing and separating a space; the wall body of the bearing wall structure building integrates bearing and enclosing, the function of the wall body of the framework structure building is enclosing and separating space, the wall body has enough strength and stability, and certain anti-seismic performance is needed.

When the existing house building anti-seismic reinforcing mechanism on the market is universally arranged for reinforcing the wall body, the same house building anti-seismic reinforcing mechanism can only reinforce the wall body with one width, and when the wall bodies with different widths are reinforced, the house building anti-seismic reinforcing mechanism with different sizes needs to be replaced, so that the house building anti-seismic reinforcing mechanism is very inflexible to use. Moreover, the existing building earthquake-resistant reinforcing mechanism is only suitable for reinforcing vertical walls, and a structure for reinforcing inclined walls does not appear.

Disclosure of Invention

The house building anti-seismic reinforcing mechanism is suitable for reinforcing walls with different widths and can be used for reinforcing walls in an inclined state.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

a building anti-seismic reinforcement mechanism is characterized in that: comprising

The frame is divided into an upper auxiliary box and a lower concave box which are fixedly connected, and the concave box is downwards distributed with a notch;

the reinforcing mechanism is fixedly arranged in the auxiliary box, two sliding blocks are arranged in the reinforcing mechanism, the two sliding blocks are positioned at the same height, and the distance between the two sliding blocks is adjusted according to requirements;

the top of the auxiliary box is provided with a through chute perpendicular to the wall body to be fixed, the bottom of the angle adjusting mechanism is fixed on the sliding block, the top of the angle adjusting mechanism penetrates through the chute to be connected with the support plates, and the two support plates are vertically arranged with the chute;

the drill bit mechanism is arranged in the concave box, a plurality of drill bits are arranged in the drill bit mechanism, the drill bits face downwards vertically, the drill bits are distributed in the convex areas on two sides of the concave box, and through holes matched with the drill bits are formed in the end heads of the vertical sections of the concave box; according to the requirement, the drill bit is extended out of the through hole by a corresponding length.

According to the technical scheme, the reinforcing mechanism comprises a screw rod with opposite external threads, a handle for driving the screw rod to rotate, and a locking assembly for fixing the position state between the screw rod and the auxiliary part; the sliding block is provided with a threaded hole matched with the external thread of the screw rod; the screw rod is arranged on the auxiliary box in a rotary connection mode, the screw rod and the sliding groove are arranged in parallel, and one end of the screw rod penetrates through the outer side of the auxiliary box; the handle is fixed at the end of the screw rod extending out of the auxiliary box; the locking assembly is connected between the screw rod and the auxiliary box, and locks the position between the screw rod and the auxiliary box when the screw rod rotates to a preset position.

According to the technical scheme, the locking component comprises a limiting block and a limiting rod, wherein the limiting block is fixed on an auxiliary box near the handle, the limiting block and the handle are positioned at the same height, a through hole is formed in the limiting block, the through hole is matched with the outer diameter of the limiting rod, and the limiting rod is arranged in the through hole; a plurality of round holes are circumferentially arranged on the handle at intervals, the round holes are matched with the outer diameter of the limiting rod, and the axes of the through holes penetrate through the intersection points of the axes of all the round holes.

According to the technical scheme, the angle adjusting mechanism comprises a connecting block, an adjusting rod and a limiting clamping frame, wherein the bottom of the connecting block is fixed on a sliding block, the middle part of the connecting block penetrates through a sliding groove, mounting plates are arranged on the front side and the rear side of the connecting block, a gap between the mounting plates is consistent with the width of a supporting plate, coaxial shaft holes are formed in the two mounting plates, and the size of the shaft holes is matched with the outer diameter of the adjusting rod; the adjusting rods are arranged on two sides of the supporting plate in the width direction, the adjusting rods on the two sides are coaxial, and the supporting plate is arranged in the shaft hole of the mounting plate through the adjusting rods; a plurality of bulges are circumferentially arranged on the adjusting rod on one side, and a plurality of adjusting notches are circumferentially arranged on the mounting plate on the same side at intervals by taking the adjusting rod as the center; the limiting clamping frame is sleeved on the adjusting rod at the protruding part and is clamped into a certain adjusting notch.

According to the technical scheme, the angle adjusting mechanism comprises a connecting block, an adjusting rod and a limiting clamping frame, wherein the bottom of the connecting block is fixed on a sliding block, the middle part of the connecting block penetrates through a sliding groove, mounting plates are arranged on the front side and the rear side of the connecting block, a gap between the mounting plates is consistent with the width of a supporting plate, and coaxial shaft holes are formed in the two mounting plates; the adjusting rod is divided into an outer protruding section, a middle round rod section and an inner polygonal rod section, polygonal holes matched with the polygonal rod sections are formed in two sides of the width direction of the supporting plate, the polygonal holes in the two sides are coaxially distributed, the inner polygonal rod section is arranged in the polygonal holes, the size of the middle round rod section is matched with the size of the shaft hole, and the supporting plate is arranged on the mounting plate through the adjusting rod; a plurality of adjusting notches are circumferentially arranged on the mounting plates on the same side at intervals by taking the adjusting rods as the centers; the limiting clamping frame is sleeved on the external protruding section and is clamped into a certain adjusting notch.

According to the technical scheme, the limiting clamping frame comprises a circular ring and an L-shaped clamping rod, an inner hole matched with the cross section of the protrusion of the adjusting rod is arranged in the circular ring, the clamping rod is divided into a vertical section and a horizontal section, the vertical section is fixed on the outer wall surface of the circular ring, the horizontal section faces the mounting plate, and the size and the shape of the end, close to the mounting plate, of the horizontal section of the clamping rod are matched with those of the adjusting notch.

According to the technical scheme, the drill bit mechanism comprises a rotating rod, racks and gears which are matched with each other, a supporting rod and a driving unit, wherein the rotating rod is horizontally arranged, two ends of the rotating rod are arranged in a horizontal section of the concave box in a manner of only rotating connection, the rotating rod is positioned right above the through hole, and one end of the rotating rod penetrates through the concave box and is connected with the driving unit; the gear is fixedly arranged on the rotating rod above the through hole, the rack is vertically arranged at the top of the drill bit, the positions of the rack and the gear are matched, and the rack and the gear are meshed; the outer wall surfaces of the protruding areas on the two sides of the concave box are provided with guide grooves which are vertically distributed, the supporting rods are horizontally distributed, one ends of the supporting rods are fixed on the racks, and the other ends of the supporting rods are arranged in the guide grooves.

According to the technical scheme, the driving unit is driven by the hand handle or the motor assembly, a polygonal joint is arranged at the end head of the rotating rod, and a polygonal sleeve matched with the polygonal joint is arranged in the hand handle or the motor assembly.

According to the technical proposal, the utility model also comprises a limiting unit, the limiting unit comprises a fixed plate fixed on the drill bit, the protection shell is arranged on two sides of the fixed plate and internally provided with a horizontal cavity, and the compression spring and the inclined plane block are arranged in the horizontal cavity of the protection object; the side wall of the horizontal cavity far away from the fixed plate and the side wall of the convex area of the concave box are provided with notches positioned on the same vertical surface, the size of each notch is matched with that of the inclined surface block, and the motion trail of each notch positioned in the horizontal cavity covers the notch positioned in the convex area of the concave box along with the up-down movement of the drill bit; the inclined plane of inclined plane piece up, and be located the breach end of horizontal cavity.

The utility model has the following beneficial effects:

the method comprises the steps of arranging a reinforcing mechanism, and fixing the state of the adjusted sliding blocks by utilizing the adjustable distance between the two sliding blocks of the reinforcing mechanism, so that clamping and reinforcing operations between walls with different thicknesses are satisfied; in addition, a supporting plate for clamping the wall body is arranged on the sliding block through an angle adjusting mechanism, and the inclination angle of the supporting plate is adjusted according to the inclination state of the wall body, so that the wall bodies with different inclination angles are clamped and fixed. Finally, a drill bit mechanism is arranged in the concave box, and the whole frame is fixed in the ground by using the drill bit mechanism, so that the reinforcement mechanism is effectively fixed. Based on the measure, utilize strengthening mechanism, backup pad and angle adjustment mechanism and drill bit mechanism's combined action, realize carrying out fixed operation to different thickness, different inclination, satisfy the antidetonation reinforcement demand to the cavity of multiple size to improved the bearing capacity of concave type case in the soil the inside, thereby played the increase and to the supporting effect of wall body, avoided the wall body to take place to rock.

Drawings

FIG. 1 is a schematic diagram of a construction of an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a provided embodiment of the present utility model;

FIG. 3 is an enlarged view at A in FIG. 1;

FIG. 4 is a schematic view of the structure of an angle adjustment mechanism according to an embodiment of the present utility model;

fig. 5 is an enlarged view at B in fig. 2;

FIG. 6 is an enlarged view at C in FIG. 2;

in the figure, 1, a frame; 1-1, auxiliary box; 1-2, a concave box; 2. a reinforcement mechanism; 2-1, a sliding block; 2-2, a screw rod; 2-3, a handle; 2-4, locking components; 2-41, limiting blocks; 2-42, a limit rod; 3. a support plate; 4. an angle adjusting mechanism; 4-1, connecting blocks; 4-11, mounting plates; 4-12, shaft holes; 4-2, adjusting the rod; 4-3, limiting clamping frames; 4-31, a circular ring; 4-32, a clamping rod; 4-4, adjusting the notch; 5. a drill bit mechanism; 5-1, a drill bit; 5-2, a rotating rod; 5-3, a rack; 5-4, gears; 5-5, a driving unit; 5-61, fixing plate; 5-62, a shell; 5-63, compression springs; 5-64, inclined plane blocks; 5-65, notch; 5-7, supporting rods.

Detailed Description

The utility model will now be described in detail with reference to the drawings and examples.

Referring to fig. 1 to 6, the utility model provides a building earthquake-proof reinforcing mechanism.

Example 1

Included

The frame 1 is divided into an upper auxiliary box 1-1 and a lower concave box 1-2 which are fixedly connected, and the concave opening of the concave box is downwards arranged;

the reinforcing mechanism 2 is fixedly arranged in the auxiliary box, two sliding blocks 2-1 are arranged in the reinforcing mechanism, the two sliding blocks are positioned at the same height, and the distance between the two sliding blocks is adjusted according to requirements;

the top of the auxiliary box is provided with a through chute perpendicular to the wall body to be fixed, the bottom of the angle adjusting mechanism is fixed on the sliding block, the top of the angle adjusting mechanism penetrates through the chute to be connected with the support plates, and the two support plates are vertically arranged with the chute;

the drill bit mechanism 5 is arranged in the concave box, a plurality of drill bits 5-1 are arranged in the drill bit mechanism, the drill bits are vertically downwards arranged in the convex areas on two sides of the concave box, and through holes matched with the drill bits are formed in the end heads of the vertical sections of the concave box; according to the requirement, the drill bit is extended out of the through hole by a corresponding length.

In the embodiment, the reinforcing mechanism is arranged, and the state of the adjusted sliding blocks is adjusted and fixed by utilizing the adjustable interval between the two sliding blocks of the reinforcing mechanism, so that the clamping and reinforcing operation between walls with different thicknesses is satisfied; in addition, a supporting plate for clamping the wall body is arranged on the sliding block through an angle adjusting mechanism, and the inclination angle of the supporting plate is adjusted according to the inclination state of the wall body, so that the wall bodies with different inclination angles are clamped and fixed. Finally, a drill bit mechanism is arranged in the concave box, and the whole frame is fixed in the ground by using the drill bit mechanism, so that the reinforcement mechanism is effectively fixed. Based on the measure, utilize strengthening mechanism, backup pad and angle adjustment mechanism and drill bit mechanism's combined action, realize carrying out fixed operation to different thickness, different inclination, satisfy the antidetonation reinforcement demand to the cavity of multiple size to improved the bearing capacity of concave type case in the soil the inside, thereby played the increase and to the supporting effect of wall body, avoided the wall body to take place to rock.

Example 2

The structure and principle of embodiment 2 are similar to those of embodiment 1, except that: the reinforcing mechanism comprises a screw rod 2-2 with opposite external threads, a handle 2-3 for driving the screw rod to rotate, and a locking assembly 2-4 for fixing the position state between the screw rod and the auxiliary part; the sliding block is provided with a threaded hole matched with the external thread of the screw rod; the screw rod is arranged on the auxiliary box in a rotary connection mode, the screw rod and the sliding groove are arranged in parallel, and one end of the screw rod penetrates through the outer side of the auxiliary box; the handle is fixed at the end of the screw rod extending out of the auxiliary box; the locking assembly is connected between the screw rod and the auxiliary box, and locks the position between the screw rod and the auxiliary box when the screw rod rotates to a preset position.

In the embodiment, the gap between the two support plates is indirectly controlled by rotating the screw rod and utilizing opposite external threads on the screw rod and the sliding block matched with the external threads so as to meet the requirements of walls with different thickness sizes. After the distance between the support plates is adjusted to a proper position, the relative position between the screw rod and the auxiliary box is fixed by utilizing the locking assembly, so that the distance between the two support plates is fixed.

In the embodiment 2, the locking component comprises a limiting block 2-41 and a limiting rod 2-42, the limiting block is fixed on an auxiliary box near the handle, the limiting block and the handle are positioned at the same height, a through hole is formed in the limiting block, the through hole is matched with the outer diameter of the limiting rod, and the limiting rod is arranged in the through hole; a plurality of round holes are circumferentially arranged on the handle at intervals, the round holes are matched with the outer diameter of the limiting rod, and the axes of the through holes penetrate through the intersection points of the axes of all the round holes.

In an initial state, the limiting rod simultaneously penetrates through the round hole and the through hole. When the screw rod needs to rotate, the limiting rod is pulled out from the round hole in the handle, and the handle rotates to a preset position; the limit rod is inserted into the nearest round hole, so that the handle and the auxiliary box are fixedly connected.

Example 3

The structure and principle of embodiment 3 are similar to those of embodiment 1, except that: a preferred angle adjustment mechanism is provided. The angle adjusting mechanism comprises a connecting block, an adjusting rod and a limiting clamping frame, wherein the bottom of the connecting block is fixed on the sliding block, the middle of the connecting block penetrates through the sliding groove, mounting plates are arranged on the front side and the rear side of the connecting block, a gap between the mounting plates is consistent with the width of the supporting plate, coaxial shaft holes are formed in the two mounting plates, and the size of the shaft holes is matched with the outer diameter of the adjusting rod; the adjusting rods are arranged on two sides of the supporting plate in the width direction, the adjusting rods on the two sides are coaxial, and the supporting plate is arranged in the shaft hole of the mounting plate through the adjusting rods; a plurality of bulges are circumferentially arranged on the adjusting rod on one side, and a plurality of adjusting notches are circumferentially arranged on the mounting plate on the same side at intervals by taking the adjusting rod as the center; the limiting clamping frame is sleeved on the adjusting rod at the protruding part and is clamped into a certain adjusting notch.

In this embodiment, the backup pad is established between two mounting panels at connecting block top through adjusting the pole, and the backup pad rotates wantonly in the shaft hole of mounting panel, and when the backup pad rotated to preset the position, through the fixed relative position between adjusting post of spacing clamping frame and the mounting panel to realize fixing the backup pad that is in arbitrary inclination at this inclination.

Example 4

The structure and principle of embodiment 4 are similar to those of embodiment 1, except that: another preferred angle adjustment mechanism is presented. As shown in fig. 3-4, the angle adjusting mechanism comprises a connecting block 4-1, an adjusting rod 4-2 and a limiting clamping frame 4-3, wherein the bottom of the connecting block is fixed on a sliding block, the middle part of the connecting block passes through a sliding groove, mounting plates 4-11 are arranged on the front side and the rear side of the connecting block, the gap between the mounting plates is consistent with the width of the supporting plate, and coaxial shaft holes 4-12 are arranged on the two mounting plates; the adjusting rod is divided into an outer protruding section, a middle round rod section and an inner polygonal rod section, polygonal holes matched with the polygonal rod sections are formed in two sides of the width direction of the supporting plate, the polygonal holes in the two sides are coaxially distributed, the inner polygonal rod section is arranged in the polygonal holes, the size of the middle round rod section is matched with the size of the shaft hole, and the supporting plate is arranged on the mounting plate through the adjusting rod; a plurality of adjusting notches 4-4 are circumferentially arranged on the mounting plate on the same side at intervals by taking the adjusting rod as the center; the limiting clamping frame is sleeved on the external protruding section and is clamped into a certain adjusting notch.

In this embodiment, the difference from the former angle adjusting mechanism is that the fixed connection between the adjusting lever and the supporting plate is replaced by a mode of movably connecting the multi-edge lever section and the multi-edge hole.

In embodiment 4 and embodiment 5, spacing clamping frame includes ring 4-31 and L type screens pole 4-32, is equipped with in the ring with adjust pole in protruding department cross-section assorted hole, screens pole divide into vertical section and horizontal section, and vertical section is fixed on the outer wall surface of ring, and the horizontal section is towards the mounting panel, and the size and the shape of the end that screens pole horizontal section is close to the mounting panel and adjusts the size and the shape phase-match of notch.

In the embodiment, when the relative position between the supporting plate and the connecting block is required to be fixed, the circular ring is sleeved on the adjusting rod, the end head of the horizontal section of the clamping rod is aligned with the notch which is just in progress, and then the inner hole of the circular ring is clamped at the position of the adjusting rod at the bulge; at this time, the ring can only axially move on the adjusting rod and cannot rotate, the clamping rod is clamped into the adjusting notch to limit the rotation of the ring and indirectly limit the rotation of the adjusting rod, so that the inclined state of the supporting plate is fixed.

Example 5

The structure and principle of embodiment 5 are similar to those of embodiment 1, except that: the drill bit mechanism comprises a rotating rod 5-2, a rack 5-3, a gear 5-4 and a driving unit 5-5 which are matched with each other, wherein the rotating rod is horizontally arranged, two ends of the rotating rod are arranged in the horizontal section of the concave box in a manner of only rotating connection, the rotating rod is positioned right above the through hole, and one end of the rotating rod penetrates through the concave box and is connected with the driving unit; the gear is fixedly arranged on the rotating rod above the through hole, the rack is vertically arranged at the top of the drill bit, the positions of the rack and the gear are matched, and the rack and the gear are meshed.

The drill bit mechanism comprises a rotating rod 5-2, a rack 5-3, a gear 5-4, a driving unit 5-5 and a supporting rod 5-7 which are matched with each other, wherein the rotating rod is horizontally arranged, two ends of the rotating rod are arranged in a horizontal section of the concave box in a manner of only rotating connection, the rotating rod is positioned right above the through hole, and one end of the rotating rod penetrates through the concave box and is connected with the driving unit; the gear is fixedly arranged on the rotating rod above the through hole, the rack is vertically arranged at the top of the drill bit, the positions of the rack and the gear are matched, and the rack and the gear are meshed; the outer wall surfaces of the protruding areas on the two sides of the concave box are provided with guide grooves which are vertically distributed, the supporting rods are horizontally distributed, one ends of the supporting rods are fixed on the racks, and the other ends of the supporting rods are arranged in the guide grooves.

In the embodiment, the driving unit drives the rotating rod to rotate, and the driving unit drives the rotating rod to move upwards and downwards by utilizing the transmission between the rack and the gear, so that the drill bit is drilled into the ground or taken out from the ground, and the plane stability of the device and the wall body is reinforced. In addition, the support rod is arranged to limit the running direction of the rack, and under the action of the support rod and the guide groove, the rack can only move up and down, so that the meshing state between the rack and the gear is prevented from falling off.

In embodiment 5, the driving unit comprises a hand handle or a motor assembly for driving, a polygonal joint is arranged at the end head of the rotating rod, and a polygonal sleeve matched with the polygonal joint is arranged in the hand handle or the motor assembly. The operator engages the polygonal sleeve of the drive unit with the polygonal end of the rotary lever, thereby driving the rotation of the rotary lever.

Example 6

The structure and principle of embodiment 6 are similar to those of embodiment 5, except that: the drill bit also comprises a limiting unit, the limiting unit comprises a fixed plate 5-61 fixed on the drill bit, a protective shell 5-62 arranged at two sides of the fixed plate and provided with a horizontal cavity inside, and a compression spring 5-63 and a ramp block 5-64 disposed in the horizontal cavity of the protective object; the side wall of the horizontal cavity far away from the fixed plate and the side wall of the convex area of the concave box are provided with notches 5-65 positioned on the same vertical surface, the size of the notch is matched with that of the inclined surface block, and the movement track of the notch positioned in the horizontal cavity covers the notch positioned in the convex area of the concave box along with the up-down movement of the drill bit; the inclined plane of inclined plane piece up, and be located the breach end of horizontal cavity.

In the embodiment, a limiting unit is arranged, and an inclined surface block of the limiting unit in an initial state is abutted against the side wall above the notch of the concave box under the action of a spring; then, after the driving unit controls the drill bit to descend to a certain height, the notches in the concave box and the horizontal cavity are aligned, and the inclined plane block of the limiting unit passes through the two notches under the action of the spring, so that the drill bit is locked.

The foregoing is merely illustrative of the present utility model and is not intended to limit the scope of the utility model, which is defined by the claims and their equivalents.

Claims (9)

1. A building anti-seismic reinforcement mechanism is characterized in that: comprising

The frame is divided into an upper auxiliary box and a lower concave box which are fixedly connected, and the concave box is downwards distributed with a notch;

the reinforcing mechanism is fixedly arranged in the auxiliary box, two sliding blocks are arranged in the reinforcing mechanism, the two sliding blocks are positioned at the same height, and the distance between the two sliding blocks is adjusted according to requirements;

the top of the auxiliary box is provided with a through chute perpendicular to the wall body to be fixed, the bottom of the angle adjusting mechanism is fixed on the sliding block, the top of the angle adjusting mechanism penetrates through the chute to be connected with the support plates, and the two support plates are vertically arranged with the chute;

the drill bit mechanism is arranged in the concave box, a plurality of drill bits are arranged in the drill bit mechanism, the drill bits face downwards vertically, the drill bits are distributed in the convex areas on two sides of the concave box, and through holes matched with the drill bits are formed in the end heads of the vertical sections of the concave box; according to the requirement, the drill bit is extended out of the through hole by a corresponding length.

2. The building earthquake-resistant reinforcement mechanism of claim 1, wherein: the reinforcing mechanism comprises a screw rod with opposite external threads, a handle for driving the screw rod to rotate, and a locking assembly for fixing the position state between the screw rod and the auxiliary part; the sliding block is provided with a threaded hole matched with the external thread of the screw rod; the screw rod is arranged on the auxiliary box in a rotary connection mode, the screw rod and the sliding groove are arranged in parallel, and one end of the screw rod penetrates through the outer side of the auxiliary box; the handle is fixed at the end of the screw rod extending out of the auxiliary box; the locking assembly is connected between the screw rod and the auxiliary box, and locks the position between the screw rod and the auxiliary box when the screw rod rotates to a preset position.

3. The building earthquake-resistant reinforcement mechanism of claim 2, wherein: the locking component comprises a limiting block and a limiting rod, the limiting block is fixed on the auxiliary box near the handle, the limiting block and the handle are positioned at the same height, a through hole is formed in the limiting block, the through hole is matched with the outer diameter of the limiting rod, and the limiting rod is arranged in the through hole; a plurality of round holes are circumferentially arranged on the handle at intervals, the round holes are matched with the outer diameter of the limiting rod, and the axes of the through holes penetrate through the intersection points of the axes of all the round holes.

4. The building earthquake-resistant reinforcement mechanism of claim 1, wherein: the angle adjusting mechanism comprises a connecting block, an adjusting rod and a limiting clamping frame, the bottom of the connecting block is fixed on the sliding block, the middle of the connecting block penetrates through the sliding groove, mounting plates are arranged on the front side and the rear side of the connecting block, a gap between the mounting plates is consistent with the width of the supporting plate, coaxial shaft holes are formed in the two mounting plates, and the size of the shaft holes is matched with the outer diameter of the adjusting rod; the adjusting rods are arranged on two sides of the supporting plate in the width direction, the adjusting rods on the two sides are coaxial, and the supporting plate is arranged in the shaft hole of the mounting plate through the adjusting rods; a plurality of bulges are circumferentially arranged on the adjusting rod on one side, and a plurality of adjusting notches are circumferentially arranged on the mounting plate on the same side at intervals by taking the adjusting rod as the center; the limiting clamping frame is sleeved on the adjusting rod at the protruding part and is clamped into a certain adjusting notch.

5. The building earthquake-resistant reinforcement mechanism of claim 1, wherein: the angle adjusting mechanism comprises a connecting block, an adjusting rod and a limiting clamping frame, the bottom of the connecting block is fixed on the sliding block, the middle of the connecting block penetrates through the sliding groove, mounting plates are arranged on the front side and the rear side of the connecting block, a gap between the mounting plates is consistent with the width of the supporting plate, and coaxial shaft holes are formed in the two mounting plates; the adjusting rod is divided into an outer protruding section, a middle round rod section and an inner polygonal rod section, polygonal holes matched with the polygonal rod sections are formed in two sides of the width direction of the supporting plate, the polygonal holes in the two sides are coaxially distributed, the inner polygonal rod section is arranged in the polygonal holes, the size of the middle round rod section is matched with the size of the shaft hole, and the supporting plate is arranged on the mounting plate through the adjusting rod; a plurality of adjusting notches are circumferentially arranged on the mounting plates on the same side at intervals by taking the adjusting rods as the centers; the limiting clamping frame is sleeved on the external protruding section and is clamped into a certain adjusting notch.

6. The building earthquake-resistant reinforcement mechanism according to claim 4 or 5, wherein: the limiting clamping frame comprises a circular ring and an L-shaped clamping rod, an inner hole matched with the cross section of the protrusion of the adjusting rod is arranged in the circular ring, the clamping rod is divided into a vertical section and a horizontal section, the vertical section is fixed on the outer wall surface of the circular ring, the horizontal section faces the mounting plate, and the size and the shape of the end of the clamping rod, close to the mounting plate, are matched with those of the adjusting notch.

7. The building earthquake-resistant reinforcement mechanism of claim 1, wherein: the drill bit mechanism comprises a rotating rod, a rack and a gear which are matched with each other, a supporting rod and a driving unit, wherein the rotating rod is horizontally arranged, two ends of the rotating rod are arranged in a horizontal section of the concave box in a way of only rotating connection, the rotating rod is positioned right above the through hole, and one end of the rotating rod penetrates through the concave box and is connected with the driving unit; the gear is fixedly arranged on the rotating rod above the through hole, the rack is vertically arranged at the top of the drill bit, the positions of the rack and the gear are matched, and the rack and the gear are meshed; the outer wall surfaces of the protruding areas on the two sides of the concave box are provided with guide grooves which are vertically distributed, the supporting rods are horizontally distributed, one ends of the supporting rods are fixed on the racks, and the other ends of the supporting rods are arranged in the guide grooves.

8. The building earthquake-resistant reinforcement mechanism of claim 7, wherein: the driving unit is driven by a hand handle or a motor component, a polygonal joint is arranged at the end head of the rotating rod, and a polygonal sleeve matched with the polygonal joint is arranged in the hand handle or the motor component.

9. The building earthquake-resistant reinforcement mechanism of claim 7, wherein: the device also comprises a limiting unit, wherein the limiting unit comprises a fixed plate fixed on the drill bit, a protective shell arranged on two sides of the fixed plate and internally provided with a horizontal cavity, and a compression spring and an inclined surface block arranged in the horizontal cavity of the protective object; the side wall of the horizontal cavity far away from the fixed plate and the side wall of the convex area of the concave box are provided with notches positioned on the same vertical surface, the size of each notch is matched with that of the inclined surface block, and the motion trail of each notch positioned in the horizontal cavity covers the notch positioned in the convex area of the concave box along with the up-down movement of the drill bit; the inclined plane of inclined plane piece up, and be located the breach end of horizontal cavity.