CN111287462A

CN111287462A - Auxiliary assembly is consolidated to heel post for construction

Info

Publication number: CN111287462A
Application number: CN202010134650.0A
Authority: CN
Inventors: 朱世杰
Original assignee: 朱世杰
Current assignee: Xinyi Xiyi High Tech Material Industry Technology Research Institute Co Ltd
Priority date: 2020-03-02
Filing date: 2020-03-02
Publication date: 2020-06-16
Anticipated expiration: 2040-03-02
Also published as: CN111287462B

Abstract

The invention discloses auxiliary equipment for reinforcing a bearing column for building construction, which comprises an adjusting mechanism, an annular linkage gear, a driving mechanism, a protection mechanism, a plurality of feeding mechanisms and a defoaming mechanism, wherein the annular linkage gear and the feeding mechanisms are slidably mounted on the upper end surface of the adjusting mechanism, the feeding mechanisms are matched with the driving mechanism, the annular linkage gear rotates to drive other feeding mechanisms matched with the annular linkage gear to move, and the defoaming mechanism is driven to repeatedly beat a template in a pouring process under the limiting action of the protection mechanism. The feeding mechanism is limited by the protection mechanism, and the defoaming mechanism is driven by the feeding mechanism to repeatedly knock and defoam the template on the outer side of the bearing column so as to eliminate bubbles in concrete, improve the speed of eliminating the bubbles, ensure uniform stress of the template on the peripheral side of the bearing column, prevent the axle center of the bearing column from deviating and improve the bearing capacity of the bearing column.

Description

Auxiliary assembly is consolidated to heel post for construction

Technical Field

The invention belongs to the technical field of building construction, and relates to auxiliary equipment for reinforcing a bearing column for building construction.

Background

At present, the building construction process basically comprises a foundation, a beam, a column, a floor plate, a roof plate and the like, concrete is poured on a building construction site, the wall is mainly filled with traditional types such as clay bricks, various building blocks and the like, the construction period is long, and the engineering quality is seriously dependent on the level of site workers.

The function played by the bearing column is particularly important in the building construction process, the bearing column is also called a frame column, the bearing column has the largest bearing capacity in the building and is an important stressed component in the house building, and the function of preventing the building from collapsing is achieved. The bearing column reinforcing auxiliary device for building construction is designed for solving the problems that the bearing capacity of the bearing column is influenced due to the fact that the stress is not vertical and the load can not be effectively transferred.

Disclosure of Invention

The invention aims to provide bearing column reinforcing auxiliary equipment for building construction, which realizes repeated beating by synchronously controlling a feeding mechanism and driving a defoaming mechanism to beat a template through the feeding mechanism, and solves the technical problems in the prior art.

The purpose of the invention can be realized by the following technical scheme:

a bearing column reinforcing auxiliary device for building construction comprises an adjusting mechanism, an annular linkage gear, a driving mechanism, a protection mechanism, a plurality of feeding mechanisms and a defoaming mechanism, wherein the adjusting mechanism comprises a first base plate, a second base plate, an electric telescopic rod and an adjusting platform;

the adjusting platform comprises two detachably connected adjusting annular plates, sliding arc grooves and two first moving grooves are formed in the adjusting annular plates, the distance from the first moving grooves to the circle center of the adjusting annular plates is gradually reduced along the clockwise direction, and first mounting holes and second mounting holes are formed in the adjusting annular plates;

the annular linkage gear comprises a first linkage half gear and a second linkage half gear, sliding columns are fixed on the first linkage half gear and the second linkage half gear, sliding balls are fixed on the sliding columns, the sliding balls slide in sliding arc grooves, one ends of the first linkage half gear and the second linkage half gear are hinged, and the other ends of the first linkage half gear and the second linkage half gear are fixed through bolts;

the feeding mechanism comprises a first feeding unit and a second feeding unit, the first feeding unit comprises a first feeding sliding block, a sliding rod in sliding fit with the first moving groove is fixed on the lower end face of the first feeding sliding block, a first helical rack is arranged on the upper end face of the first feeding sliding block, straight teeth matched with the annular linkage gear are arranged on the inner side of the first feeding sliding block, and a threaded hole is formed in the first feeding sliding block on one feeding mechanism; the second feeding unit comprises a second feeding sliding block, two special-shaped holes are formed in the second feeding sliding block, a supporting flat plate is fixed to the lower end face of the second feeding sliding block through a guide plate, and a plurality of second helical racks in sliding fit with the first helical racks are fixed to the supporting flat plate;

the defoaming mechanism comprises a clip frame, a defoaming unit and a locking mechanism, the clip frame comprises a clip frame body, a plurality of guide holes are formed in the clip frame body, the locking mechanism comprises an arch-shaped part, a fixing nut and two connecting pieces, the two connecting pieces are respectively matched with the special-shaped holes in the second feeding sliding block, external threads are formed in the connecting pieces, the fixing nut is matched with the connecting pieces, the arch-shaped part comprises a connecting plate and a side baffle fixed with the connecting plate, the connecting plate is in clearance fit with the two connecting pieces, and the defoaming unit is arranged on the clip frame;

the driving mechanism comprises a first driving disc, a second driving disc, a first motor, a second motor, a first driving screw and a second driving screw connected with the first driving screw, an output shaft of the first motor is connected with the first driving disc through a first mounting hole, an output shaft of the second motor is connected with the second driving disc through a second mounting hole, a plurality of rotating teeth meshed with the first driving screw are arranged on the side edges of the first driving disc and the second driving disc, and the second driving screw is in sliding fit with a limiting hole of a fixing plate fixed on the adjusting platform;

the protection mechanism comprises two protection shells, wherein one end faces of the two protection shells are hinged, the other end of each protection shell is fixed through a bolt, and a limiting groove in sliding fit with the guide plate is formed in each protection shell.

Further, coaxial centre gripping unit includes baffle, electric putter and right angle board, and baffle fixed mounting is on first bed plate, and electric putter one end is fixed mutually with the baffle, and the other end is fixed mutually with the right angle board, and electric putter's the axis of the circular arc that the first bed plate corresponds of extension line.

Furthermore, a hinged plate is fixed on one end face of the first linkage half gear, an inserting arc groove and a step positioning hole are formed in the other end face of the first linkage half gear, the inserting arc groove is communicated with the step positioning hole, a hinged column hinged with the first hinged plate is fixed on one end face of the second linkage half gear, an arc extending plate is fixed on the other end face of the second linkage half gear, the arc extending plate is matched with the inserting arc groove, an inserting hole is formed in the arc extending plate, one end of the first linkage half gear fixed with the hinged plate rotates, when the arc extending plate is installed to the inserting arc groove, the step positioning hole and the inserting hole are coaxially distributed, and a fixing bolt is sequentially inserted into the step positioning hole and the inserting hole to be fixed.

Furthermore, the special-shaped holes are composed of rectangles and circular arcs, the circle centers corresponding to the circular arcs on the two special-shaped holes are overlapped, and the curvature radiuses of the two circular arcs are the same.

Further, the defoaming unit includes slip post and buffer spring, slip post and guiding hole sliding fit, and slip post one end is fixed with the separation blade, and the other end is fixed with the rubber tup, and buffer spring overlaps on the slip post, and buffer spring is located between rubber tup and the time shape frame body.

Furthermore, the first transmission lead screw and the second transmission lead screw rotate around the axis of the limiting hole in the fixing plate, the axes of the first transmission lead screw and the second transmission lead screw are on the same straight line, and the second transmission lead screw is matched with the threaded hole in the first feeding sliding block.

The invention has the beneficial effects that:

according to the auxiliary equipment for reinforcing the bearing column for building construction, the feeding mechanism is limited through the protection mechanism, and the defoaming mechanism is driven by the feeding mechanism to repeatedly knock and defoam the template on the outer side of the bearing column, so that bubbles in concrete are eliminated, the speed of eliminating the bubbles is increased, and the problem of height limitation is solved.

The bearing column is clamped and fixed through the coaxial clamping unit, so that the position relation between the reinforcement auxiliary equipment and the bearing column template is limited, the center of the reinforcement auxiliary equipment is always coincided with the axis of the bearing column in the construction defoaming process, and reliable fixed positioning is provided for the defoaming mechanism on the periphery side of the bearing column in the later period.

The driving discs in the driving mechanism run in opposite directions to drive the transmission screw rod to change in the rotating direction, so that the first feeding unit is driven to act, the annular linkage gear is meshed with the first feeding unit, each first feeding unit is driven to rotate synchronously, and the defoaming mechanism is driven to beat the templates on the periphery of the bearing column synchronously under the action of the cooperation of the first feeding unit and the second feeding unit and the action of the limiting groove, so that the templates on the periphery of the bearing column are uniformly stressed, the axis of the bearing column is continuously on the same axis, no distortion occurs, the axis change of the bearing column in the defoaming process is greatly avoided, the perpendicularity of the axis of the bearing column is improved, and the bearing capacity of the bearing column is further improved.

Through the structure setting of arc linkage gear, can realize being convenient for install and dismantle, satisfy the requirement of different heel post side lengths to through the structural design of the regulation platform among protection machanism and the adjustment mechanism, can lay the heel post that needs the defoaming to reinforcing auxiliary assembly in, with carry out the defoaming fast, improved the defoaming efficiency in the heel post manufacture process, avoid the best that artifical defoaming consumes, reduce the danger of artifical defoaming, and satisfy the requirement of co-altitude not.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a cross-sectional view of the present invention;

FIG. 2 is another cross-sectional view of the present invention;

FIG. 3 is a partial cross-sectional view of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged partial view of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of an adjustment mechanism of the present invention;

FIG. 6 is a schematic view of the ring gear of the present invention;

FIG. 7 is a schematic view of a first feeding unit in the present invention;

FIG. 8 is a schematic view of a second feeding unit in the present invention;

FIG. 9 is a schematic view of a defoaming mechanism in accordance with the present invention;

FIG. 10 is a schematic view of a guard mechanism of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-an adjusting mechanism, 11-a first base plate, 111-a baffle plate, 112-an electric push rod, 113-a right-angle plate, 12-a second base plate, 13-an electric telescopic rod, 14-an adjusting platform, 141-an adjusting annular plate, 142-a sliding arc groove, 143-a first moving groove, 144-a first mounting hole, 145-a second mounting hole, 2-an annular linkage gear, 21-a first linkage half gear, 211-a hinge plate, 212-a splicing arc groove, 213-a step positioning hole, 22-a second linkage half gear, 221-a hinge column, 222-an arc extension plate, 223-a splicing hole, 3-a feeding mechanism, 31-a first feeding unit, 311-a first feeding sliding block, 312-a sliding rod, 313-straight teeth, 314-a first oblique rack, 315-screw hole, 32-second feeding unit, 321-second feeding sliding block, 322-guide plate, 323-supporting plate, 324-second helical rack, 325-special-shaped hole, 4-defoaming mechanism, 41-clip frame, 411-clip frame body, 412-guide hole, 413-connecting piece, 42-arch piece, 421-connecting plate, 422-side baffle, 43-defoaming unit, 431-sliding column, 432-rubber hammer, 433-buffer spring, 434-baffle, 44-fixing nut, 5-driving mechanism, 51-first driving disk, 52-second driving disk, 53-first motor, 54-second motor, 55-first driving screw, 56-second driving screw, 57-fixing plate, 6-protection mechanism, 61-protection shell and 62-limit groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, an auxiliary device for reinforcing a bearing column for building construction includes an adjusting mechanism 1, an annular linkage gear 2, a driving mechanism 5, a protection mechanism 6, a plurality of feeding mechanisms 3 and a defoaming mechanism 4, the annular linkage gear 2 and the plurality of feeding mechanisms 3 are slidably mounted on an upper end surface of the adjusting mechanism 1, the feeding mechanisms 3 are matched with the driving mechanism 5, the driving mechanism 5 drives the annular linkage gear 2 to rotate through one of the feeding mechanisms 3, the annular linkage gear 2 rotates to drive the other feeding mechanisms 3 matched with the annular linkage gear 2 to move, and the feeding mechanism 3 drives the defoaming mechanism 4 to knock a template in a pouring process under the limiting action of the protection mechanism 6 so as to eliminate bubbles in concrete.

The adjusting mechanism 1 comprises a first base plate 11, a second base plate 12, an electric telescopic rod 13 and an adjusting platform 14, wherein the first base plate 11 and the second base plate 12 are both of a circular ring structure, the first base plate 11 and the second base plate 12 are identical in structure, the first base plate 11 and the second base plate 12 are both provided with a coaxial clamping unit, the coaxial clamping unit comprises a baffle plate 111, an electric push rod 112 and a right-angle plate 113, the baffle plate 111 is fixedly arranged on the first base plate 11, one end of the electric push rod 112 is fixed with the baffle plate 111, the other end of the electric push rod is fixed with the right-angle plate 113, the extension line of the electric push rod 112 passes through the axis of the circular arc corresponding to the first base plate 11, the right-angle plate 113 is a 90-degree right angle and is used for fixing the right angle of the bearing column, the bearing column can be clamped and fixed through the coaxial clamping units on the first base plate 11 and the second base plate 12, and the central line of the adjusting mechanism 1 and the axis of the bearing column are ensured to be on the same straight line; electric telescopic handle 13 vertical fixation is on first bed plate 11 and second bed plate 12, and electric telescopic handle 13 upper end is fixed with adjusts platform 14, can adjust the height of adjusting platform 14 through electric telescopic handle 13, satisfies not co-altitude.

The adjusting platform 14 includes two adjusting annular plates 141, the radius sizes of the two adjusting annular plates 141 are the same, one ends of the two adjusting annular plates 141 are hinged, the other ends of the two adjusting annular plates 141 are fixed by bolts, the two adjusting annular plates 141 form a complete circular ring structure, each adjusting annular plate 141 is provided with a sliding arc groove 142 and two first moving grooves 143, the included angle between every two adjacent first moving grooves 143 is 90 degrees, the distance between the first moving grooves 143 and the circle center of the adjusting annular plate 141 is gradually reduced along the clockwise direction, and the adjusting annular plate 141 is provided with first mounting holes 144 and second mounting holes 145.

The annular linkage gear 2 comprises a first linkage half gear 21 and a second linkage half gear 22, a sliding column 23 is fixed on the first linkage half gear 21 and the second linkage half gear 22, a sliding ball 24 is fixed on the sliding column 23, the sliding ball 24 slides in a sliding arc groove 142, a hinge plate 211 is fixed on one end surface of the first linkage half gear 21, a splicing arc groove 212 and a step positioning hole 213 are arranged on the other end surface, the splicing arc groove 212 is communicated with the step positioning hole 213, a hinge column 221 hinged with the first hinge plate 211 is fixed on one end surface of the second linkage half gear 22, an arc extension plate 222 is fixed on the other end surface, the arc extension plate 222 is matched with the splicing arc groove 212, a splicing hole 223 is arranged on the arc extension plate 222, one end of the first linkage half gear 21 fixed with the hinge plate 211 rotates, when the arc extension plate 222 is installed on the splicing arc groove 212, the step positioning hole 213 and the splicing hole 223 are coaxially distributed, the fixing bolts are inserted into the stepped positioning holes 213 and the inserting holes 223 in sequence, so that the first linkage half gear 21 and the second linkage half gear 22 can be fixed to form a complete gear, and the assembled annular linkage gear 2 slides along the track of the sliding arc groove 142 in the adjusting platform 14 through the sliding ball 24.

The feeding mechanism 3 comprises a first feeding unit 31 and a second feeding unit 32, the first feeding unit comprises a first feeding sliding block 311, a sliding rod 312 which is in sliding fit with the first moving groove 143 is fixed on the lower end surface of the first feeding sliding block 311, a first helical rack 314 is arranged on the upper end surface of the first feeding sliding block 311, a straight tooth 313 which is matched with the annular linkage gear 2 is arranged on the inner side of the first feeding sliding block 311, and a threaded hole 315 is formed in the first feeding sliding block 311 on one feeding mechanism 3; the second feeding unit 32 includes a second feeding sliding block 321, two irregular holes 325 are formed in the second feeding sliding block 321, each irregular hole 325 is composed of a rectangle and an arc, centers of circles corresponding to the arcs on the two irregular holes 325 coincide with each other, curvature radii of the two arcs are the same, a guide plate 322 is fixed on the lower end face of the second feeding sliding block 321, a support plate 323 is fixed on the lower end face of the guide plate 322, a plurality of second helical racks 324 in sliding fit with the first helical racks 314 are fixed on the lower end face of the support plate 323, the guide plate 322 on the second feeding sliding block 321 is under the limit of the sliding block of the limit groove 62 through the fit of the first helical racks 314 and the second helical racks 324, and the first feeding sliding block 321 is driven by the action of the first feeding sliding block 311 to slide on the limit groove 62.

The defoaming mechanism 4 comprises a clip frame 41, a defoaming unit 43 and a locking mechanism, the clip frame 41 comprises a clip frame body 411, a plurality of guide holes 412 are arranged on the clip frame body 411, the locking mechanism comprises an arch-shaped element 42, a fixing nut 44 and two connecting elements 413, the two connecting elements 413 are respectively in clearance fit with a special-shaped hole 325 on a second feeding sliding block 321, an external thread 414 is arranged on the connecting element 413, the fixing nut 44 is matched with the connecting element 413, the arch-shaped element 42 comprises a connecting plate 421 and a side baffle 422 fixed with the connecting plate 421, the connecting plate 421 is in clearance fit with the two connecting elements 413, when in use, the arch-shaped element 42 is arranged between the two connecting elements 413, and the fixing nut 44 is installed on the connecting member 413, functions to support the two connecting members 413, meanwhile, the reinforcing and defoaming mechanism 4 is arranged on the second feeding unit 32, and plays a role of locking the connecting piece 413, so that the positions of the fire fighting mechanism 4 and the feeding mechanism 3 are conveniently locked and fixed; defoaming unit 43 includes sliding column 431 and buffer spring 433, sliding column 431 and guiding hole 412 sliding fit, sliding column 431 one end is fixed with separation blade 434, the other end is fixed with rubber tup 432, buffer spring 433 overlaps on sliding column 431, and buffer spring 433 is located between rubber tup 432 and the frame body 411 that appears back, when defoaming unit 43 contacts the template in the heel post outside, rubber tup 432 is beaten to the template, carry out the defoaming to the muddy earth in the template, carry out the restoration of sliding column 431 under buffer spring 433's cushioning effect.

The driving mechanism 5 comprises a first driving disk 51, a second driving disk 52, a first motor 53, a second motor 54, a first transmission screw 55 and a second transmission screw 56, wherein an output shaft of the first motor 53 penetrates through a first mounting hole 144 to be connected with the first driving disk 51, an output shaft of the second motor 54 penetrates through a second mounting hole 145 to be connected with the second driving disk 52, a plurality of rotating teeth meshed with the first transmission screw 55 are locally arranged on the side edge of the first driving disk 51, a plurality of rotating teeth meshed with the first transmission screw 55 are locally arranged on the side edge of the second driving disk 52, the first transmission screw 55 is connected with the second transmission screw 56, the second transmission screw 56 is in sliding fit with a limiting hole of a fixing plate 57 fixed on the adjusting platform 14, the first transmission screw 55 and the second transmission screw 56 rotate around the axis of the limiting hole on the fixing plate 57, the axes of the first transmission screw 55 and the second transmission screw 56 are on the same straight line, the second lead screw 56 is engaged with the threaded hole 315 of the first advance slide block 311, wherein the first drive disk 51 and the second drive disk 52 rotate in opposite directions.

The protection mechanism 6 comprises two protection shells 61, the outer sides of one end faces of the two protection shells 61 are hinged, the other ends of the two protection shells 61 are fixed through bolts, the connection combination of the two protection shells 61 is achieved, the hinged faces of the two protection shells 61 and the hinged faces of the two adjusting annular plates 141 are in the same plane, the bolts sequentially penetrate through the protection shells 61 and the adjusting annular plates 141 to fix the protection mechanism 6 and the adjusting platform 14, and the protection shells 61 are provided with limiting grooves 62 in sliding fit with the guide plates 322.

During operation, when the first motor 53 and the second motor 54 operate to respectively drive the first driving disk 51 and the second driving disk 52 to rotate in opposite directions, when the rotating teeth on the first driving disk 51 are engaged with the first driving screw 55, the rotating teeth on the second driving disk 52 are not engaged with the first driving screw 55, the first driving disk 51 rotates to drive the first driving screw 55 to rotate clockwise, the first driving screw 55 rotates clockwise to drive the second driving screw 56 to rotate clockwise, the second driving screw 56 rotates clockwise to drive the first feeding unit 31 to move in the first moving groove 143 in the direction close to the axis of the annular linkage gear 2, at this time, the annular linkage gear 2 rotates clockwise to drive other first feeding units 31 to move in the first moving groove 143 in the direction close to the axis of the annular linkage gear 2, the first feeding unit 31 moves to drive the second feeding unit 32 to move close to and perpendicular to the ring under the action of the limiting groove 62 The axis direction of the shape linkage gear 2 moves, the second feeding unit 32 drives the defoaming mechanism 4 to move towards the direction close to the template, so that the distance between the defoaming unit 43 and the template is from far to near until the template is hammered, and the sliding column 431 is reset under the buffering action of the buffer spring 433.

After the rotating teeth on the first driving disc 51 are engaged with the first transmission screw 55, the rotating teeth on the second driving disc 52 are engaged with the first transmission screw 55, the second driving disc 52 rotates to drive the first transmission screw 55 to rotate counterclockwise, the first transmission screw 55 rotates clockwise to drive the second transmission screw 56 to rotate counterclockwise, the second transmission screw 56 rotates counterclockwise to drive the first feeding unit 31 to move away from the axis of the ring-shaped linkage gear 2 in the first moving groove 143, at this time, the ring-shaped linkage gear 2 rotates counterclockwise to drive other first feeding units 31 to move away from the axis of the ring-shaped linkage gear 2 in the first moving groove 143, the first feeding unit 31 moves to drive the second feeding unit 32 to move away from and perpendicular to the axis of the ring-shaped linkage gear 2 under the action of the limiting groove 62, and then second feeding unit 32 drives defoaming mechanism 4 and removes to the direction of keeping away from the template for defoaming unit 43 is from near to far away from the distance of template, carries out the restoration of sliding column 431 under the cushioning effect of buffer spring 433, so reciprocal, realizes the repeated hammering to the template, in order to eliminate the bubble in the muddy earth of pouring in the template.

Through the effect of annular linkage gear 2 for the action of four first feeding units 31 keeps unanimous, and first feeding unit 31 drives the displacement distance of second feeding unit 32 in spacing groove 62 the same, guarantees that defoaming mechanism 4 on the second feeding unit 32 beats the defoaming to the template of heel post week side in step, and because defoaming mechanism 4 beats the template of heel post week side in step, has guaranteed that heel post week side template atress is even, makes the axle center of heel post continuously on same axis, does not take place the distortion.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims

1. The utility model provides an auxiliary assembly is consolidated to heel post for construction which characterized in that: the defoaming device comprises an adjusting mechanism (1), an annular linkage gear (2), a driving mechanism (5), a protection mechanism (6), a plurality of feeding mechanisms (3) and a defoaming mechanism (4), wherein the adjusting mechanism (1) comprises a first base plate (11), a second base plate (12), an electric telescopic rod (13) and an adjusting platform (14), the first base plate (11) and the second base plate (12) are respectively provided with a coaxial clamping unit and the electric telescopic rod (13), and the adjusting platform (14) is fixed on the electric telescopic rod (13);

the adjusting platform (14) comprises two detachably connected adjusting ring-shaped plates (141), sliding arc grooves (142) and two first moving grooves (143) are formed in the adjusting ring-shaped plates (141), the distance from the first moving grooves (143) to the circle center of the adjusting ring-shaped plates (141) is gradually reduced along the clockwise direction, and first mounting holes (144) and second mounting holes (145) are formed in the adjusting ring-shaped plates (141);

the annular linkage gear (2) comprises a first linkage half gear (21) and a second linkage half gear (22), a sliding column (23) is fixed on the first linkage half gear (21) and the second linkage half gear (22), a sliding ball (24) is fixed on the sliding column (23), the sliding ball (24) slides in a sliding arc groove (142), one end of the first linkage half gear (21) is hinged with one end of the second linkage half gear (22), and the other end of the first linkage half gear is fixed through a bolt;

the feeding mechanism (3) comprises a first feeding unit (31) and a second feeding unit (32), the first feeding unit comprises a first feeding sliding block (311), a sliding rod (312) in sliding fit with the first moving groove (143) is fixed on the lower end face of the first feeding sliding block (311), a first helical rack (314) is arranged on the upper end face, a straight tooth (313) matched with the annular linkage gear (2) is arranged on the inner side of the first feeding sliding block (311), and a threaded hole (315) is formed in the first feeding sliding block (311) on one feeding mechanism (3); the second feeding unit (32) comprises a second feeding sliding block (321), two special-shaped holes (325) are formed in the second feeding sliding block (321), a supporting flat plate (323) is fixed on the lower end face of the second feeding sliding block (321) through a guide plate (322), and a plurality of second oblique racks (324) in sliding fit with the first oblique racks (314) are fixed on the supporting flat plate (323);

the defoaming mechanism (4) comprises a clip frame (41), a defoaming unit (43) and a locking mechanism, the clip frame (41) comprises a clip frame body (411), a plurality of guide holes (412) are formed in the clip frame body (411), the locking mechanism comprises an arch-shaped part (42), a fixing nut (44) and two connecting parts (413), the two connecting parts (413) are respectively matched with a special-shaped hole (325) in a second feeding sliding block (321), an external thread (414) is formed in the connecting part (413), the fixing nut (44) is matched with the connecting part (413), the arch-shaped part (42) comprises a connecting plate (421) and a side baffle (422) fixed with the connecting plate (421), the connecting plate (421) is in clearance fit with the two connecting parts (413), and the defoaming unit (43) is installed on the clip frame (41);

the driving mechanism (5) comprises a first driving disc (51), a second driving disc (52), a first motor (53), a second motor (54), a first transmission screw (55) and a second transmission screw (56) connected with the first transmission screw (55), an output shaft of the first motor (53) is connected with the first driving disc (51) through a first mounting hole (144), an output shaft of the second motor (54) is connected with the second driving disc (52) through a second mounting hole (145), a plurality of rotating teeth meshed with the first transmission screw (55) are arranged on the side edges of the first driving disc (51) and the second driving disc (52) partially, and the second transmission screw (56) is in sliding fit with a limiting hole of a fixing plate (57) fixed on the adjusting platform (14);

protection machanism (6) include two protecting crust (61), and two protecting crust (61) terminal surface outsides adopt the hinge, and the other end passes through the bolt fastening, and it has spacing groove (62) with deflector (322) sliding fit to open on protecting crust (61).

2. The auxiliary equipment is consolidated to spandrel column for construction according to claim 1, characterized in that: the coaxial clamping unit comprises a baffle (111), an electric push rod (112) and a right-angle plate (113), the baffle (111) is fixedly installed on the first base plate (11), one end of the electric push rod (112) is fixed with the baffle (111), the other end of the electric push rod is fixed with the right-angle plate (113), and the extension line of the electric push rod (112) passes through the axis of the arc corresponding to the first base plate (11).

3. The auxiliary equipment is consolidated to spandrel column for construction according to claim 1, characterized in that: one end face of the first linkage half gear (21) is fixedly provided with a hinged plate (211), the other end of the first linkage half gear is provided with an inserting arc groove (212) and a step positioning hole (213), the inserting arc groove (212) is communicated with the step positioning hole (213), one end face of the second linkage half gear (22) is fixedly provided with a hinged column (221) hinged with the first hinged plate (211), the other end face of the second linkage half gear is fixedly provided with an arc-shaped extension plate (222), the arc-shaped extension plate (222) is matched with the inserting arc groove (212), the arc-shaped extension plate (222) is provided with an inserting hole (223), one end of a first linkage half gear (21) fixed with a hinge plate (211) rotates, when the arc-shaped extension plate (222) is installed to the inserting arc groove (212), the step positioning hole (213) and the inserting hole (223) are coaxially distributed, and the fixing bolt is sequentially inserted into the step positioning hole (213) and the inserting hole (223) for fixing.

4. The auxiliary equipment is consolidated to spandrel column for construction according to claim 1, characterized in that: the special-shaped holes (325) are composed of rectangles and circular arcs, the circle centers corresponding to the circular arcs on the two special-shaped holes (325) are overlapped, and the curvature radiuses of the two circular arcs are the same.

5. The auxiliary equipment is consolidated to spandrel column for construction according to claim 4, characterized in that: defoaming unit (43) include sliding column (431) and buffer spring (433), sliding column (431) and guiding hole (412) sliding fit, sliding column (431) one end is fixed with separation blade (434), and the other end is fixed with rubber tup (432), and buffer spring (433) cover is on sliding column (431), and buffer spring (433) are located between rubber tup (432) and time shape frame body (411).

6. The support pillar reinforcement auxiliary equipment for building construction according to any one of claims 1 to 5, wherein: the first transmission lead screw (55) and the second transmission lead screw (56) rotate around the axis of the limiting hole in the fixing plate (57), the axes of the first transmission lead screw (55) and the second transmission lead screw (56) are on the same straight line, and the second transmission lead screw (56) is matched with a threaded hole (315) in the first feeding sliding block (311).