CN115126286B - Independent support frame for assembled building construction - Google Patents

Abstract

The invention provides an independent support frame for assembled building construction, which relates to the technical field of building construction and comprises a positioning support part; the positioning support part is provided with a lifting device in a sliding manner; the lifting device is connected with a driving positioning piece in a sliding way; the lifting device is rotatably connected with an inclined plane supporting part; the inclined plane supporting part is connected with a buffering stress part in a sliding way; two steel structure connecting parts are connected to the buffering stress part in a sliding manner; the two steel structure connecting parts are respectively and rotatably connected with a sliding connecting piece; the assembly and construction suitability is stronger, the structure is more flexible to use, the connection effect of the steel structure assembly member can be improved, and the overall support stability effect is better; the problems that the safety of an independent support frame used for assembly type building construction is poor, different support members cannot be switched at will, the construction efficiency is low, the auxiliary application of prestress cannot be realized, and the welding work is inconvenient are solved.

Description

Independent support frame for assembled building construction

Technical Field

The invention relates to the technical field of building construction, in particular to an independent support frame for assembled building construction.

Background

In actual building construction work, the assembled building is a very common building structure form, and the assembled building is provided with a floor slab, a stair and the like, wherein the assembled building also comprises a prefabricated floor slab assembly structure, a steel structure floor slab and the like, wherein the prefabricated floor slab needs to be secondarily poured, filled and reinforced, the steel structure floor slab needs to be anchored by parts such as bolts and the like, and then in actual assembled building structure construction, the floor slab needs to be supported, and then an independent support frame for assembled building construction needs to be used.

However, with regard to the independent support frame of the present assembly type building construction, the structure is too simple, rely on the manual work to build, use inflexibly, can't realize setting up the auto-lock simultaneously, the security is poor, can't realize general support simultaneously, can not switch different supporting member at will, the efficiency of construction is low, can't realize simultaneously that the linkage is set up and is tightened up, can't realize supplementary prestressing force of applyingtheneing, also be inconvenient for the welding work to go on, the follow-up stability of steel construction is poor, the bolt fastening connection suitability is poor simultaneously.

Disclosure of Invention

In view of the above, the invention provides an independent support frame for assembled building construction, which is provided with a steel structure connecting part, can have better universality and stronger adaptability, can realize prestress pull-back, increases the butt joint and fitting effects of steel structure floors, avoids generating gaps, and is more convenient for welding and bolting.

The invention provides an independent support frame for assembled building construction, which particularly comprises a positioning support part; the positioning support part is provided with a lifting device in a sliding manner; the lifting device is connected with a driving positioning piece in a sliding way; the lifting device is rotatably connected with an inclined plane supporting part; the inclined plane supporting part is connected with a buffering stress part in a sliding way; two steel structure connecting parts are connected to the buffering stress part in a sliding manner; the two steel structure connecting parts are respectively and rotatably connected with a sliding connecting piece; a pouring stop part is fixedly connected between the two sliding connecting pieces; the positioning support portion includes: the positioning support cylinder, the support foot plate and the mounting bottom plate are fixedly connected with the support foot plate at the bottom of the positioning support cylinder, and the support foot plate is fixedly connected to the mounting bottom plate through bolts; the lifting device includes: the lifting sliding rod, the driving gear, the driving worm wheel and the driving worm are connected to the positioning supporting cylinder in a sliding manner; the driving gear is rotationally connected to the lifting sliding rod through a shaft; the shaft end of the driving gear is fixedly connected with a driving worm wheel; the lifting sliding rod is rotationally connected with a driving worm, and the driving worm is meshed with the driving worm wheel.

Optionally, the steel structure connection part includes: the device comprises a tightening steel frame, tightening sliding shafts, sliding ball shafts and mounting springs, wherein the tightening steel frame is fixedly connected with three tightening sliding shafts which are respectively and slidably connected to a supporting stress frame; the tightening steel frame is fixedly connected with two sliding ball shafts which are respectively and slidably connected to the supporting stress frame; the two sliding ball shafts are respectively and slidably attached to the inclined planes on the same side to extrude and slide quickly; and the three tightening sliding shafts are respectively sleeved with a mounting spring.

Optionally, the positioning support part further includes: the positioning gear ring is fixedly connected to the positioning support cylinder.

Optionally, the sliding connector comprises: the rotating transverse frame, the bolt mounting block and the positioning bolt are rotationally connected to the tightening steel frame; three bolt installation blocks are connected to the rotating transverse frame in a sliding manner, and positioning bolts are respectively connected to the side faces of the three bolt installation blocks in a threaded manner; the three positioning bolts respectively penetrate through the side surfaces of the rotating transverse frame.

Optionally, the bevel support includes: the device comprises a rotary supporting block, an arc-shaped rack, a buffer main shaft and a buffer spring, wherein the rotary supporting block is rotationally connected to a lifting sliding rod; the bottom of the rotary supporting block is fixedly connected with an arc-shaped rack, and the arc-shaped rack is meshed with the driving gear; the rotary supporting block is fixedly connected with a buffer main shaft; and the rotary supporting block is sleeved with a buffer spring.

Optionally, the pouring stopper includes: the two baffle clamping plates are respectively and fixedly connected to the rotating transverse frame, and two protruding sliding strips are respectively arranged on the two baffle clamping plates; two sliding limiting grooves are formed in the pouring stop plate; the pouring stop plate is connected to the two baffle clamping plates in a sliding mode through the two sliding limiting grooves.

Optionally, the lifting device includes: the lifting adjusting threaded rod and the sliding cross groove are rotationally connected to the positioning supporting cylinder; the lifting adjusting threaded rod is connected with a lifting sliding rod in a threaded manner; and a sliding cross groove is formed in the bottom of the lifting adjusting threaded rod.

Optionally, the buffering stress part includes: the support stress frame and the extrusion connecting plate are connected to the buffer main shaft in a sliding manner; four extrusion connecting plates are fixedly connected to the support stress frame, and inclined planes are respectively connected to the four extrusion connecting plates in a sliding manner to extrude the slide rapidly.

Optionally, the bevel support further comprises: the supporting beam and the inclined plane are extruded quickly, and the supporting beam is fixedly connected to the buffering main shaft; the four inclined plane extrusion slide blocks are fixedly connected to the supporting cross beam, and the four inclined plane extrusion slide blocks are respectively provided with a sliding groove.

Optionally, the driving positioning member includes: the device comprises a driving sliding block, a sliding insertion block, a butt joint gear ring and a stabilizing spring, wherein the driving sliding block is fixedly connected with the sliding insertion block; the section of the sliding insertion block is cross-shaped; the sliding insert block is connected to the sliding cross groove in a sliding manner; the driving sliding block is of a hexagonal column structure; the bottom of the driving sliding block is fixedly connected with a butting gear ring, and the butting gear ring is inserted on the positioning gear ring; the sliding plug block is sleeved with a stabilizing spring.

Advantageous effects

According to the support frame disclosed by the embodiment of the invention, the erection is quicker, the assembly and construction suitability is stronger, the structure is more flexible to use, the connection effect of the steel structure assembly member can be improved, and the overall support stabilizing effect is better.

In addition, through adopting the drive setting element, can effectually improve the stability that overall structure used, can effectually avoid supporting the high change that takes place, lead to the uneven and potential safety hazard such as fracture of floor atress, overall structure is simple, can not influence normal altitude mixture control work, through setting up elevating gear, cooperation location supporting part, can realize more laborsaving drive and adjust supporting height, the operation is simpler, can effectually avoid the scene to erect the problem that the installation steel pipe is not convenient enough, the whole is erect more high-efficient, whole equipment only an stand simultaneously, can practice thrift the control more, the building site is cleaner and tidier, can realize driving the rotation of lift adjustment threaded rod through adopting earlier upwards slip drive sliding block, drive lift sliding rod goes up and down, overall operation is simpler, through loosening the drive sliding block, under the drive of stabilizing spring, can drive the butt joint ring gear and insert the location ring gear, realize positioning work, simultaneously through adopting the sliding insert that sets up, adopt "ten" font, can realize that the drive goes up and down and adjust threaded rod and rotate, can slide on the lift adjustment simultaneously, it is more practical nimble.

In addition, through adopting buffering atress portion, can effectually improve the buffering effect, avoid when the whole rising of drive buffering atress portion to prefabricated formula's assembly floor roof pressure excessive, overall structure is simpler practical, the inclined plane supporting part of setting can realize elastic support on the one hand, the inclined plane supporting part of setting simultaneously can realize the suitability inclined plane and support, the centre gripping work of assembly components such as stair that can be higher adaptation, whole commonality is more preceding, the important effect of adopting the buffering atress portion of setting lies in can realizing increasing the holding area, the improvement supporting effect, overall structure is simpler practical, through adopting the rotation drive worm, drive gear rotates meshing drive arc rack and rotates, realize driving the rotation supporting shoe and rotate, realize the drive and carry out the angle modulation, when bearing weight, buffer through buffer spring, overall structure is more stable, the practicality is stronger.

In addition, through setting up and pour backstop portion, can effectually carry the commonality of this equipment, not only be applicable to steel construction assembly building and be applicable to prefabricated building component equally, overall structure is simpler practical, overall cost is lower, steel construction connecting portion that sets up simultaneously, can make the optimization to steel construction assembly structure, can realize the linkage inwards press from both sides tightly, can be convenient for bolted connection or welding more, avoid the excessive whole building stress condition of influence and unable welded problem in gap, need not manual operation simultaneously, the linkage relies on floor self weight can be realized, sliding connection spare that sets up simultaneously can improve bolted connection flexibility, and is more practical, overall suitability is stronger, simultaneously rotate the rotation crossbearer of connection and can realize rotating the adaptation, overall adaptation effect is better, when the support atress frame receives gravity extrusion, extrusion connecting plate can extrude the slip bulb, the slip bulb axle receives the extrusion inwards to remove, drive and tighten up the rotation crossbearer on the steelframe and remove simultaneously, that is realized inwards pulling two adjacent, the backstop can be freely taken off, adopt pouring backstop simple structure to pour, can realize supplementary building structure, can be used for prefabricated slab construction quality is stronger, high-quality.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic view of the entire support frame according to an embodiment of the invention;

FIG. 2 shows a schematic view of the bottom of a support stand according to an embodiment of the invention;

FIG. 3 shows an enlarged schematic view of a support structure according to an embodiment of the invention;

FIG. 4 shows a cross-sectional view of an enlarged internal structure according to an embodiment of the invention;

FIG. 5 shows a schematic view of a positioning support according to an embodiment of the invention;

fig. 6 shows a schematic view of a lifting device according to an embodiment of the invention;

FIG. 7 shows a schematic view of a drive positioning member according to an embodiment of the present invention;

FIG. 8 shows a schematic view of a ramp support according to an embodiment of the present invention;

FIG. 9 shows a schematic view of a cushioning force receiver according to an embodiment of the present invention;

FIG. 10 shows a schematic view of a steel structure connection according to an embodiment of the invention;

FIG. 11 shows a schematic view of a sliding connection according to an embodiment of the invention;

fig. 12 shows a schematic view of a pouring stopper according to an embodiment of the invention.

List of reference numerals

1. Positioning the supporting part; 101. positioning a supporting cylinder; 1011. a support foot plate; 102. a mounting base plate; 103. positioning a gear ring; 2. a lifting device; 201. lifting the sliding rod; 202. a drive gear; 203. a drive worm wheel; 204. driving a worm; 205. lifting and adjusting the threaded rod; 2051. sliding cross grooves; 3. driving the positioning piece; 301. driving the sliding block; 3011. a sliding insert; 302. butting a gear ring; 303. a stabilizing spring; 4. an inclined surface supporting part; 401. rotating the supporting block; 402. an arc-shaped rack; 403. buffering the main shaft; 404. a buffer spring; 405. a support beam; 406. the inclined plane extrusion is fast; 5. buffering the stress part; 501. supporting a stress frame; 502. extruding the connecting plate; 6. a steel structure connecting part; 601. tightening the steel frame; 6011. tightening the sliding shaft; 602. a sliding ball head shaft; 603. installing a spring; 7. a sliding connection; 701. rotating the transverse frame; 702. a bolt mounting block; 703. positioning bolts; 8. pouring a stop part; 801. a baffle clamping plate; 802. pouring a stop plate; 8021. and a sliding limit groove.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 12:

the invention provides an independent support frame for assembled building construction, which comprises a positioning support part 1; the positioning support part 1 is provided with a lifting device 2 in a sliding manner; the lifting device 2 is connected with a driving positioning piece 3 in a sliding way; the lifting device 2 is rotatably connected with an inclined plane supporting part 4; the inclined plane supporting part 4 is connected with a buffer stress part 5 in a sliding way; two steel structure connecting parts 6 are connected to the buffer stress part 5 in a sliding manner; the two steel structure connecting parts 6 are respectively and rotatably connected with a sliding connecting piece 7; a pouring stop part 8 is fixedly connected between the two sliding connecting pieces 7; the positioning support portion 1 includes: the positioning support cylinder 101, the support foot plate 1011 and the mounting bottom plate 102, wherein the support foot plate 1011 is fixedly connected to the bottom of the positioning support cylinder 101, and the support foot plate 1011 is fixedly connected to the mounting bottom plate 102 through bolts; the lifting device 2 includes: the lifting sliding rod 201, the driving gear 202, the driving worm wheel 203 and the driving worm 204, wherein the lifting sliding rod 201 is connected to the positioning support cylinder 101 in a sliding manner; the driving gear 202 is rotatably connected to the lifting slide rod 201 through a shaft; the shaft end of the driving gear 202 is fixedly connected with a driving worm gear 203; the lifting slide rod 201 is rotatably connected with a driving worm 204, and the driving worm 204 is meshed with a driving worm wheel 203.

Furthermore, according to an embodiment of the present invention, as shown in fig. 5 to 7, the positioning support portion 1 further includes: the positioning gear ring 103, the positioning gear ring 103 is fixedly connected to the positioning support cylinder 101; the lifting device 2 includes: a lifting adjusting threaded rod 205 and a sliding cross groove 2051, wherein the lifting adjusting threaded rod 205 is rotatably connected to the positioning support cylinder 101; the lifting adjusting threaded rod 205 is connected with a lifting sliding rod 201 in a threaded manner; the bottom of the lifting adjusting threaded rod 205 is provided with a sliding cross groove 2051; the driving positioning member 3 includes: the driving sliding block 301, the sliding plug 3011, the butting gear ring 302 and the stabilizing spring 303 are arranged on the driving sliding block 301, and the sliding plug 3011 is fixedly connected to the driving sliding block 301; the cross section of the sliding insertion block 3011 is cross-shaped; the sliding insert 3011 is slidably connected to the sliding cross recess 2051; the driving sliding block 301 has a hexagonal column structure; the bottom of the driving sliding block 301 is fixedly connected with a butting gear ring 302, and the butting gear ring 302 is inserted on the positioning gear ring 103; the sliding plug 3011 is sleeved with the stabilizing spring 303, the driving locating piece 3 is adopted, the stability of the whole structure can be effectively improved, the supporting height can be effectively prevented from changing, potential safety hazards such as uneven stress and breakage of a floor slab are caused, the whole structure is simple, normal height adjustment work can not be influenced, the lifting device 2 is arranged, the supporting portion 1 is matched with the sliding plug 3011, more labor-saving driving adjustment of the supporting height can be realized, the operation is simpler, the problem that a steel pipe is not convenient enough for field erection can be effectively avoided, the whole erection is more efficient, meanwhile, the whole equipment is provided with only one upright post, the control can be saved, the construction site is tidier, the driving lifting adjustment threaded rod 205 can be realized through adopting the upward sliding driving sliding block 301, the lifting sliding rod 201 is driven to lift, the whole operation is simpler, the butting gear ring 302 can be driven to be inserted into the positioning gear ring 103 through loosening the driving sliding block 301, the positioning work is realized, meanwhile, the threaded rod 3011 is adopted in a cross shape, the lifting adjustment 205 can be driven, and the lifting adjustment 205 can be realized, and the lifting adjustment can be realized on the threaded rod 205 by sliding on the threaded rod.

Further, according to an embodiment of the present invention, as shown in fig. 8, 9, the slope support section 4 includes: the rotary support block 401, the arc-shaped rack 402, the buffer main shaft 403 and the buffer spring 404, wherein the rotary support block 401 is rotationally connected to the lifting sliding rod 201; an arc-shaped rack 402 is fixedly connected to the bottom of the rotary supporting block 401, and the arc-shaped rack 402 is meshed with the driving gear 202; a buffer main shaft 403 is fixedly connected to the rotary supporting block 401; a buffer spring 404 is sleeved on the rotary supporting block 401; the bevel support 4 further includes: the supporting beam 405 and the inclined plane extrusion slide block 406, the supporting beam 405 is fixedly connected to the buffering main shaft 403; four inclined plane extrusion slide blocks 406 are fixedly connected to the supporting cross beam 405, and sliding grooves are respectively formed in the four inclined plane extrusion slide blocks 406; the buffer force receiving portion 5 includes: a supporting stress frame 501 and an extrusion connecting plate 502, wherein the supporting stress frame 501 is connected on the buffering main shaft 403 in a sliding way; four extrusion connecting plates 502 of fixedly connected with on supporting the atress frame 501, and sliding connection has inclined plane extrusion smooth quick 406 respectively on four extrusion connecting plates 502, through adopting buffering atress portion 5, can effectually improve buffering effect, avoid when the whole rising of drive buffering atress portion 5 to prefabricated formula assembly floor roof pressure excessively, overall structure is simpler practical, inclined plane supporting part 4 of setting, on the one hand can realize elastic support, the inclined plane supporting part 4 of setting can realize the suitability inclined plane supporting simultaneously, the centre gripping work of fitting components such as stair that can be higher, the wholeness commonality is earlier, the important effect of adopting buffering atress portion 5 of setting is in that can realize increasing the holding area, improve the supporting effect, overall structure is simpler practical, through adopting rotation drive worm 204, drive gear 202 rotates meshing drive arc rack 402 and rotates, realize driving rotation supporting block 401 and rotate, realize the drive and carry out angle modulation, when bearing weight, buffer through buffer spring 404, overall structure is more stable, the practicality is stronger.

Further, according to an embodiment of the present invention, as shown in fig. 10 to 12, the steel structure connection part 6 includes: the tightening steel frame 601, the tightening sliding shafts 6011, the sliding ball head shafts 602 and the mounting springs 603, wherein the tightening steel frame 601 is fixedly connected with three tightening sliding shafts 6011, and the three tightening sliding shafts 6011 are respectively and slidably connected to the supporting stress frame 501; two sliding ball shafts 602 are fixedly connected to the tightening steel frame 601, and the two sliding ball shafts 602 are respectively and slidably connected to the supporting stress frame 501; the two sliding ball shafts 602 are respectively and slidably attached to the inclined plane extrusion slide blocks 406 on the same side; the three tightening sliding shafts 6011 are respectively sleeved with a mounting spring 603; the sliding connection 7 includes: the rotating cross frame 701, the bolt mounting block 702 and the positioning bolt 703, wherein the rotating cross frame 701 is rotatably connected to the tightening steel frame 601; three bolt mounting blocks 702 are connected to the rotating transverse frame 701 in a sliding manner, and positioning bolts 703 are respectively connected to the side surfaces of the three bolt mounting blocks 702 in a threaded manner; three positioning bolts 703 respectively pass through the side surfaces of the rotating cross frame 701; the pouring stopper 8 includes: the two baffle clamping plates 801 are fixedly connected to the rotating transverse frame 701 respectively, and two protruding sliding strips are arranged on the two baffle clamping plates 801 respectively; two sliding limiting grooves 8021 are formed in the pouring stop plate 802; pouring baffle 802 is through two slip limit grooves 8021 sliding connection on two baffle grip blocks 801, through setting up pouring backstop 8, can effectually carry the commonality of this equipment, not only be applicable to steel construction assembly building and be applicable to prefabricated building element equally, overall structure is simpler practical, overall structure is lower, steel construction connecting portion 6 of setting up simultaneously, can make the optimization to steel construction assembly structure, can realize the linkage inwards clamp, can be convenient for bolted connection or welding more, avoid the excessive problem that influences the whole building atress condition and can't be welded in gap, need not manual operation simultaneously, the linkage relies on floor self weight can realize, sliding connection spare 7 that sets up simultaneously can improve bolted connection flexibility, whole suitability is stronger, simultaneously the rotation crossbearer 701 of rotation connection can realize rotating the adaptation, overall adaptation effect is better, when supporting atress frame 501 receives the gravity extrusion, extrusion bulb axle 602 can be extruded, the extrusion bulb axle 602 receives the extrusion inwards to remove, the crossbearer 701 on the drive steel frame 601 removes simultaneously, just realize that the pouring is adjacent two and can realize that the adjacent to take advantage of the baffle is realized, the prefabricated concrete construction quality is more easily, the prefabricated concrete construction is realized, the cost is more easily unloaded, the baffle is more convenient for use to realize.

Specific use and action of the embodiment: in the invention, firstly, the sliding block 301 is driven to slide upwards, the sliding insert block 3011 is driven to slide in the sliding cross groove 2051, at the moment, the sliding block 301 is driven to rotate by a spanner, the rotation of the lifting adjusting threaded rod 205 can be driven to realize the lifting adjustment of the lifting sliding rod 201, the driving of the sliding block 301 is released, the butting gear ring 302 can be driven to be inserted into the positioning gear ring 103 by the driving of the stabilizing spring 303, the positioning work is realized, the driving worm 204 is rotated, the rotation of the driving worm wheel 203 which is driven to be arranged can be realized, the driving gear 202 is driven to rotate and meshed with the arc-shaped rack 402 to rotate, the rotation of the rotating supporting block 401 is driven to realize the angle adjustment, when the weight is born, the buffering main shaft 403 is unchanged, the supporting stressed frame 501 slides downwards on the buffering main shaft 403 at the moment, the buffering is carried out by the buffering spring 404, through adopting bolt and steel construction to be connected with rotating crossbearer 701, overall structure is simpler nimble, through adopting rotation positioning bolt 703, can realize extrusion locking rotating crossbearer 701, when supporting atress frame 501 receives the gravity extrusion, extrusion connecting plate 502 on the buffering main shaft 403 is upwards movable for supporting atress frame 501 this moment, extrusion connecting plate 502 can extrude slip bulb axle 602 this moment, slip bulb axle 602 receives the extrusion inwards movement this moment, it tightens up the rotating crossbearer 701 on the steelframe 601 to move simultaneously to drive, namely realize inwards pulling two adjacent planks, can select whether to adopt pouring baffle 802 according to the actual conditions, can freely take off and unload, adopt pouring baffle 802 to realize supplementary backstop concrete, prevent concrete pouring leakage, take off pouring baffle 802 simultaneously and also be convenient for weld more, accomplish whole use.

Finally, it should be noted that the present invention is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (4)

1. An independent support frame for assembly type building construction is characterized by comprising a positioning support part (1); the lifting device (2) is slidably arranged on the positioning support part (1); the lifting device (2) is connected with a driving positioning piece (3) in a sliding way; an inclined plane supporting part (4) is rotatably connected to the lifting device (2); the inclined plane supporting part (4) is connected with a buffer stress part (5) in a sliding way; two steel structure connecting parts (6) are connected to the buffer stress part (5) in a sliding manner; the two steel structure connecting parts (6) are respectively and rotatably connected with a sliding connecting piece (7); a pouring stop part (8) is fixedly connected between the two sliding connecting pieces (7); the positioning support (1) comprises: the positioning support cylinder (101), a support foot plate (1011) and a mounting bottom plate (102), wherein the support foot plate (1011) is fixedly connected to the bottom of the positioning support cylinder (101), and the support foot plate (1011) is fixedly connected to the mounting bottom plate (102) through a bolt; the lifting device (2) comprises: the lifting sliding rod (201), the driving gear (202), the driving worm wheel (203) and the driving worm (204), wherein the lifting sliding rod (201) is connected to the positioning supporting cylinder (101) in a sliding manner; the driving gear (202) is rotatably connected to the lifting sliding rod (201) through a shaft; the shaft end of the driving gear (202) is fixedly connected with a driving worm wheel (203); the lifting sliding rod (201) is rotatably connected with a driving worm (204), and the driving worm (204) is meshed with the driving worm wheel (203);

the lifting device (2) comprises: the lifting adjusting threaded rod (205) and the sliding cross groove (2051), wherein the lifting adjusting threaded rod (205) is rotatably connected to the positioning supporting cylinder (101); the lifting sliding rod (201) is connected to the lifting adjusting threaded rod (205) in a threaded manner; a sliding cross groove (2051) is formed in the bottom of the lifting adjusting threaded rod (205);

the driving positioning member (3) includes: the device comprises a driving sliding block (301), a sliding inserting block (3011), a butting gear ring (302) and a stabilizing spring (303), wherein the sliding inserting block (3011) is fixedly connected to the driving sliding block (301); the section of the sliding insert block (3011) is cross-shaped; the sliding plug block (3011) is connected on the sliding cross groove (2051) in a sliding manner; the driving sliding block (301) is of a hexagonal column structure; the bottom of the driving sliding block (301) is fixedly connected with a butting gear ring (302), and the butting gear ring (302) is inserted on the positioning gear ring (103); the sliding plug block (3011) is sleeved with a stabilizing spring (303);

the inclined surface support part (4) comprises: the device comprises a rotary supporting block (401), an arc-shaped rack (402), a buffer main shaft (403) and a buffer spring (404), wherein the rotary supporting block (401) is rotatably connected to a lifting sliding rod (201); an arc-shaped rack (402) is fixedly connected to the bottom of the rotary supporting block (401), and the arc-shaped rack (402) is meshed with the driving gear (202); a buffer main shaft (403) is fixedly connected to the rotary supporting block (401); a buffer spring (404) is sleeved on the rotary supporting block (401);

the buffer stress part (5) comprises: the device comprises a supporting stress frame (501) and an extrusion connecting plate (502), wherein the supporting stress frame (501) is connected to a buffering main shaft (403) in a sliding manner; four extrusion connecting plates (502) are fixedly connected to the supporting stress frame (501), and inclined plane extrusion slide blocks (406) are respectively and slidably connected to the four extrusion connecting plates (502);

the steel structure connection (6) comprises: the device comprises a tightening steel frame (601), tightening sliding shafts (6011), sliding ball shafts (602) and mounting springs (603), wherein three tightening sliding shafts (6011) are fixedly connected to the tightening steel frame (601), and the three tightening sliding shafts (6011) are respectively and slidably connected to a supporting stress frame (501); two sliding ball shafts (602) are fixedly connected to the tightening steel frame (601), and the two sliding ball shafts (602) are respectively and slidably connected to the supporting stress frame (501); the two sliding ball shafts (602) are respectively and slidably attached to the inclined plane extrusion slide blocks (406) on the same side; the three tightening sliding shafts (6011) are respectively sleeved with a mounting spring (603);

the pouring stopper (8) comprises: the two baffle clamping plates (801), the pouring stop baffle (802) and the sliding limit groove (8021) are arranged, the two baffle clamping plates (801) are fixedly connected to the rotating transverse frame (701) respectively, and two protruding sliding strips are arranged on the two baffle clamping plates (801) respectively; two sliding limiting grooves (8021) are formed in the pouring stop plate (802); the pouring stop plate (802) is connected to the two plate clamping plates (801) in a sliding mode through two sliding limiting grooves (8021).

2. An independent support frame for use in fabricated building construction as claimed in claim 1, wherein: the positioning support (1) further comprises: and the positioning gear ring (103), wherein the positioning gear ring (103) is fixedly connected to the positioning support cylinder (101).

3. An independent support frame for use in fabricated building construction as claimed in claim 1, wherein: the bevel support (4) further comprises: the supporting beam (405) and the inclined plane extrusion slide block (406), wherein the supporting beam (405) is fixedly connected to the buffering main shaft (403); four inclined plane extrusion slide blocks (406) are fixedly connected to the supporting cross beam (405), and sliding grooves are respectively formed in the four inclined plane extrusion slide blocks (406).

4. An independent support frame for use in fabricated building construction as claimed in claim 1, wherein: the sliding connection (7) comprises: the device comprises a rotating transverse frame (701), a bolt mounting block (702) and a positioning bolt (703), wherein the rotating transverse frame (701) is rotatably connected to a tightening steel frame (601); three bolt mounting blocks (702) are connected to the rotating transverse frame (701) in a sliding manner, and positioning bolts (703) are respectively connected to the side surfaces of the three bolt mounting blocks (702) in a threaded manner; three positioning bolts (703) respectively penetrate through the side surfaces of the rotating transverse frame (701).