CN113958152A

CN113958152A - Be used for independent braced system of assembled building construction

Info

Publication number: CN113958152A
Application number: CN202111503152.XA
Authority: CN
Inventors: 谭海洋; 邹德龙; 杜佳俊
Original assignee: China Construction Eighth Engineering Division Co Ltd
Current assignee: China Construction Eighth Engineering Division Co Ltd
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2022-01-21
Anticipated expiration: 2041-12-10
Also published as: CN113958152B

Abstract

The invention discloses an independent support system for assembly type building construction, which relates to the technical field of building construction, and particularly comprises an adjusting assembly and a horizontal confirmation assembly, wherein the top of the adjusting assembly is connected with a steel support, the adjusting assembly comprises a jack, a bottom plate, a horizontal compass, a central scale ring, a ball and a threaded supporting foot, the bottom of the jack is fixedly provided with the bottom plate, the middle part of the horizontal compass is provided with the central scale ring, and the horizontal confirmation assembly is arranged at the top of the steel support. This be used for assembled building construction independent support system, this independent support system can realize horizontal adjustment and make the steel shotcrete be in vertical state and support the prefab part, and can make the prefab part be the level form after supporting and settle, adjusts the support scope of prefab part moreover to adapt to the prefab part of equidimension not, the height of steel shotcrete passes through the jack and realizes the adjustment of minizone simultaneously, in order to play the effect of labour saving and time saving.

Description

Be used for independent braced system of assembled building construction

Technical Field

The invention relates to the technical field of building construction, in particular to an independent supporting system for assembly type building construction.

Background

Buildings assembled from prefabricated components at the construction site, known as fabricated buildings, often require the use of separate support systems to support the prefabricated components during the fabrication of the fabricated building to ensure that the prefabricated components can be installed in a given location.

The existing independent support system is generally formed by combining a plurality of steel supports together and arranging a support part matched with a preform component at the top, but the height support of the independent support system is adjusted through the steel support combination, so that the adjustment within a length range smaller than a single steel support cannot be realized, and the top of the support system cannot be contacted with the preform component for supporting.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an independent support system for assembly type building construction, which solves the problem that the top of the support system cannot be contacted with a prefabricated product component for supporting because the height of the independent support system is adjusted by a steel support assembly without adjusting within the length range smaller than a single steel support because the existing independent support system proposed in the background art is usually assembled by a plurality of steel supports and a support part matched with the prefabricated product component is arranged at the top of the independent support system.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an independent support system for assembly type structure construction, confirms the subassembly including adjusting part and level, adjusting part's top is connected with the steel shotcrete, adjusting part includes jack, bottom plate, horizontal compass, central mark circle, ball and screw thread spike, the bottom of jack is fixed with the bottom plate, and the middle part of jack is provided with horizontal compass, the middle part of horizontal compass is provided with central mark circle, and the surface roll of horizontal compass is provided with the ball, the edge threaded connection of bottom plate has the screw thread spike, the subassembly is confirmed to the level and is set up in the top of steel shotcrete.

Furthermore, the number of the steel supports is at least one, and when the number of the steel supports is two or more, the steel supports are connected in an inserting manner.

Furthermore, the vertical central lines of the horizontal compass, the central scale ring and the bottom plate coincide, and three threaded support feet are arranged and are in threaded connection with the bottom plate.

Furthermore, the horizontal confirmation assembly comprises an insertion pipe, a sliding groove, a pulley, an upper ring sleeve, a bearing, a lower ring sleeve, a laser transmitter and a laser receiver, wherein the sliding groove is formed in the surface of the insertion pipe, the pulley is arranged in the sliding groove, the outer end of the pulley is connected with the upper ring sleeve, the bottom of the upper ring sleeve is rotatably connected with the lower ring sleeve through the bearing, the laser transmitter is arranged on the surface of the upper ring sleeve, and the laser receiver is arranged on the surface of the lower ring sleeve.

Furthermore, the lower ring sleeve is connected with the insertion pipe in a sliding mode through a pulley and a sliding groove, and the insertion pipe is connected with the steel support in an insertion mode.

Furthermore, the laser transmitter and the laser receiver are positioned on the same horizontal plane, and the included angle between the laser transmitter and the laser receiver is 0-180 degrees.

Furthermore, the horizontal confirmation assembly further comprises a magnetic piece, a driving motor, a miniature push rod and a magnetic plate, wherein the magnetic piece is embedded into the inner walls of the upper ring sleeve and the lower ring sleeve, the driving motor is arranged inside the insertion pipe, the top of the driving motor is connected with the miniature push rod, and the magnetic plate is connected with the top of the miniature push rod.

Furthermore, the magnetic piece and the magnetic plate are connected in a magnetic adsorption mode, and the upper ring sleeve and the lower ring sleeve are in transmission connection with the driving motor through the magnetic piece, the magnetic plate and the miniature push rod.

Further, the top of grafting pipe is connected with supporting component, supporting component includes first vaulting pole piece, flexible sheath, second vaulting pole piece, hole and connecting rod, the both sides of first vaulting pole piece are connected with flexible sheath, and the outside of flexible sheath is connected with the second and props the plate piece, the hole has been seted up to the inside of second vaulting pole piece, and the inside of hole is provided with the connecting rod.

Furthermore, first fagging spare both sides and connecting rod fixed connection, and second fagging spare passes through hole, connecting rod and first fagging spare sliding connection.

The invention provides an independent supporting system for assembly type building construction, which has the following beneficial effects:

this independent support system can realize horizontal adjustment and make the steel shotcrete be in vertical state and support the prefab part, and can make the prefab part be the level form after supporting and settle, adjusts the support scope of prefab part moreover to adapt to the prefab part of equidimension not, the height of steel shotcrete passes through the jack simultaneously and realizes the adjustment of minim, in order to play the effect of saving time and power.

1. This be used for independent support system of assembled building construction, the ball is because of the topography influence along horizontal compass surperficial roll transform position, whether the observation ball is in central mark circle and judges whether the level of this support system is placed to make it go up and down along the bottom plate screw thread through rotating three screw thread stand bars, thereby adjust the horizontality of this support system until the ball is in central mark circle, it is vertical state to show the steel shotcrete this moment, so that vertically support the prefab part.

2. This be used for independent support system of assembled building construction makes first fagging spare to rise through the jack, should rise the row spacing and be less than the length scope of single steel shotcrete to the height adjustment of adaptation minizone is so that support the prefab part, and need not to increase the steel shotcrete of extra corresponding length, thereby plays the effect of labour saving and time saving, and the jack is simple to use, the people's operation of being convenient for.

3. This be used for independent support system of assembled building construction, before the steel shotcrete rises, pulling second fagging spare makes flexible sheath extend, make first brace spare, flexible sheath, the surface area increase of second brace spare, so that increase with the area of contact of prefab part, also adapt to the prefab part of different surface areas and laminate the support, the connecting rod is as the carrier in the interval between first brace spare and the second brace spare simultaneously, can support the prefab part position at this interval position and avoid flexible sheath to warp.

4. The independent support system for the assembly type building construction is characterized in that when the independent support system faces a large-size prefabricated product component or a large number of prefabricated product components, a plurality of independent support systems are used for supporting the prefabricated product components, the first support plate component of each independent support system is in contact with the prefabricated product component for supporting, the laser transmitter of the independent support system A and the laser receiver of the independent support system B are positioned on the same horizontal line for generating induction, workers can be prompted in the mode of arranging prompt lamps that the prefabricated product components supported by the two independent support systems are positioned on the same horizontal plane, and the rest of the independent support systems are also arranged, so that the prefabricated product components are horizontally positioned on the same horizontal plane.

5. This an independent support system for assembly type structure construction, first fagging spare raises before, it makes both contained angles change to rotate laser emitter and laser receiver through the manual work, thereby avoid laser emitter and laser receiver to be convenient for respond to with other independent support systems of all directions, and drive the magnetic sheet through driving motor after rising and rotate the magnetic member that portability and magnetic sheet adsorb and be connected and rotate, and make the magnetic sheet go up and down to make laser emitter or laser receiver rotatory adjustment position alone through miniature push rod, so that the contained angle of adjusting laser emitter and laser receiver after first fagging spare rises.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic front view of the jack of the present invention;

FIG. 3 is a schematic top view of the jack of the present invention;

FIG. 4 is a schematic view of the front view of the inner structure of the bayonet tube of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention;

FIG. 6 is a schematic top view of the bayonet tube of the present invention;

FIG. 7 is a schematic top view of a first support plate according to the present invention;

fig. 8 is a schematic view of the internal structure of the telescopic sheath of the present invention.

In the figure: 1. an adjustment assembly; 101. a jack; 102. a base plate; 103. a horizontal compass; 104. a central mark circle; 105. a ball bearing; 106. a threaded brace; 2. supporting steel; 3. a level confirmation component; 301. inserting a pipe; 302. a chute; 303. a pulley; 304. an upper ring sleeve; 305. a bearing; 306. a lower ring sleeve; 307. a laser transmitter; 308. a laser receiver; 309. a magnetic member; 310. a drive motor; 311. a micro push rod; 312. a magnetic plate; 4. a support assembly; 401. a first brace member; 402. a telescopic sheath; 403. a second brace member; 404. an inner bore; 405. a connecting rod.

Detailed Description

As shown in fig. 1-3, the present invention provides a technical solution: an independent supporting system for assembly type building construction comprises an adjusting component 1 and a horizontal confirmation component 3, wherein the top of the adjusting component 1 is connected with a steel support 2, the adjusting component 1 comprises a jack 101, a bottom plate 102, a horizontal compass 103, a central scale ring 104, a ball 105 and a threaded supporting foot 106, the bottom of the jack 101 is fixedly provided with the bottom plate 102, the middle of the jack 101 is provided with the horizontal compass 103, the middle of the horizontal compass 103 is provided with the central scale ring 104, the surface of the horizontal compass 103 is provided with the ball 105 in a rolling manner, the edge of the bottom plate 102 is connected with the threaded supporting foot 106 in a threaded manner, the horizontal confirmation component 3 is arranged at the top of the steel support 2, the number of the steel supports 2 is at least one, when the number of the steel supports 2 is two or more, the steel supports 2 are connected in a splicing manner, and the vertical central scales of the horizontal compass 103, the central scale ring 104 and the bottom plate 102 coincide, three threaded support feet 106 are arranged and are in threaded connection with the bottom plate 102;

the concrete operation is that the jack 101 moves to the designated position, the steel supports 2 determine the required number according to the supporting height of the prefabricated components on the construction site, the steel supports 2 are assembled by the form of plug-in units, the steel support 2 at the lowest end is inserted into the top of the jack 101, then whether the ball 105 is in the central standard ring 104 is observed to judge whether the support system is horizontally arranged, and the three screw supporting feet 106 are rotated to lead the support system to be screwed up and down along the bottom plate 102, thereby adjusting the horizontal state of the support system until the ball 105 is in the central standard ring 104, at this time, the steel supports 2 are in the vertical state, if a certain distance is still left between the assembled steel supports 2 and the prefabricated components, and the distance is smaller than the length size of the steel supports 2, the first supporting plate part 401 can be lifted by the jack 101, and the lifting distance is smaller than the length range of the single steel support 2, thereby adapt to the height adjustment of minim scope so that support the prefab part, and need not to increase the steel shotcrete 2 of extra corresponding length to play the effect of saving time and energy, and jack 101 is simple to use, the people of being convenient for operate.

As shown in fig. 1 and 4-6, the horizontal confirmation assembly 3 includes an insertion tube 301, a sliding groove 302, a pulley 303, an upper ring sleeve 304, a bearing 305, a lower ring sleeve 306, a laser emitter 307 and a laser receiver 308, the sliding groove 302 is formed on the surface of the insertion tube 301, the pulley 303 is arranged inside the sliding groove 302, the outer end of the pulley 303 is connected with the upper ring sleeve 304, the bottom of the upper ring sleeve 304 is rotatably connected with the lower ring sleeve 306 through the bearing 305, the laser emitter 307 is arranged on the surface of the upper ring sleeve 304, the laser receiver 308 is arranged on the surface of the lower ring sleeve 306, the lower ring sleeve 306 is slidably connected with the insertion tube 301 through the pulley 303 and the sliding groove 302, the insertion tube 301 is in insertion connection with the steel support 2, the laser emitter 307 and the laser receiver 308 are located on the same horizontal plane, and an included angle between the laser emitter 307 and the laser receiver 308 is 0-180 °;

when a plurality of prefabricated parts or prefabricated parts with large volume need to be supported in multiple points, a corresponding number of independent support systems are needed, before the steel support 2 carrying the first support plate 401 is lifted, the laser emitter 307 and the laser receiver 308 are manually pushed to enable the upper ring sleeve 304 and the lower ring sleeve 306 to slide along the inner part of the sliding groove 302 on the surface of the inserting tube 301 through the pulley 303, so that the included angle between the laser emitter 307 and the laser receiver 308 is changed, as the upper ring sleeve 304 and the lower ring sleeve 306 are rotatably connected through the bearing 305, horizontal angle adjustment is realized without mutual influence between the laser emitter 307 and the laser receiver 308, after the steel support 2 is lifted for supporting, the laser emitter 307 on the independent support system a can be induced with the laser receiver 308 on the independent support system B, and the laser receiver 308 on the independent support system a can be induced with the laser emitter 307 on the independent support system C, based on the trigger induction, the supporting parts of the prefabricated product components supported by the A and the B can be prompted to be in the same horizontal plane by the external prompting lamps, and the rest independent supporting systems are the same in the same way, so that the prefabricated product components are horizontally kept in the same horizontal plane.

As shown in fig. 1 and fig. 4 to 6, the horizontal confirmation assembly 3 further includes a magnetic member 309, a driving motor 310, a micro push rod 311 and a magnetic plate 312, wherein the magnetic member 309 is embedded in the inner walls of the upper ring sleeve 304 and the lower ring sleeve 306, the driving motor 310 is disposed inside the insertion tube 301, the top of the driving motor 310 is connected with the micro push rod 311, the top of the micro push rod 311 is connected with the magnetic plate 312, the magnetic member 309 and the magnetic plate 312 form a magnetic adsorption connection, and the upper ring sleeve 304 and the lower ring sleeve 306 form a transmission connection with the driving motor 310 through the magnetic member 309, the magnetic plate 312 and the micro push rod 311;

specifically, when the included angle between the laser emitter 307 and the laser receiver 308 cannot be adjusted after the steel support 2 is lifted, the driving motor 310 drives the micro push rod 311 to rotate the magnetic plate 312, so that the magnetic member 309 on the inner wall of the lower ring sleeve 306 drives the lower ring sleeve 306 to rotate based on the magnetic adsorption effect, the angle of the laser receiver 308 is changed, then the micro push rod 311 extends out to enable the magnetic plate 312 to ascend and to be magnetically adsorbed with the magnetic member 309 on the inner wall of the upper ring sleeve 304, so that the magnetic member 309 on the inner wall of the upper ring sleeve 304 drives the upper ring sleeve 304 to rotate, the angle of the laser emitter 307 is changed, the self-angle adjustment of the laser emitter 307 and the laser receiver 308 at a high-altitude position is realized, and the laser emitter 307 and the laser receiver 308 on the two independent support systems can be aligned for induction.

As shown in fig. 1 and 7-8, a supporting component 4 is connected to the top of the insertion tube 301, the supporting component 4 includes a first supporting plate member 401, a telescopic sheath 402, a second supporting plate member 403, an inner hole 404 and a connecting rod 405, the telescopic sheath 402 is connected to two sides of the first supporting plate member 401, the second supporting plate member 403 is connected to the outer side of the telescopic sheath 402, the inner hole 404 is formed in the second supporting plate member 403, the connecting rod 405 is arranged in the inner hole 404, two sides of the first supporting plate member 401 are fixedly connected to the connecting rod 405, and the second supporting plate member 403 is slidably connected to the first supporting plate member 401 through the inner hole 404 and the connecting rod 405;

in particular, before the steel support 2 is lifted, the second brace piece 403 is pulled to stretch the telescopic jacket 402, so that the surface areas of the first brace piece 401, the telescopic jacket 402 and the second brace piece 403 are increased, the contact area with the preform components is increased, the preform components with different surface areas are also suitable for being supported in a fitting manner, and meanwhile, the connecting rods 405 are used as bearing objects in the space between the first brace piece 401 and the second brace piece 403, and the part of the preform components at the space can be supported to avoid the deformation of the telescopic jacket 402.

In conclusion, when the independent support system for the assembly type building construction is used, the jack 101 is firstly moved to a designated position, the steel supports 2 determine the required number according to the support height of prefabricated components on a construction site, the steel supports 2 are assembled in an insert mode, the steel support 2 at the lowest end is inserted into the top of the jack 101, then whether the support system is horizontally placed or not is judged by observing whether the ball 105 is positioned in the central standard ring 104, and the three threaded support feet 106 are rotated to be screwed up and down along the bottom plate 102, so that the horizontal state of the support system is adjusted until the ball 105 is positioned in the central standard ring 104, and at this time, the steel support 2 is shown to be in a vertical state;

before the steel support 2 is lifted, the second brace piece part 403 is pulled to stretch the telescopic jacket 402, so that the surface areas of the first brace piece part 401, the telescopic jacket 402 and the second brace piece part 403 are increased, the contact area with the preform components is increased, the preform components with different surface areas are also suitable for being attached and supported, meanwhile, the connecting rod 405 is used as a bearing object in the space between the first brace piece part 401 and the second brace piece part 403, the preform component part position of the space position can be supported, the deformation of the telescopic jacket 402 is avoided, and the step can be carried out before the steel support 2 is assembled;

if a certain distance exists between the assembled steel supports 2 and the prefabricated product components and the distance is smaller than the length of the steel supports 2, the first support plate member 401 can be lifted by the jack 101, the lifting line distance is smaller than the length range of a single steel support 2, so that the small-range height adjustment is adapted to support the prefabricated product components, and the additional steel supports 2 with corresponding lengths are not required to be added, so that the effects of saving time and labor are achieved, and the jack 101 is simple to use and convenient to operate by people;

when a plurality of prefabricated parts or prefabricated parts with large volume need to be supported in a multi-point mode, a corresponding number of independent support systems are needed, before the steel support 2 carrying the first support plate part 401 rises, the laser emitter 307 and the laser receiver 308 are manually pushed to enable the upper ring sleeve 304 and the lower ring sleeve 306 to slide along the inner part of the sliding groove 302 on the surface of the inserting tube 301 through the pulley 303, so that the included angle between the laser emitter 307 and the laser receiver 308 is changed, as the upper ring sleeve 304 and the lower ring sleeve 306 are rotatably connected through the bearing 305, the laser emitter 307 and the laser receiver 308 are adjusted in a horizontal angle without mutual influence, after the steel support 2 rises to support, the laser emitter 307 on the independent support system A can sense the laser receiver 308 on the independent support system B, and the laser receiver 308 on the independent support system A can sense the laser emitter 307 on the independent support system C, based on the triggering induction, the supporting parts of the prefabricated product components supported by the A and the B can be prompted to be in the same horizontal plane by the external prompting lamps, and the rest independent supporting systems are the same in the same way, so that the prefabricated product components are ensured to be in the same horizontal plane horizontally;

when the included angle between the laser emitter 307 and the laser receiver 308 cannot be adjusted after the steel support 2 is lifted, the driving motor 310 drives the micro push rod 311 to rotate the magnetic plate 312, so that the magnetic piece 309 on the inner wall of the lower ring sleeve 306 drives the lower ring sleeve 306 to rotate based on the magnetic adsorption effect, the angle of the laser receiver 308 is changed, then the micro push rod 311 extends out to enable the magnetic plate 312 to ascend and to be magnetically adsorbed with the magnetic piece 309 on the inner wall of the upper ring sleeve 304, the magnetic piece 309 on the inner wall of the upper ring sleeve 304 drives the upper ring sleeve 304 to rotate, the angle of the laser emitter 307 is changed, the self-angle adjustment of the laser emitter 307 and the laser receiver 308 at a high-altitude position is realized, and the laser emitter 307 and the laser receiver 308 on the two independent support systems can be aligned for induction.

Claims

1. An independent support system for assembly type building construction, comprising an adjusting component (1) and a horizontal confirming component (3), and is characterized in that: the top of adjusting part (1) is connected with steel shotcrete (2), adjusting part (1) includes jack (101), bottom plate (102), horizontal compass (103), central mark circle (104), ball (105) and screw thread spike (106), the bottom of jack (101) is fixed with bottom plate (102), and the middle part of jack (101) is provided with horizontal compass (103), the middle part of horizontal compass (103) is provided with central mark circle (104), and the surface roll of horizontal compass (103) is provided with ball (105), the edge threaded connection of bottom plate (102) has screw thread spike (106), subassembly (3) are confirmed to the level and are set up in the top of steel shotcrete (2).

2. The independent support system for prefabricated building construction of claim 1, wherein: the number of the steel supports (2) is at least one, and when the number of the steel supports (2) is two or more, the steel supports (2) are in plug connection.

3. The independent support system for prefabricated building construction of claim 1, wherein: the vertical central lines of the horizontal compass (103), the central scale ring (104) and the bottom plate (102) are overlapped, and three threaded support feet (106) are arranged and are in threaded connection with the bottom plate (102).

4. The independent support system for prefabricated building construction of claim 1, wherein: the horizontal confirmation component (3) comprises an insertion pipe (301), a sliding groove (302), a pulley (303), an upper ring sleeve (304), a bearing (305), a lower ring sleeve (306), a laser transmitter (307) and a laser receiver (308), wherein the sliding groove (302) is formed in the surface of the insertion pipe (301), the pulley (303) is arranged inside the sliding groove (302), the outer end of the pulley (303) is connected with the upper ring sleeve (304), the bottom of the upper ring sleeve (304) is rotatably connected with the lower ring sleeve (306) through the bearing (305), the laser transmitter (307) is arranged on the surface of the upper ring sleeve (304), and the laser receiver (308) is arranged on the surface of the lower ring sleeve (306).

5. The independent support system for prefabricated building construction according to claim 4, wherein: the lower ring sleeve (306) is connected with the insertion pipe (301) in a sliding mode through a pulley (303) and a sliding groove (302), and the insertion pipe (301) is connected with the steel support (2) in an insertion mode.

6. The independent support system for prefabricated building construction according to claim 4, wherein: the laser transmitter (307) and the laser receiver (308) are positioned on the same horizontal plane, and the included angle between the laser transmitter (307) and the laser receiver (308) is 0-180 degrees.

7. The independent support system for prefabricated building construction according to claim 4, wherein: the horizontal confirmation assembly (3) further comprises a magnetic piece (309), a driving motor (310), a micro push rod (311) and a magnetic plate (312), the magnetic piece (309) is embedded into the inner walls of the upper ring sleeve (304) and the lower ring sleeve (306), the driving motor (310) is arranged inside the insertion pipe (301), the top of the driving motor (310) is connected with the micro push rod (311), and the top of the micro push rod (311) is connected with the magnetic plate (312).

8. The independent support system for prefabricated building construction of claim 7, wherein: the magnetic piece (309) and the magnetic plate (312) are connected in a magnetic adsorption mode, and the upper ring sleeve (304) and the lower ring sleeve (306) are in transmission connection with the driving motor (310) through the magnetic piece (309), the magnetic plate (312) and the micro push rod (311).

9. The independent support system for prefabricated building construction according to claim 4, wherein: the top of grafting pipe (301) is connected with supporting component (4), supporting component (4) include first prop plate spare (401), flexible sheath (402), second prop plate spare (403), hole (404) and connecting rod (405), the both sides of first prop plate spare (401) are connected with flexible sheath (402), and the outside of flexible sheath (402) is connected with second prop plate spare (403), hole (404) have been seted up to the inside of second prop plate spare (403), and the inside of hole (404) is provided with connecting rod (405).

10. The independent support system for prefabricated building construction of claim 9, wherein: first prop plate spare (401) both sides and connecting rod (405) fixed connection, and second prop plate spare (403) through hole (404), connecting rod (405) and first prop plate spare (401) sliding connection.