CN111058653A - Combined component supporting tool system and construction method thereof - Google Patents

Abstract

The invention discloses a combined component supporting tool system and a construction method thereof. The supporting tool system comprises a plurality of single-truss portal bent frames which are sequentially spliced, each single-truss portal bent frame comprises a frame structure consisting of a transverse supporting rod and a vertical supporting rod, and further comprises a servo electric cylinder arranged at the upper end of the vertical supporting rod, a rotating base plate arranged at the top of the servo electric cylinder, and a support arranged at the bottom of the vertical supporting rod; the adjacent single portal bent frames are fixedly connected with the combined type drawing connectors arranged at the two ends of the horizontal rod through the horizontal rod. The combined component supporting tool system and the construction method thereof have the advantages of convenience in installation, flexibility in arrangement and precision in control, and can realize the quick, convenient, safe, efficient, accurate and stable installation of the prefabricated components on a construction site.

Description

Combined component supporting tool system and construction method thereof

Technical Field

The invention relates to a combined component supporting tool system and a construction method thereof, and belongs to the technical field of supporting frame bodies of building components.

Background

At present, prefabricated parts can be popularized in building construction, and the on-site assembling construction of the prefabricated parts is a key link of construction and directly influences the building construction efficiency and the engineering quality.

However, the existing prefabricated part temporary support still generally adopts various scaffold support systems adopted by the traditional cast-in-place structure, and construction is completed through steps of manual construction, installation adjustment, dismantling and the like, so that the defects of low construction efficiency, large occupied space, poor installation accuracy and the like exist, and the construction efficiency and the quality of the prefabricated part are severely restricted.

Disclosure of Invention

The invention provides a combined component supporting tool system and a construction method thereof, which have the advantages of convenience in installation, flexibility in arrangement and precision in control, and can realize the quick, convenient, safe, efficient, accurate and stable installation of a prefabricated component on a construction site.

In order to solve the technical problems, the invention comprises the following technical scheme:

a combined type component supporting tool system comprises a plurality of single-truss portal bent frames which are sequentially spliced, wherein each single-truss portal bent frame comprises a frame structure consisting of a transverse supporting rod and a vertical supporting rod, and further comprises a servo electric cylinder arranged at the upper end of the vertical supporting rod, a rotating base plate arranged at the top of the servo electric cylinder, and a support arranged at the bottom of the vertical supporting rod;

the rotary base plate comprises two lug plates which are vertically arranged and 1T-shaped top plate, and a web plate of the T-shaped top plate is connected with the lug plates through a rotating shaft;

adjacent single-truss portal bent frame passes through the horizon bar and sets up in the combination formula that the horizon bar both ends draws and connects ware fixed connection, the horizon bar both ends are provided with the screw thread end, combination formula draws and connects the ware and includes interior even board and outer even board, interior even board and outer even board pass through bolt fastening and encircle on vertical support rod, be provided with the hickey on the interior even board, interior even board and horizon bar tip threaded connection.

Furthermore, the transverse supporting rod is fixedly connected with the vertical supporting rod through a combined type pulling connector.

Further, the support comprises a universal wheel and a plurality of support rods; the universal wheels are arranged at the bottom of the vertical supporting rod and used for moving the vertical supporting rod; the support rods are distributed along the bottom of the support rod in a divergent mode and used for supporting the vertical support rods on the foundation surface.

Further, horizontal bracing piece, vertical support bar all include a plurality of standard member of concatenation in proper order, the tip of standard member is provided with assorted internal thread and external screw thread, standard member threaded connection in proper order.

Furthermore, the combined component supporting tool system also comprises an external controller; and a wireless receiving and control module is arranged in the servo electric cylinder and used for receiving the instruction sent by the controller, controlling the lifting of the servo electric cylinder and controlling the elevation of the top.

Further, be provided with the axial force monitor on the vertical support pole, the axial force data of bracing piece is gathered to the axial force monitor and is sent to the controller.

Correspondingly, the invention also provides a construction method of the combined member supporting tool system, which comprises the following steps:

determining the shape and the size of the combined member supporting tool system according to the size and the shape of the prefabricated member, and determining the length and the number of the vertical supporting rods, the transverse supporting rods and the horizontal rods; and determining the number of the standard rod pieces;

connecting the standard rod pieces to form a vertical supporting rod and a transverse supporting rod, mounting a support at the bottom of the vertical supporting rod, mounting a servo electric cylinder at the top of the vertical supporting rod, fixedly arranging a rotating base plate at the top of the servo electric cylinder, and splicing the vertical supporting rod and the transverse supporting rod to form a single-truss portal bent frame;

connecting the standard rod pieces to form a horizontal rod, fixedly connecting one end of the horizontal rod with an inner connecting plate of a combined type drawing connector, fixing the inner connecting plate and an outer connecting plate of the combined type drawing connector on vertical supporting rods through bolts, respectively fixing the combined type drawing connectors at two ends of the horizontal rod on the vertical supporting rods of two single portal bent frames, splicing the combined type component supporting tool systems as required, and adjusting the position of a support to enable the combined type component supporting tool systems to be positioned right below the to-be-spliced positions of the prefabricated components;

each servo electric cylinder in the combined component support tool system is numbered and input into an external controller, an instruction is sent to a wireless receiving and control module of the servo electric cylinder through the controller, and the corresponding servo electric cylinder is adjusted to lift, so that the top of a rotating base plate reaches a set elevation;

hoisting the prefabricated part to the position above the combined type member supporting tool system, and placing the prefabricated part on the rotating base plate, wherein an installer can finely adjust the position of the prefabricated part according to the actual situation; after the prefabricated part is accurately installed and positioned, the support rod of the support is fixed on the base surface;

the axial force data of the supporting rods are collected through the axial force monitor and sent to the controller, the controller monitors the axial force change of the vertical supporting rods and the height of the vertical supporting rods in real time, and when the data collected by a certain axial force monitor is larger than the mean value deviation, the servo electric cylinder on the corresponding vertical supporting rod is adjusted through the controller, so that the axial force data tend to the mean value.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the following advantages and positive effects:

(1) the combined component supporting tool system is strong in adaptability and can be flexibly arranged according to needs. The combined member supporting tool system is formed by splicing single portal bent frames, and the splicing shape and size can be set according to requirements; and, horizontal bracing piece, vertical support bar, horizon bar all can adopt the concatenation of standard member to form, consequently, the length of horizontal bracing piece, vertical support bar, horizon bar is nimble more various, adaptable different prefabricated component's holding surface.

(2) The installation precision and the construction quality of the prefabricated parts can be improved, and lean assembly of the prefabricated parts is realized. The top of the supporting system is provided with the servo electric cylinder, the servo electric cylinder is controlled to adjust the elevation of the prefabricated part according to monitoring data, real-time monitoring is carried out in the construction process, installation errors in the installation process of the prefabricated part are avoided, and convenient and accurate installation is realized. Meanwhile, the rotary backing plate can rotate freely, damage to the corner or the bearing part of the component caused by unstable hanging posture and non-horizontal contact of the contact part of the component and a support system is avoided, and the installation quality is improved.

(3) Each component of the combined component supporting tool system is high in standardization degree, convenient to transport, convenient to construct, convenient to disassemble and assemble, capable of being repeatedly used, energy-saving and environment-friendly.

Drawings

Fig. 1 is a schematic structural view of a combined member supporting tool system according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a single-door row shelf according to an embodiment of the present invention;

FIG. 3 is a schematic view of a rotating pad according to an embodiment of the present invention;

FIG. 4 is a side view of a rotating shim plate according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a combined type pulling connector according to an embodiment of the invention;

FIG. 6 is a top view of a standoff in one embodiment of the invention.

The numbers in the figures are as follows:

1-vertical support bars; 2-transverse supporting rods; 3-servo electric cylinder; 4-rotating the backing plate; 41-top plate; 42-ear plate; 43-a rotating shaft; 5-support; 51-universal wheels; 52-a stay bar; 6-horizontal rod; 7-a combined pull connector; 71-interconnector plates; 72-external connection plate; 73-bolt; 8-standard bar.

Detailed Description

The following describes a combined member supporting tool system and a construction method thereof in detail with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more apparent in conjunction with the following description. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

Example one

As shown in fig. 1, the present embodiment provides a combined member supporting tool system, which includes a plurality of single-truss portal bent frames spliced in sequence.

As shown in fig. 2, the single portal bent frame includes a frame structure composed of a transverse support rod 2 and a vertical support rod 1, a servo electric cylinder 3 disposed at an upper end of the vertical support rod 1, a rotating base plate 4 disposed at a top of the servo electric cylinder 3, and a support 5 disposed at a bottom of the vertical support rod 1.

The preferred embodiment is that, as shown in fig. 2, the vertical support rod 1 comprises a plurality of standard rod pieces 8 which are spliced in sequence, the end parts of the standard rod pieces 8 are provided with matched internal threads and external threads, the standard rod pieces 8 are connected in sequence by threads, and the standard rod pieces 8 are arranged, so that the specification number of the rod pieces can be effectively reduced, and the management is convenient; in addition, the standard rod pieces 8 can be spliced as required to form the vertical supporting rod 1 with the required height. Meanwhile, the transverse supporting rod 2 also comprises a plurality of standard rod pieces 8 which are spliced in sequence.

In order to improve the speed and accuracy of command transmission, it is preferable that the servo electric cylinder 3 adopts a 5G network wireless servo electric cylinder 3. The combined component supporting tool system also comprises an external controller; and a wireless receiving and control module is arranged in the servo electric cylinder 3 and used for receiving the instruction sent by the controller, controlling the lifting of the servo electric cylinder 3 and controlling the top elevation. More preferably, an axial force monitor is arranged on the vertical support rod 1, and the axial force monitor collects axial force data of the support rod and sends the axial force data to the controller. The axial force of vertical support rod 1 changes in real-time supervision of controller, and when the data that certain axial force monitor gathered was great with the mean deviation, adjusted servo electronic jar 3 on the corresponding vertical support rod 1 through the controller, made the axial force data tend to the mean value to make each vertical support rod 1 atress of combination formula component support frock system balanced, effectively avoid individual vertical support rod 1 atress too big and lead to the potential safety hazard, thereby improve the whole security that combination formula component supported frock system. Through the length of adjustment vertical support pole 1, can also carry out the accurate adjustment to prefabricated component's position, avoid producing installation error in the prefabricated component installation, realize convenient accurate installation.

As shown in fig. 3 and 4, the rotary backing plate 4 includes two vertically arranged ear plates 42 and 1T-shaped top plate 41, and the web of the T-shaped top plate 41 is connected with the ear plates 42 through a rotating shaft 43. Traditional support framed bent, if the prefabricated component because of hanging the gesture unstable, can form between prefabricated component and the support framed bent and support a little, and lead to the harm of prefabricated component corner or pressure-bearing part, through setting up rotation backing plate 4, can avoid the emergence of corresponding condition, improve prefabricated component installation quality.

As shown in fig. 5, adjacent single portal bent frames are fixedly connected through a horizontal rod 6 and a combined type pulling connector 7 arranged at two ends of the horizontal rod 6, threaded ends are arranged at two ends of the horizontal rod 6, the combined type pulling connector 7 comprises an inner connecting plate 71 and an outer connecting plate 72, the inner connecting plate 71 and the outer connecting plate 72 are fixed and encircled on the vertical support rod 1 through bolts 73, a threaded interface is arranged on the inner connecting plate 71, and the inner connecting plate 71 is in threaded connection with the end part of the horizontal rod 6. The horizontal rods 6 and the combined connectors 7 can enable single-beam portal bent frames to be freely combined into a required combined component supporting tool system so as to meet the size and shape of a prefabricated component. For example, when a linear member such as a temporary support beam is used, linear expansion is performed by using a single portal bent; when the irregular member with irregular section is temporarily supported, the L shape can be expanded in an acute angle or an obtuse angle; when supporting the floor equal plane component with larger sectional area, it can expand in multiple rows and multiple columns. In a preferred embodiment, the horizontal bar 6 also comprises a plurality of standard bar members 8 which are spliced in sequence, so that the length of the horizontal bar 6 is more flexible.

The preferred embodiment does, horizontal bracing piece 2 through combination formula draw and connect 7 with vertical support rod 1 fixed connection to make things convenient for horizontal bracing piece 2 and vertical support rod 1 to splice fast, improve on-the-spot efficiency of assembling, the concrete structure of combination formula draw and connect 7 is the same, no longer gives details.

In a preferred embodiment, as shown in fig. 6, the support 5 comprises a universal wheel 51 and a plurality of support rods 52; the universal wheel 51 is arranged at the bottom of the vertical support rod 1 and is used for moving the vertical support rod 1; the support rods 52 are distributed along the bottom of the vertical support rod in a divergent mode and used for supporting the vertical support rod 1 on a foundation surface. The number and the size of the support rods 52 in each support 5 can be determined according to the actual supported prefabricated parts, the number is generally 3-4, the length is generally 50-70 cm, when the support tool system needs to move, the support rods 52 are folded and work by the universal wheels 51, when the support tool system moves to a specified position, the support rods 52 are placed to be fixed on a foundation surface, and the foundation surface can be the ground, a hardened operation surface or a floor plate and the like.

In summary, the combined component supporting tool system provided by the embodiment has the following beneficial effects compared with the prior art:

(1) the combined component supporting tool system is strong in adaptability and can be flexibly arranged according to needs. The combined member supporting tool system is formed by splicing single portal bent frames, and the splicing shape and size can be set according to requirements; moreover, the transverse supporting rod 2, the vertical supporting rod 1 and the horizontal rod 6 can be formed by splicing standard components, so that the lengths of the transverse supporting rod 2, the vertical supporting rod 1 and the horizontal rod 6 are more flexible and diversified, and the supporting device is suitable for supporting surfaces of different prefabricated components.

(2) The installation precision and the construction quality of the prefabricated parts can be improved, and lean assembly of the prefabricated parts is realized. The top of the supporting system is provided with the servo electric cylinder 3, the elevation of the prefabricated part is controlled to be adjusted according to monitoring data, real-time monitoring is carried out in the construction process, installation errors in the installation process of the prefabricated part are avoided, and convenient and accurate installation is realized. Meanwhile, the rotating base plate 4 can rotate freely, damage to the corner or the bearing part of the component caused by unstable hanging posture and non-horizontal contact of the contact part of the component and a support system is avoided, and the installation quality is improved.

(3) Each component of the combined component supporting tool system is high in standardization degree, convenient to transport, convenient to construct, convenient to disassemble and assemble, capable of being repeatedly used, energy-saving and environment-friendly.

Example two

The embodiment provides a construction method of a combined member supporting tool system, and the construction method is further described with reference to the first embodiment and the accompanying drawings. The construction method comprises the following steps:

determining the shape and the size of a combined member supporting tool system according to the size and the shape of a prefabricated member, and determining the length and the number of vertical supporting rods 1, transverse supporting rods 2 and horizontal rods 6; and determining the number of the standard rods 8; the number of the servo electric cylinders 3, the rotary backing plates 4 and the supports 5 is determined by the number of the vertical supporting rods 1;

step two, connecting the standard rod pieces to form a vertical support rod 1 and a transverse support rod 2, installing a support 5 at the bottom of the vertical support rod 1, installing a servo electric cylinder 3 at the top, fixedly arranging a rotating base plate 4 at the top of the servo electric cylinder 3, and splicing the vertical support rod 1 and the transverse support rod 2 to form a single-pin door type bent frame;

thirdly, connecting the standard rod pieces to form a horizontal rod 6, fixedly connecting one end of the horizontal rod 6 with an inner connecting plate 71 of a combined type pulling connector 7, fixing the inner connecting plate 71 and an outer connecting plate 72 of the combined type pulling connector 7 on a vertical supporting rod 1 through bolts, respectively fixing the combined type pulling connectors 7 at two ends of the horizontal rod 6 on the vertical supporting rods 1 of two single-portal bent frames, splicing the combined type component supporting tool systems as required, and adjusting the position of a support 5 to enable the combined type component supporting tool systems to be positioned under the to-be-spliced positions of the prefabricated components;

numbering each servo electric cylinder 3 in the combined component support tool system, inputting the numbered servo electric cylinder into an external controller, sending an instruction to a wireless receiving and control module of the servo electric cylinder 3 through the controller, and adjusting the corresponding servo electric cylinder to lift so that the top of the rotary backing plate 4 reaches a set elevation; the controller can adopt an external computer or special control equipment as long as the functions can be realized, and the adopted equipment form is not limited;

hoisting the prefabricated part above the combined type member supporting tool system, and placing the prefabricated part on the rotating base plate 4, wherein an installer can finely adjust the position of the prefabricated part according to the actual situation; after the prefabricated part is accurately installed and positioned, the support rod of the support 5 is fixed on the base surface;

and sixthly, acquiring the axial force data of the supporting rods through the axial force monitor and sending the axial force data to the controller, monitoring the axial force change of the vertical supporting rod 1 and the height of the vertical supporting rod 1 in real time by the controller, and adjusting the servo electric cylinder 3 on the corresponding vertical supporting rod 1 through the controller when the deviation between the data acquired by a certain axial force monitor and the mean value is large, so that the axial force data tend to the mean value.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. A combined type component supporting tool system is characterized by comprising a plurality of single-truss portal bent frames which are sequentially spliced, wherein each single-truss portal bent frame comprises a frame structure consisting of a transverse supporting rod and a vertical supporting rod, and further comprises a servo electric cylinder arranged at the upper end of the vertical supporting rod, a rotating base plate arranged at the top of the servo electric cylinder, and a support arranged at the bottom of the vertical supporting rod;

the rotary base plate comprises two lug plates which are vertically arranged and 1T-shaped top plate, and a web plate of the T-shaped top plate is connected with the lug plates through a rotating shaft;

adjacent single-truss portal bent frame passes through the horizon bar and sets up in the combination formula that the horizon bar both ends draws and connects ware fixed connection, the horizon bar both ends are provided with the screw thread end, combination formula draws and connects the ware and includes interior even board and outer even board, interior even board and outer even board pass through bolt fastening and encircle on vertical support rod, be provided with the hickey on the interior even board, interior even board and horizon bar tip threaded connection.

2. The modular component support tooling system of claim 1, wherein the transverse support bar is fixedly connected to the vertical support bar by a modular tie-in.

3. The modular component support tooling system of claim 1, wherein the support comprises a universal wheel and a plurality of struts; the universal wheels are arranged at the bottom of the vertical supporting rod and used for moving the vertical supporting rod; the support rods are distributed along the bottom of the support rod in a divergent mode and used for supporting the vertical support rods on the foundation surface.

4. The combined member supporting tool system according to claim 1, wherein the transverse supporting rod and the vertical supporting rod each comprise a plurality of standard rod pieces which are sequentially spliced, the end portions of the standard rod pieces are provided with matched internal threads and external threads, and the standard rod pieces are sequentially connected in a threaded manner.

5. The modular component support tooling system of claim 1,

the combined component supporting tool system also comprises an external controller; and a wireless receiving and control module is arranged in the servo electric cylinder and used for receiving the instruction sent by the controller, controlling the lifting of the servo electric cylinder and controlling the elevation of the top.

6. The modular component support tooling system of claim 1,

the vertical supporting rod is provided with an axial force monitor, and the axial force monitor collects axial force data of the supporting rods and sends the axial force data to the controller.

7. A construction method of a combined type component supporting tool system is characterized by comprising the following steps:

determining the shape and the size of the combined member supporting tool system according to the size and the shape of the prefabricated member, and determining the length and the number of the vertical supporting rods, the transverse supporting rods and the horizontal rods; and determining the number of the standard rod pieces;

connecting the standard rod pieces to form a vertical supporting rod and a transverse supporting rod, mounting a support at the bottom of the vertical supporting rod, mounting a servo electric cylinder at the top of the vertical supporting rod, fixedly arranging a rotating base plate at the top of the servo electric cylinder, and splicing the vertical supporting rod and the transverse supporting rod to form a single-truss portal bent frame;

connecting the standard rod pieces to form a horizontal rod, fixedly connecting one end of the horizontal rod with an inner connecting plate of a combined type drawing connector, fixing the inner connecting plate and an outer connecting plate of the combined type drawing connector on vertical supporting rods through bolts, respectively fixing the combined type drawing connectors at two ends of the horizontal rod on the vertical supporting rods of two single portal bent frames, splicing the combined type component supporting tool systems as required, and adjusting the position of a support to enable the combined type component supporting tool systems to be positioned right below the to-be-spliced positions of the prefabricated components;

each servo electric cylinder in the combined component support tool system is numbered and input into an external controller, an instruction is sent to a wireless receiving and control module of the servo electric cylinder through the controller, and the corresponding servo electric cylinder is adjusted to lift, so that the top of a rotating base plate reaches a set elevation;

hoisting the prefabricated part to the position above the combined type member supporting tool system, and placing the prefabricated part on the rotating base plate, wherein an installer can finely adjust the position of the prefabricated part according to the actual situation; after the prefabricated part is accurately installed and positioned, the support rod of the support is fixed on the base surface;

the axial force data of the supporting rods are collected through the axial force monitor and sent to the controller, the controller monitors the axial force change of the vertical supporting rods and the height of the vertical supporting rods in real time, and when the data collected by a certain axial force monitor is larger than the mean value deviation, the servo electric cylinder on the corresponding vertical supporting rod is adjusted through the controller, so that the axial force data tend to the mean value.

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