CN110388064B

CN110388064B - Positioning and mounting equipment for assembly type component

Info

Publication number: CN110388064B
Application number: CN201910701886.5A
Authority: CN
Inventors: 陈扬鹏
Original assignee: Chongqing Jianzhu College
Current assignee: China Railway Construction Bridge Engineering Bureau Group Construction Assembly Technology Co ltd
Priority date: 2019-07-31
Filing date: 2019-07-31
Publication date: 2021-02-12
Anticipated expiration: 2039-07-31
Also published as: CN110388064A

Abstract

The invention belongs to the field of assembly type buildings, and particularly discloses an assembly type component positioning and mounting device which comprises a positioning and supporting mechanism arranged at the top of a lower-layer wallboard and provided with a reserved steel bar side edge, wherein the positioning and supporting mechanism comprises a plurality of positioning pieces longitudinally distributed along the reserved steel bar, each positioning piece comprises a vertical positioning rod fixed at the top of the lower-layer wallboard, a sliding sleeve is also slidably connected in each positioning rod, a vertical supporting rod is slidably connected in each sliding sleeve, the top of each vertical supporting rod is rotatably connected with a telescopic oblique supporting rod, fixing pieces are arranged at two ends of each oblique supporting rod, and a connecting rod is hinged between each sliding sleeve; the inner side of the positioning rod is rotatably connected with a main guide wheel, and the outer edge of the main guide wheel is attached to the sliding sleeve. By adopting the invention, the time for installing the inclined support can be reduced, thereby reducing the occupied time of the tower crane.

Description

Positioning and mounting equipment for assembly type component

Technical Field

The invention relates to the field of assembly type buildings, in particular to an assembly type component positioning and mounting device.

Background

The installation of wallboard usually adopts the tower crane hoist and mount to go on among the assembly type structure, and at upper wallboard decline in-process, the slew rate is difficult to control, consequently is difficult to guarantee that upper portion wallboard can be steady and accurate fall to the lower part wallboard on, if upper portion wallboard slew rate is too fast, leads to easily bending the vertical reinforcing bar at lower part wallboard top.

After the installation of upper assembled wallboard was accomplished, still need to install the purpose of bearing diagonal in order to play interim support to the wallboard, the bearing diagonal is many inclined to one side bracing pieces usually, and inclined to one side bracing piece's both ends are fixed respectively on upper wallboard side and lower floor's floor. And during the installation bearing diagonal among the prior art, need the workman to measure the position and the slope degree of confirming the bearing diagonal installation repeatedly, bearing diagonal installation time is longer, and because the installation bearing diagonal in-process, need keep upper wallboard to go on under the tower crane hoist and mount state, consequently the time of occupying the tower crane when installing the bearing diagonal is longer, because the tower crane quantity that every building was equipped with usually is limited, the time overlength that the installation bearing diagonal took can lead to the extension of whole time limit.

Disclosure of Invention

The invention aims to provide positioning and mounting equipment for an assembled component, which is used for reducing the time for mounting an inclined support so as to reduce the occupied time of a tower crane.

In order to achieve the purpose, the invention adopts the following technical scheme:

an assembly type component positioning and mounting device comprises a positioning and supporting mechanism arranged at the top of a lower layer wallboard and provided with a side edge of a reserved steel bar, wherein the positioning and supporting mechanism comprises a plurality of positioning pieces longitudinally distributed along the reserved steel bar, each positioning piece comprises a vertical positioning rod fixed at the top of the lower layer wallboard, a sliding sleeve is also connected in each positioning rod in a sliding manner, a vertical supporting rod is connected in each sliding sleeve in a sliding manner, the top of each vertical supporting rod is rotatably connected with a telescopic oblique supporting rod, fixing pieces are arranged at two ends of each oblique supporting rod, and a connecting rod is hinged between each; the inner side of the positioning rod is rotatably connected with a main guide wheel, and the outer edge of the main guide wheel is attached to the sliding sleeve.

The principle of the scheme is as follows:

the figure of setting element is selected according to the bearing diagonal figure that upper wallboard needs, the main leading wheel motion on the locating lever is followed when the upper wallboard descends, main leading wheel team upper wallboard plays the effect of guide, because there is frictional force between upper wallboard and the main leading wheel, can drive main leading wheel when the upper wallboard descends and rotate, main leading wheel rotates and is used for driving the sliding sleeve motion, the sliding sleeve motion is used for driving the bearing diagonal pole through the connecting rod and opens, after the upper wallboard installation targets in place, only need pull out the bearing diagonal pole, fix the mounting at bearing diagonal both ends respectively on upper wallboard and floor and can realize the interim bearing diagonal to the upper wallboard.

This scheme of adoption can reach following technological effect:

1. only need during this scheme installation bearing diagonal install the mounting at each bearing diagonal both ends can, need compare with among the prior art when installing the bearing diagonal, the installation of bearing diagonal is greatly simplified, consequently has just also reduced the time of occuping the tower crane when installing the bearing diagonal.

2. The guide wheel has the following multiple functions: firstly, the landing of the upper wallboard is guided and guided; secondly, because friction exists between the upper wallboard and the main guide wheel, the friction can drive the sliding sleeve to move upwards on one hand so as to open the inclined supporting rod, and on the other hand, the friction also forms resistance to the descending of the upper wallboard, so that the phenomenon that the descending speed of the upper wallboard is too high is avoided, and the lower wallboard can stably fall onto the lower wallboard during the installation; thirdly, after the wallboard is installed, the main guide wheel has the anti-pulling effect on the upper layer wallboard, and is particularly suitable for seasons or regions with large wind power.

3. The inclined supporting rod is in an open state only when in use and in a closed state when not in use, so that the inclined supporting rod is convenient to store and stack in a large amount.

4. The connecting rod can play the effect of strengthening and consolidating to the bearing diagonal pole, and it compares with the simple adoption bearing diagonal pole of prior art supports, can reduce the probability that the bearing diagonal pole warp takes place when stressed or being bent.

Furthermore, the positioning and supporting mechanism further comprises a transverse fixing rod and an auxiliary positioning piece detachably connected to the transverse fixing rod, and the positioning rods are fixed on the transverse fixing rod. When the upper wallboard descends, the auxiliary positioning piece can play a role in accurately positioning the end part of the upper wallboard.

Furthermore, the auxiliary positioning piece comprises an auxiliary positioning block, and the inner side of the auxiliary positioning block is rotatably connected with an auxiliary guide wheel. The auxiliary guide wheels can play a role in guiding the end part of the upper wallboard.

Furthermore, the number of the positioning and supporting mechanisms is two, and the two positioning and supporting mechanisms are respectively positioned on two sides of the reserved steel bars at the top of the lower-layer wallboard. Two location supporting mechanism can fix a position upper wallboard from upper wallboard both sides.

Furthermore, the hole has been seted up to the locating lever bottom, and transverse sliding connection has the voussoir in the hole, and the wedge face of voussoir is towards reserving the reinforcing bar. When the locating lever is installed, the wedge blocks are attached to reserved steel bars, and when the upper-layer wallboard descends, the main guide wheel can be attached to the upper-layer wallboard just.

Furthermore, an elastic part is connected between the wedge block and the positioning rod. The elastic piece is used for resetting the wedge block.

Furthermore, the inner side of the positioning rod is also rotatably connected with a plurality of auxiliary guide wheels. The main guide wheel and the auxiliary guide wheels have better guiding effect on the upper-layer wall board.

Furthermore, the main guide wheel and the auxiliary guide wheel are both made of rubber. The friction between the main guide wheel and the auxiliary guide wheel made of rubber and the upper wallboard is large, and the main guide wheel and the auxiliary guide wheel are not easy to slip.

Furthermore, the main guide wheel is a rubber gear, and the surface of the sliding sleeve is provided with meshing teeth meshed with the rubber gear. Through the meshing between rubber gear and the meshing tooth, be difficult for between main leading wheel and the slip sleeve skidding more.

Furthermore, a transverse reinforcing rod is fixed at the bottom of the positioning rod. Can be through the stiffener with firm the installing on lower floor's wallboard of locating lever.

Drawings

FIG. 1 is a front view of a first embodiment of the present invention;

FIG. 2 is a side cross-sectional view of FIG. 1;

FIG. 3 is a cross-sectional view of the positioning rod of FIG. 2;

fig. 4 is a side sectional view of a second embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the wall plate comprises an upper-layer wall plate 1, positioning rods 2, wedge blocks 3, reserved steel bars 4, a transverse fixing rod 5, an auxiliary guide wheel 6, a main guide wheel 7, a supporting shaft 70, a reinforcing rod 8, a sliding sleeve 9, a connecting rod 10, an inclined supporting rod 11, a fixing piece 110, a vertical supporting rod 12, a stop block 120, a containing groove 13 and a rotating cavity 14.

Example one

As shown in fig. 1, fig. 2 and fig. 3, the assembled component location erection equipment of this embodiment, including setting up the location supporting mechanism who reserves 4 sides of reinforcing bar at lower floor's wallboard top, location supporting mechanism includes a plurality of locating pieces along reserving 4 longitudinal distributions of reinforcing bar, and this embodiment explains with two locating pieces, and the locating piece all includes vertical locating

lever

2, and 2 bottoms of locating lever are fixed with horizontal stiffener 8, and stiffener 8 passes through bolt fixed mounting on lower floor's floor.

Combine shown in fig. 2 and 3, 2 outside limits of locating lever have been seted up and have been accomodate groove 13, be equipped with in the locating lever 2 and accomodate the slip chamber and the rotation chamber 14 of groove 13 intercommunication, sliding connection has sliding sleeve 9 in the slip chamber, sliding connection has vertical support bar 12 in sliding sleeve 9, vertical support bar 12 top is connected with telescopic bearing diagonal pole 11 through the round pin axle rotation, it has connecting rod 10 to articulate between sliding sleeve 9 and the bearing

diagonal pole

11, 11 both ends of bearing diagonal pole all are equipped with mounting 110, mounting 110 is the mounting panel of rotating connection at 11 tip of bearing diagonal pole.

A main guide wheel 7 and a plurality of auxiliary guide wheels 6 are rotatably connected in the rotating cavity 14 through a support shaft 70, the main guide wheel 7 and the auxiliary guide wheels 6 are made of rubber, and the outer edge of the main guide wheel 7 is attached to the sliding sleeve 9.

The hole has been seted up to locating lever 2 bottom, and lateral sliding connection has voussoir 3 in the hole, and the wedge face of voussoir 3 is towards reserved reinforcing bar 4, even has the spring to be used for the reseing of voussoir 3 between voussoir 3 and locating lever 2.

As shown in fig. 1, each positioning rod 2 is further fixedly connected with a transverse fixing rod 5, the end of the transverse fixing rod 5 is detachably connected with an auxiliary positioning block through a bolt, and the inner side of the auxiliary positioning block is also rotatably connected with an auxiliary guide wheel 6.

The specific process of positioning and installing the upper wallboard 1 by adopting the invention is as follows:

the number of the positioning pieces is selected according to the number of the diagonal braces required by the upper-layer wallboard 1, each wedge block 3 is firstly attached to the reserved steel bar 4 on the lower-layer wallboard, and then the reinforcing rods 8 at the bottoms of the positioning rods 2 are fixed on the lower-layer floor slab through bolts. The tower crane lifts the upper wallboard 1 for installation, a worker holds the upper wallboard 1 to descend, the bottom of the upper wallboard 1 just falls down from the space between the main guide wheels 7 on the two sides of the upper wallboard, the upper wallboard 1 moves along the main guide wheels 7 on the positioning rods 2 when descending, the main guide wheels 7 play a role in guiding the upper wallboard 1, because friction force exists between the upper wallboard 1 and the main guide wheel 7, when the upper wallboard 1 descends, the main guide wheel 7 is driven to rotate, the main guide wheel 7 rotates to drive the sliding sleeve 9 to move, the connecting rod 10 drives the inclined support rod 11 to open when the sliding sleeve 9 moves, after upper wallboard 1 installed in place, 11 the degree of slope of bearing diagonal pole target in place this moment, and the workman only need pull out bearing diagonal pole 11, can realize the interim bearing diagonal of upper wallboard 1 through the bolt fastening respectively on upper wallboard 1 and floor with the fixed plate at 11 both ends of bearing diagonal pole.

When the diagonal braces are installed, only the fixing pieces 110 at two ends of each diagonal support rod 11 need to be installed, and compared with the need of installing the diagonal braces in the prior art, the installation process of the diagonal braces is greatly simplified, so that the time of occupying a tower crane when the diagonal braces are installed is reduced.

The guide wheel in the invention also has the following functions: the frictional force between upper wallboard 1 and main leading sheave 7 and a plurality of vice leading wheel 6 can form the resistance to the decline of upper wallboard 1, avoids 1 falling speed of upper wallboard too fast, has guaranteed that lower floor's wallboard can steadily fall to lower floor's wallboard when the installation. In addition, after the upper wallboard 1 is installed, the main guide wheels 7 and the plurality of auxiliary guide wheels 6 have the anti-pulling effect on the upper wallboard 1, and the device is particularly suitable for seasons or regions with high wind power.

Example two

The difference between this embodiment and the first embodiment is: as shown in fig. 4, in this embodiment, the upper portion of the vertical support rod 12 is fixed with a stop block 120, and the vertical support rod 12 is initially located in the positioning rod 2, so that the occupied space of the whole positioning member is smaller, and the storage are more convenient. When the sliding sleeve 9 rises, the inclined supporting rod 11 is firstly driven to open, when the sliding sleeve 9 moves upwards to abut against the stop dog 120, the sliding sleeve 9 also moves upwards to drive the vertical supporting rod 12 to move upwards, and the vertical supporting rod 12 is pushed upwards to a required height, so that the inclined supporting rod 11 can be installed.

EXAMPLE III

The difference between this embodiment and the first embodiment is: in this embodiment, the main guide wheel 7 is a rubber gear, and the surface of the sliding sleeve 9 is provided with meshing teeth meshed with the rubber gear. By the engagement between the rubber gear and the engaging teeth, the main guide wheel 7 and the sliding sleeve 9 are less likely to slip.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. An assembled component location erection equipment which characterized in that: the positioning and supporting mechanism comprises a positioning and supporting mechanism arranged at the top of a lower-layer wallboard and used for reserving the side edge of a steel bar, the positioning and supporting mechanism comprises a plurality of positioning pieces longitudinally distributed along the reserved steel bar, each positioning piece comprises a vertical positioning rod fixed at the top of the lower-layer wallboard, a sliding sleeve is also connected in each positioning rod in a sliding manner, a vertical supporting rod is connected in each sliding sleeve in a sliding manner, the top of each vertical supporting rod is rotatably connected with a telescopic oblique supporting rod, fixing pieces are arranged at two ends of each oblique supporting rod, and a connecting rod is hinged; the inner side of the positioning rod is rotatably connected with a main guide wheel, the outer edge of the main guide wheel is attached to the sliding sleeve, and the main guide wheel rotates to drive the sliding sleeve to move.

2. The fabricated component positioning and mounting apparatus of claim 1, wherein: the positioning and supporting mechanism further comprises a transverse fixing rod and an auxiliary positioning piece detachably connected to the transverse fixing rod, and the positioning rods are fixed on the transverse fixing rod.

3. A fabricated component positioning and mounting apparatus as claimed in claim 2, wherein: the auxiliary positioning piece comprises an auxiliary positioning block, and an auxiliary guide wheel is rotatably connected to the inner side of the auxiliary positioning block.

4. A fabricated component positioning and mounting apparatus as claimed in claim 3, wherein: the positioning and supporting mechanisms are two in number and are respectively positioned on two sides of the reserved steel bars at the top of the lower-layer wallboard.

5. The fabricated component positioning and mounting apparatus of claim 4, wherein: the bottom of the positioning rod is provided with a hole, a wedge block is connected in the hole in a transverse sliding mode, and the wedge surface of the wedge block faces towards the reserved steel bar.

6. The fabricated component positioning and mounting apparatus of claim 5, wherein: and an elastic piece is connected between the wedge block and the positioning rod.

7. A fabricated component positioning and mounting apparatus as claimed in claim 3, wherein: the inner side of the positioning rod is also rotatably connected with a plurality of auxiliary guide wheels.

8. A fabricated component positioning and mounting apparatus as claimed in claim 7, wherein: the main guide wheel and the auxiliary guide wheel are both made of rubber.

9. A fabricated component positioning and mounting apparatus as claimed in claim 8, wherein: the main guide wheel is a rubber gear, and the surface of the sliding sleeve is provided with meshing teeth meshed with the rubber gear.

10. A fabricated component positioning and mounting apparatus as claimed in any one of claims 1-9, wherein: and a transverse reinforcing rod is fixed at the bottom of the positioning rod.