CN108955624A - Adjustable formwork support system distortion monitoring points position conversion device and its application method - Google Patents

Abstract

The present invention relates to a kind of adjustable formwork support system distortion monitoring points position conversion devices, include thick pillar device, length adjustment device, right-angle devices, upright bar section, 360 ° of two-sided conversion holders and prism.Thick pillar device is fixed at the top of the upright bar of form bracing system to be monitored, and can be horizontally rotated around upright bar.One end of length adjustment device is threadedly coupled with thick pillar device, and the other end of length adjustment device is threadedly coupled with right-angle devices.The bottom end of upright bar section is connect with right-angle devices, and the top of upright bar section passes through beam slab, and then connect with 360 ° of two-sided conversion holders, and 360 ° of two-sided conversion holders can horizontally rotate around the top of upright bar section.Prism is connected to the top of 360 ° of two-sided conversion holders.Monitoring site at the top of upright bar below conventional beam slab is easily and accurately converted to monitoring site above beam slab, the safety of effective guarantee monitoring personnel by the device.Monitoring site is laid flexibly, while avoiding the technical issues of internal monitoring point is difficult to intervisibility in routine monitoring method.

Description

Adjustable formwork support system distortion monitoring points position conversion device and its application method

Technical field

The present invention relates to concrete blinding propping works safety monitoring technology field, specially a kind of prisons by below beam slab Location point is converted into the device and its application method in the monitoring site above beam slab.

Background technique

The monitoring method of frame body deformation mainly has general measure monitoring and high-supported formwork in concrete blinding support system at present Intellectual monitoring.General measure monitoring is to divide into monitoring point in beam slab, and then branch mirror measures.This mode measured below beam slab Risk is larger and internal point is unable to intervisibility, it is difficult to reach monitoring effect.High-supported formwork intellectual monitoring passes through comprehensive utilization Internet of Things Technology gets up the connection of field monitoring instrument, carries out to template sedimentation, deformation of timbering and the upright bar axle power of high and big die plate support system Real-time monitoring.This monitoring method safety and high degree of automation, but it is expensive, it is unfavorable for general item popularization and application.

Summary of the invention

The purpose of the present invention is to provide adjustable formwork support system distortion monitoring points position conversion device and its users Method, with solve in concrete blinding support system general measure monitoring method risk in the monitoring method of frame body deformation it is larger and Internal point is unable to intervisibility, it is difficult to reach monitoring effect；High-supported formwork intellectual monitoring is expensive, is unfavorable for general item popularization and application The technical issues of.

In order to solve the above technical problem, the present invention provides adjustable formwork support system deformation monitoring point converting means It sets, it is characterised in that: it is whole L-shaped, including thick pillar device, length adjustment device, right-angle devices, upright bar section, 360 ° two-sided turn Change holder and prism；

The thick pillar device horizontally rotates the top for being connected to the upright bar of form bracing system to be monitored；

One end of the length adjustment device is threadedly coupled with thick pillar device, and the other end is threadedly coupled with right-angle devices；

The bottom end of the upright bar section is connect with right-angle devices, and the top of upright bar section passes through beam slab, and horizontally rotates and be connected to The bottom of 360 ° of two-sided conversion holders；

The prism is connected to the top of 360 ° of two-sided conversion holders.

Preferably, the thick pillar device includes arc backboard, holding card, cross bar and the first angle brace；

The top of upright bar is arranged in along the fitting of upright bar length direction for the arc backboard,

The holding card and arc backboard weld, and by arc backboard hoop on the side wall of upright bar,

One end of the cross bar and arc backboard are welded to connect, and the other end is threadedly coupled with length adjustment device,

First angle brace is welded to connect between arc backboard and cross bar.

Preferably, the length adjustment device includes positive and negative threaded ferrule and is threaded in positive and negative threaded ferrule both ends Screw rod.

Preferably, the right-angle devices include L-type connector and be arranged between L-type connector transverse part and vertical portion Two angle braces.

Preferably, the upright bar section is spliced by more piece quarter butt, includes to stand above upright bar section and beam slab below beam slab Rod segment.

Preferably, described 360 ° two-sided conversion holders include holder pedestal and double-side-turning holder plate,

The holder pedestal horizontally rotates the top for being connected to upright bar section, and locks screw thread by upright bar and fix；

The double-side-turning holder plate locks screw thread by holder plate and connection may be reversed in holder pedestal.

Preferably, the prism is mini prism, and the mini prism screwed connection is on the top of 360 ° of two-sided conversion holders End.

Preferably, the prism is circle prism, and the round prism snaps connection on the top of 360 ° of two-sided conversion holders.

Preferably, the thick pillar device, length adjustment device, right-angle devices, upright bar section, 360 ° of two-sided conversion holders are Aluminium alloy element.

In addition, the present invention also provides the users of above-mentioned adjustable formwork support system distortion monitoring points position conversion device Method, it is characterised in that include the following steps,

Step 1: selecting the upright bar of form bracing system to be monitored, and thick pillar device is fixed on form bracing system to be monitored At the top of upright bar, according to the position of position to be monitored and beam slab preformed hole, the position of thick pillar device is adjusted；

Step 2: one end of length adjustment device is threadedly coupled with thick pillar device, the other end is threadedly coupled with right-angle devices；

Step 3: according to the position initial adjustment length adjustment device of beam slab preformed hole, it is located at right-angle devices under beam slab preformed hole Side；

Step 4: the upright bar section below beam slab is determined according to the difference in height on position to be monitored and beam slab between the position of preformed hole Length, the bottom end of upright bar section is connect with right-angle devices；

Step 5: the centre bit of preformed hole on the top alignment beam slab of the upright bar section below trim lengths regulating device to beam slab It sets, upright bar section is spliced above beam slab；

Prism: being connected to the top of 360 ° of two-sided conversion holders by step 6, is then connected to 360 ° of two-sided conversion holders vertical The top of rod segment；

Step 7: rotating 360 ° of two-sided conversion holders according to the position of total station, makes prism towards total station, adjusts prism to rib The center of mirror is overlapped with the crosshair of total station object lens；

Step 8: opening total station, carries out three-dimensional measurement.

Compared with prior art, it the features of the present invention and has the beneficial effect that

(1) adjustable formwork support system distortion monitoring points position conversion device of the invention passes through rotatable thick pillar device, length Regulating device, the upright bar section of right-angle devices and extensible are spent, the monitoring site at the top of upright bar below conventional beam slab is convenient accurate Ground is converted to monitoring site above beam slab, and mini prism or circle prism are connected to upright bar section by 360 ° of two-sided conversion holders Top, dual-use material adjusts the direction of prism by being rotated by 360 ° two-sided conversion holder, and cooperation total station etc. carries out together Monitoring effectively ensures the safety of monitoring personnel, also can effectively avoid below beam slab monitoring because occur it is dangerous due to be difficult to withdraw, Disconnected monitoring.

(2) adjustable formwork support system distortion monitoring points position conversion device of the invention makes monitoring site lay spirit It is living, while avoiding the technical issues of internal monitoring point is difficult to intervisibility in routine monitoring method.

(3) adjustable formwork support system distortion monitoring points position conversion device of the invention is ingenious in design, structure is simple, easily In production, low in cost, practical, the larger concrete blinding propping works peace of the risk being particularly suitable in common engineering It is promoted and applied in full monitoring.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of adjustable formwork support system distortion monitoring points position conversion device.

Fig. 2 is the usage state diagram of adjustable formwork support system distortion monitoring points position conversion device.

Fig. 3 is the schematic front view of thick pillar device.

Fig. 4 is the schematic rear view of thick pillar device.

Fig. 5 is the connection schematic diagram of thick pillar device, length adjustment device and right-angle devices.

Fig. 6 is the A-A diagrammatic cross-section of Fig. 5.

Fig. 7 is the structural schematic diagram of right-angle devices.

Fig. 8 is the structural schematic diagram of upright bar section.

Fig. 9 is structural representation Fig. 1 of 360 ° of two-sided conversion holders.

Figure 10 is structural representation Fig. 2 of 360 ° of two-sided conversion holders.

Specific embodiment

For realize the present invention technological means, character of innovation, reach purpose and effect is easy to understand, below to Invention further illustrates.

The embodiment recorded herein is specific specific embodiment of the invention, for illustrating design of the invention, Be it is explanatory and illustrative, should not be construed as the limitation to embodiment of the present invention and the scope of the invention.Except what is recorded herein Outside embodiment, those skilled in the art can also based on the claim of this application book and specification disclosure of that using aobvious and The other technical solutions being clear to, these technical solutions include using any obvious to making for the embodiment recorded herein The technical solution of substitutions and modifications.

As shown in Fig. 1~2, a kind of adjustable formwork support system distortion monitoring points position conversion device includes thick pillar dress Set (6), length adjustment device (5), right-angle devices (4), upright bar section (3), 360 ° of two-sided conversion holders (2) and prism (1).Thick pillar Device (6) is fixed at the top of the upright bar (7) of form bracing system to be monitored, and can be horizontally rotated around upright bar.Length adjustment dress The one end for setting (5) is threadedly coupled with thick pillar device (6), and the other end and right-angle devices (4) screw thread of length adjustment device (5) connect It connects.The bottom end of upright bar section (3) is connect with right-angle devices (4), and the top of upright bar section (3) passes through beam slab (8), so with 360 ° it is two-sided Holder (2) connection is converted, 360 ° of two-sided conversion holders (2) can horizontally rotate around the top of upright bar section (3), and be locked with upright bar Tight screw thread (24) is fixed.Prism (1) is connected to the top of 360 ° of two-sided conversion holders (2).

As shown in figs. 34, thick pillar device (6) includes arc backboard (63), holding card (64), cross bar (61) and first jiao It supports (62).Arc backboard (63) is arranged along the fitting of upright bar (7) length direction at the top of upright bar (7).A pair of of holding card (64) is by arc Shape backboard (63) is bound round on the side wall of upright bar (7).One end and arc backboard (63) of cross bar (61) are welded to connect, cross bar (61) The other end is threadedly coupled with length adjustment device (5).First angle brace (62) is welded to connect in arc backboard (63) and cross bar (61) Between.

As shown in Fig. 5~6, length adjustment device (5) includes positive and negative threaded ferrule (51) and is threaded in positive and negative silk The screw rod (52) at retaining ring cylinder (51) both ends, length adjustment device (5) pass through screw rod (52) cross bar with thick pillar device (6) respectively (61), L-type connector (41) connection of right-angle devices (4).Length adjustment device (5) uses positive and negative screwed connection, it is ensured that even Thick pillar device (6) is motionless in termination process, and right-angle devices (4), which do not rotate, only does horizontal relative displacement.

As shown in fig. 7, right-angle devices (4) include L-type connector (41) and setting L-type connector (41) transverse part and The second angle brace (42) between vertical portion.

As shown in figure 8, upright bar section (3) is spliced by more piece quarter butt, it include upright bar section (31) and beam slab below beam slab Top upright bar section (32).Below beam slab the length of upright bar section (31) according at the top of the upright bar (7) of form bracing system to be monitored and Difference in height between beam slab (8) determines.

As shown in Figures 9 and 10,360 ° of two-sided conversion holders (2) include holder pedestal (22) and double-side-turning holder plate (21), holder pedestal (22) is connected to the top of upright bar section (3), and vertically shaft rotates and passes through upright bar holder pedestal (22) It is fixed to lock screw thread (24).Double-side-turning holder plate (21) includes the face A and the face B, and the face A of double-side-turning holder plate (21) passes through silk Button connects mini prism, can also be connected by a snap round prism in the face B of double-side-turning holder plate (21).Double-side-turning holder Plate (21) is fixed on the side plate of holder pedestal (22) by holder plate locking screw thread (23).Unscrew holder plate locking screw thread (23) i.e. Turningover using with two sides overturns holder plate (21), selects the face A or B face-up, connects the prism of corresponding type selecting.It is selected according to monitoring requirements Fixed different prism model can be used this conversion equipment and carry out form bracing system deformation monitoring, reaches dual-use material Effect.

Thick pillar device (6), length adjustment device (5), right-angle devices (4), upright bar section (3), 360 ° of two-sided conversion holders (2) It is aluminium alloy element.

The application method of above-mentioned adjustable formwork support system distortion monitoring points position conversion device includes the following steps,

Step 1: selection monitoring site, fixed thick pillar device (6): the upright bar (7) of form bracing system to be monitored is selected, by arc Shape backboard (63), at the top of upright bar (7), is bound round arc backboard (63) with holding card (64) along upright bar (7) length direction fitting setting On the side wall of upright bar (7), cross bar (61) are welded to connect on arc backboard (63), are welded between arc backboard (63) and cross bar (61) The first angle brace (62) are connect in succession.According to the position of preformed hole on position to be monitored and beam slab (8), the position of thick pillar device (6) is adjusted It sets.

Step 2: connection length regulating device (5) and right-angle devices (4): by one end of length adjustment device (5) and thick pillar Device (6) is threadedly coupled, and the other end of length adjustment device (5) is threadedly coupled with right-angle devices (4).

Step 3: initial adjustment length adjustment device (5): according to the position initial adjustment length adjustment device of preformed hole on beam slab (8) (5), it rotates positive and negative threaded ferrule (51), right-angle devices (4) move horizontally, and make the vertical of the L-type connector (41) of right-angle devices (4) Portion top is located at the lower section of preformed hole on beam slab (8)；

Step 4: connecting upright pole section (3): true according to the difference in height on position to be monitored and beam slab (8) between the position of preformed hole The length of upright bar section (31) below beam slab, and then the quantity of quarter butt needed for determining splicing upright bar section (3) are determined, by upright bar section (3) Bottom end connect with right-angle devices (4).

Step 5: trim lengths regulating device (5): upright bar section (31) below trim lengths regulating device (5) to beam slab Top is directed at the center of preformed hole on beam slab (8), by finely tuning positive and negative threaded ferrule (51), makes upright bar section below beam slab (31) to the center of preformed hole on beam slab (8), upright bar section (32) above splicing beam slab is then proceeded to；

Step 6: assembling prism (1): mini prism or circle prism are connected to the face A or the face B of double-side-turning holder plate (21)；

Step 7: adjustment prism (1): according to the position of total station rotate 360 ° of two-sided conversion holders (2), make prism (1) towards Total station adjusts prism (1), is overlapped the center of prism (1) with the crosshair of total station object lens；

Step 8: carrying out three-dimensional measurement: opening total station, carry out three-dimensional measurement.

Above embodiment be only preferred embodiments of the present invention will be described, not to the scope of the present invention into Row limits, and without departing from the spirit of the design of the present invention, those of ordinary skill in the art do technical solution of the present invention Various changes and improvements out should all be fallen into the protection scope that claims of the present invention determines.

Claims (10)

1. adjustable formwork support system distortion monitoring points position conversion device, it is characterised in that: it is whole L-shaped, including thick pillar dress Set (6), length adjustment device (5), right-angle devices (4), upright bar section (3), 360 ° of two-sided conversion holders (2) and prism (1)；

The thick pillar device (6) horizontally rotates the top for being connected to the upright bar (7) of form bracing system to be monitored；

One end of the length adjustment device (5) is threadedly coupled with thick pillar device (6), and the other end and right-angle devices (4) screw thread connect It connects；

The bottom end of the upright bar section (3) is connect with right-angle devices (4), and the top of upright bar section (3) passes through beam slab (8), and horizontal It is rotatably connected on the bottom of 360 ° of two-sided conversion holders (2)；

The prism (1) is connected to the top of 360 ° of two-sided conversion holders (2).

2. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute Stating thick pillar device (6) includes arc backboard (63), holding card (64), cross bar (61) and the first angle brace (62)；

The arc backboard (63) is arranged along the fitting of upright bar (7) length direction at the top of upright bar (7),

The holding card (64) and arc backboard (63) are welded, and by arc backboard (63) hoop on the side wall of upright bar (7),

One end and arc backboard (63) of the cross bar (61) are welded to connect, and the other end is threadedly coupled with length adjustment device (5),

First angle brace (62) is welded to connect between arc backboard (63) and cross bar (61).

3. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute Stating length adjustment device (5) includes positive and negative threaded ferrule (51) and the screw rod for being threaded in positive and negative threaded ferrule (51) both ends (52).

4. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute State the second angle brace that right-angle devices (4) include L-type connector (41) and are arranged between L-type connector (41) transverse part and vertical portion (42).

5. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute It states upright bar section (3) to be spliced by more piece quarter butt, includes upright bar section (31) and beam slab top upright bar section (32) below beam slab.

6. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute Stating 360 ° of two-sided conversion holders (2) includes holder pedestal (22) and double-side-turning holder plate (21),

The holder pedestal (22) horizontally rotates the top for being connected to upright bar section (3), and solid by upright bar locking screw thread (24) It is fixed；

Connection may be reversed by holder plate locking screw thread (23) and holder pedestal (22) in the double-side-turning holder plate (21).

7. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute Stating prism (1) is mini prism, and the mini prism screwed connection is on the top of 360 ° of two-sided conversion holders (2).

8. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute Prism (1) is stated as circle prism, the round prism snaps connection on the top of 360 ° of two-sided conversion holders (2).

9. adjustable formwork support system distortion monitoring points position conversion device according to claim 1, it is characterised in that: institute Stating thick pillar device (6), length adjustment device (5), right-angle devices (4), upright bar section (3) and 360 ° of two-sided conversion holders (2) is Aluminium alloy element.

10. adjustable formwork support system distortion monitoring points position conversion device described in any one according to claim 1~9 Application method, it is characterised in that include the following steps,

Step 1: selecting the upright bar (7) of form bracing system to be monitored, and thick pillar device (6) is fixed on shuttering supporting to be monitored At the top of the upright bar (7) of system, according to the position of position to be monitored and beam slab (8) preformed hole, the position of thick pillar device (6) is adjusted；

Step 2: one end of length adjustment device (5) is threadedly coupled with thick pillar device (6), the other end and right-angle devices (4) spiral shell Line connection；

Step 3: according to the position initial adjustment length adjustment device (5) of beam slab (8) preformed hole, right-angle devices (4) is made to be located at beam slab (8) lower section of preformed hole；

Step 4: it is determined below beam slab (8) according to the difference in height on position to be monitored and beam slab (8) between the position of preformed hole The bottom end of upright bar section (3) is connect by the length of upright bar section (3) with right-angle devices (4)；

Step 5: it is reserved in top alignment beam slab (8) of the upright bar section (3) below trim lengths regulating device (5) to beam slab (8) Upright bar section (3) are spliced in the center in hole, beam slab (8) top；

Prism (1): being connected to the top of 360 ° of two-sided conversion holders (2) by step 6, then by 360 ° of two-sided conversion holders (2) It is connected to the top of upright bar section (3)；

Step 7: rotating 360 ° of two-sided conversion holders (2) according to the position of total station, makes prism (1) towards total station, adjusts rib The center of mirror (1) to prism (1) is overlapped with the crosshair of total station object lens；

Step 8: opening total station, carries out three-dimensional measurement.