CN114135120A

CN114135120A - Anti-deviation device for high formwork support

Info

Publication number: CN114135120A
Application number: CN202111307061.9A
Authority: CN
Inventors: 王源兴; 孙健杰; 黄先文; 吴志云
Original assignee: China MCC20 Group Corp Ltd; Shanghai Ershiye Construction Co Ltd
Current assignee: China MCC20 Group Corp Ltd; Shanghai Ershiye Construction Co Ltd
Priority date: 2021-11-05
Filing date: 2021-11-05
Publication date: 2022-03-04

Abstract

The invention discloses an anti-deviation device for a high formwork support, which comprises a foundation template, a supporting frame and a supporting frame, wherein the foundation template is transversely placed on a foundation and is used as a bottom supporting part of the high formwork support; the supporting vertical pipes are vertically arranged on the upper side of the foundation template side by side, the upper ends of the supporting vertical pipes are connected with a top template, and a plurality of positioning frames and clamping sleeves are arranged on the supporting vertical pipes at intervals along the length direction of the supporting vertical pipes; the supporting horizontal pipe penetrates through the positioning frame at the same height on the supporting vertical pipe; the adjusting sleeve is arranged between the clamping sleeves at the same height on the adjacent support vertical pipes, the two ends of the adjusting sleeve are respectively in threaded connection with a positive screw rod and a negative screw rod, and the end parts of the positive screw rod and the negative screw rod are respectively connected with the corresponding clamping sleeves. The invention has good locking effect, can adjust stress, and solves the problems that the existing anti-deviation device has poor locking effect, can not adjust stress and is inconvenient to use.

Description

Anti-deviation device for high formwork support

Technical Field

The invention relates to the field of high formwork support, in particular to an anti-deviation device for a high formwork support.

Background

The high formwork support refers to the formwork support work when the height of the formwork is more than or equal to 8m, the concrete formwork support work in the project with high risk is divided into partial projects, the height is set up to be more than 5m, the span is set up to be more than 10m, or the total construction load is 10kN/m²And the load of the concentration line is more than 15kN/m, or the height is more than the width of the support horizontal projection and is relatively independent of the concrete formwork support engineering of the unrelated component, and the construction method exceeds the concrete formwork support engineering in partial project with large risk in a certain scale.

In the process of erecting the high formwork support, the anti-deviation device is required to be used, the stability of the anti-deviation device is improved, the locking effect of the existing anti-deviation device is poor, stress adjustment cannot be carried out, when people use the anti-deviation device, the stability of the high formwork support cannot be effectively improved, the high formwork support is easily deviated, tightness adjustment cannot be carried out on the stress of the high formwork support, and the high formwork support is inconvenient to use by people.

Disclosure of Invention

The invention provides an anti-deviation device for a high formwork support, which has a good locking effect and can adjust stress, and solves the problems that the existing anti-deviation device has a poor locking effect and cannot adjust stress, when people use the anti-deviation device, the stability of the high formwork support cannot be effectively improved, the high formwork support is easy to deviate, the stress of the high formwork support cannot be adjusted in a loosening and tightening manner, and the use of people is inconvenient.

In order to achieve the purpose, the invention provides the following technical scheme: a high formwork deviation prevention device comprises:

the foundation template is transversely placed on the foundation and serves as a bottom supporting part of the high formwork support;

the supporting vertical pipes are vertically arranged on the upper side of the foundation template side by side, the upper ends of the supporting vertical pipes are connected with a top template, and a plurality of positioning frames and clamping sleeves are arranged on the supporting vertical pipes at intervals along the length direction of the supporting vertical pipes;

the supporting horizontal pipe penetrates through the positioning frame at the same height on the supporting vertical pipe;

the adjusting sleeve is arranged between the clamping sleeves at the same height on the adjacent support vertical pipes, the two ends of the adjusting sleeve are respectively in threaded connection with a positive screw rod and a negative screw rod, and the end parts of the positive screw rod and the negative screw rod are respectively connected with the corresponding clamping sleeves.

Preferably, the positioning frame is installed on the side wall of the supporting vertical pipe, the positioning frame is hollow and provided with an arc support, a first arc-shaped clamping ring is arranged on the upper side of the arc support, the upper end of the first arc-shaped clamping ring is connected with the lower end of a first screw rod through a first bearing seat, the first screw rod penetrates through a first threaded sleeve at the top of the positioning frame and is connected with a first rotating wheel, and the supporting horizontal pipe penetrates through the space between the first arc-shaped clamping ring and the arc support and is clamped tightly.

Preferably, a guide rod is vertically arranged on one side of the arc-shaped support, and a sliding sleeve connected with the first arc-shaped clamping ring is sleeved on the guide rod.

Preferably, the jacket is cylindrical and is sleeved outside the support vertical pipe, a pair of second arc-shaped clamping rings for clamping the support vertical pipe is arranged inside the jacket, one side of each second arc-shaped clamping ring is connected with one end of a second screw rod through a third bearing seat, the second screw rod penetrates through a second threaded sleeve arranged in a through hole in the side wall of the jacket and is connected with a second rotating wheel, and a plurality of springs for connecting the jacket and the second arc-shaped clamping rings are arranged around the second screw rod.

Preferably, a rubber pad is arranged on the inner arc surface of the second arc-shaped clamping ring.

Preferably, the two ends of the adjusting sleeve are internally provided with screw rod nuts, the positive screw rod and the negative screw rod penetrate through the corresponding screw rod nuts to be meshed, the opposite ends of the positive screw rod and the negative screw rod are connected with the moving plate through the second bearing seats, and the moving plate slides along the adjusting sleeve in a rotation prevention manner.

Preferably, the periphery of the movable plate is provided with a plurality of protruding guide blocks, and the guide blocks are embedded into guide grooves which are correspondingly and axially arranged on the inner side wall of the adjusting sleeve.

Preferably, the upper end of the foundation formwork is provided with a plurality of positioning lantern rings, and the lower end of the support vertical pipe is inserted into the positioning lantern rings and is locked and fixed through locking screws on the side walls of the positioning lantern rings.

Preferably, the ends of the positive screw rod and the negative screw rod are connected with the jacket through a fixing plate.

Compared with the prior art, the invention has the beneficial effects that:

1. through the ground template, the adjusting collar, the position sleeve ring, support the standpipe, the top template, press from both sides the cover, locking mechanism, the locating frame, the arc support, support violently the pipe, the fixed plate, the rubber pad, the guide slot, the guide arm, mutually supporting of sliding sleeve and spring, reached locking effectual and can carry out the advantage of stress adjustment, current anti-migration device has been solved, locking effect is poor and can't carry out stress adjustment, when people are using current anti-migration device, can't effectually increase the stability of high formwork, lead to it to squint easily, and can't carry out the elasticity with the stress of high formwork support and adjust, the problem that inconvenient people used.

2. The guide rod and the sliding sleeve play a role in stably moving the first arc-shaped clamping ring when in use, so that the problem that the first arc-shaped clamping ring easily rotates when in use is solved; through guide slot and guide block, played the smooth and easy effect of sliding when using to the movable plate, solved the movable plate and appeared the problem that the slip card is pause when using.

Drawings

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

FIG. 2 is a side sectional view of a positioning frame and a support stem according to the present invention;

fig. 3 is a top sectional view of the mounting structure of the jacket of the present invention;

fig. 4 is a sectional view showing the internal structure of the adjustment sleeve of the present invention.

Reference numerals:

1. a foundation template; 2. an adjusting sleeve; 31. sleeving the silk; 32. a positive lead screw; 33. a reverse screw rod; 34. a second bearing housing; 35. moving the plate; 4. a positioning collar; 5. supporting the vertical tube; 6. a top template; 7. a jacket; 81. a through hole; 82. a second thread insert; 83. a second screw; 84. a second runner; 85. a third bearing seat; 86. a second arc-shaped snap ring; 9. a positioning frame; 10. an arc-shaped support; 11. supporting the transverse pipe; 121. a first threaded sleeve; 122. a first screw; 123. a first runner; 124. a first bearing housing; 125. a first arcuate snap ring; 13. a fixing plate; 14. a rubber pad; 15. locking screws; 16. a guide groove; 17. a guide block; 18. a guide bar; 19. a sliding sleeve; 20. a spring.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 4, the present invention relates to an embodiment, and in particular to an anti-shifting apparatus for a high formwork support, including:

ground template 1 transversely places the bottom sprag part as high formwork support on the ground, and ground template 1 is flat, for the convenience of installation support standpipe 5, can ground template 1's upper end install a plurality of position sleeve ring 4, support standpipe 5 have a plurality of vertical side by side to set up the upside at ground template 1, the lower extreme of support standpipe 5 insert in the position sleeve ring 4 and lock fixedly through locking screw 15 on the 4 lateral walls of position sleeve ring.

Meanwhile, the upper ends of the supporting vertical pipes 5 are connected with a top template 6, the supporting vertical pipes 5 can stably support the top template 6, the supporting vertical pipes 5 are provided with a plurality of positioning frames 9 and clamping sleeves 7 at intervals along the length direction, the supporting horizontal pipes 11 are arranged, the supporting horizontal pipes 11 penetrate through the positioning frames 9 at the same height on the supporting vertical pipes 5, accordingly, the supporting horizontal pipes 11 can be connected with the supporting vertical pipes 5, the connection rigidity between the supporting vertical pipes 5 is kept, the positioning frames 9 and the supporting horizontal pipes 11 can be moved and locked, adjustment is convenient, and adjustment of the distance between the supporting vertical pipes 5 needs to be achieved through the adjusting sleeves 2.

In this embodiment, the adjusting sleeves 2 are disposed between the clamping sleeves 7 at the same height on the adjacent supporting vertical pipes 5, a plurality of adjusting sleeves 2 are disposed between the adjacent supporting vertical pipes 5, two ends of each adjusting sleeve 2 are respectively in threaded connection with a positive screw rod 32 and a negative screw rod 33, ends of the positive screw rods 32 and the negative screw rods 33 are respectively connected with the corresponding clamping sleeves 7, and the extending and retracting of the positive screw rods 32 and the negative screw rods 33 can be adjusted by rotating the adjusting sleeves 2, so that the distance between the two adjacent clamping sleeves 7 can be adjusted, and the adjustment of the offset between the supporting vertical pipes 5 can be realized.

In this embodiment, as a connection relationship between the positioning frame 9 and the horizontal support tube 11, as shown in fig. 2, the positioning frame 9 is installed on a side wall of the vertical support tube 5, the interior of the positioning frame is hollowed out, and the arc support 10 is installed, a first arc-shaped clamping ring 125 is arranged on an upper side of the arc support 10, an upper end of the first arc-shaped clamping ring 125 is connected to a lower end of a first screw 122 through a first bearing seat 124, the first screw 122 passes through a first screw sleeve 121 on the top of the positioning frame 9 and is connected to a first rotating wheel 123, the horizontal support tube 11 passes through and is clamped between the first arc-shaped clamping ring 125 and the arc support 10, the first arc-shaped clamping ring 125 can be lifted relative to the arc support 10 by manually rotating the first rotating wheel 123, so as to clamp and release the horizontal support tube 11 by the first arc-shaped clamping ring 125 and the arc support 10, some anti-slip measures can be provided between the first arc-shaped clamping ring 125 and the arc support 10 and the horizontal support tube 11, if a rubber layer is added or anti-skid protrusions are arranged, the positioning frame 9 can be formed by cutting square steel, the two ends of the positioning frame are hollow, and the positioning frame is connected with the support vertical pipe 5 through welding or fasteners.

In this embodiment, first arc snap ring 125 can not follow the rotation in order to make first screw rod 122 rotate, the vertical guide arm 18 that is provided with in one side of arc support 10, guide arm 18 on cup jointed the sliding sleeve 19 that links to each other with first arc snap ring 125, the lift of first arc snap ring 125 is led by guide arm 18 and sliding sleeve 19, makes the lift of first arc snap ring 125 more smooth and easy steady, the dead condition of card can not appear.

In this embodiment, as an installation manner of the jacket 7, as shown in fig. 3, the jacket 7 is cylindrical and is sleeved outside the support vertical pipe 5, a pair of second arc-shaped clamping rings 86 for clamping the support vertical pipe 5 is arranged inside the jacket 7, one side of the second arc-shaped clamping ring 86 is connected to one end of a second screw 83 through a third bearing seat 85, the second screw 83 passes through a second screw sleeve 82 installed in a through hole 81 in a side wall of the jacket 7 and is connected to a second rotating wheel 84, a plurality of springs 20 for connecting the jacket 7 and the second arc-shaped clamping rings 86 are arranged around the second screw 83, the support vertical pipe 5 can be clamped through the two second arc-shaped clamping rings 86, installation of the jacket 7 is achieved, and the height of the jacket 7 on the support vertical pipe 5 can be quickly adjusted by rotating the second screw 83. The spring 20 can increase the connection strength between the jacket 7 and the second arc-shaped snap ring 86, and also prevent the second arc-shaped snap ring 86 from rotating along with the rotation of the second screw 83, and preferably, in order to increase the friction force between the second arc-shaped snap ring 86 and the support vertical pipe 5 and maintain the fixed state of the jacket 7, the rubber pad 14 is installed on the inner arc surface of the second arc-shaped snap ring 86.

In this embodiment, as an embodiment of a structure of the adjusting sleeve 2, as shown in fig. 4, a lead screw nut 31 is installed in each end of the adjusting sleeve 2, the positive lead screw 32 and the negative lead screw 33 penetrate through and engage with the corresponding lead screw nut 31, opposite ends of the positive lead screw 32 and the negative lead screw 33 are connected to a moving plate 35 through a second bearing seat 34, the moving plate 35 slides along the adjusting sleeve 2 in a rotation-proof manner, and the positive lead screw 32 and the negative lead screw 33 do not rotate, so that rotation of the adjusting sleeve 2 can be converted into axial movement of the positive lead screw 32 and the negative lead screw 33, and adjustment of a distance between adjacent clamping sleeves 7 is achieved, and the lead screw nut 31 can be detachably provided with the adjusting sleeve 2, thereby facilitating disassembly and replacement.

Meanwhile, the ends of the positive screw rod 32 and the negative screw rod 33 are connected with the jacket 7 through the fixing plate 13, and the fixing plate 13 is generally attached to the outer circular arc surface of the jacket 7, so that the surface of the fixing plate 13 connected with the positive screw rod 32 or the negative screw rod 33 is a plane, and the welding connection between the fixing plate 13 and the positive screw rod 32 or the negative screw rod 33 is facilitated.

Meanwhile, as an anti-rotation mode of the moving plate 35, a plurality of protruding guide blocks 17 are arranged on the periphery of the moving plate 35, the guide blocks 17 are embedded into guide grooves 16 which are arranged on the inner side wall of the adjusting sleeve 2 in the corresponding axial direction, the width of each guide groove 16 is slightly larger than that of each guide block 17, and therefore the moving plate 35 cannot be locked when sliding.

When the device is used, firstly, the support vertical pipe 5 is inserted into the positioning sleeve ring 4, the support vertical pipe 5 and the positioning sleeve ring 4 are locked and fixed through the locking screw 15, then the jacket 7 is sleeved on the support vertical pipe 5, then the second rotating wheel 84 is rotated, the second rotating wheel 84 drives the second screw 83 to rotate through the second screw sleeve 82, the second screw 83 clamps and fixes the support vertical pipe 5 through the spring 20 and the second arc-shaped snap ring 86, then the positive screw 32, the reverse screw 33 and one side of the jacket 7 are fixed through the fixing plate 13, after the completion, the adjusting sleeve 2 is rotated, the adjusting sleeve 2 drives the positive screw 32 and the reverse screw 33 to move inwards through the screw nut 31, the positive screw 32 and the reverse screw 33 drive the moving plate 35 to move inwards through the second bearing block 34, the moving plate 35 drives the guide block 17 to slide in the guide groove 16, so that the supporting stress of the support vertical pipe 5 is adjusted to prevent inclination, then the positioning frame 9 is installed on the vertical support pipe 5 through the fixing bolt, then the horizontal support pipe 11 is inserted into the positioning frame 9 and placed on the arc-shaped support 10, the first rotating wheel 123 is rotated, the first rotating wheel 123 drives the first screw 122 to rotate through the first screw sleeve 121, the first screw 122 drives the first arc-shaped snap ring 125 to move downwards through the first bearing seat 124, the first arc-shaped snap ring 125 clamps and fixes the horizontal support pipe 11 on the arc-shaped support 10 through the sliding sleeve 19 and the guide rod 18, the stability of the integral part can be increased, the advantages of good locking effect and stress adjustment can be achieved, the problems that the existing deviation preventing device is poor in locking effect and stress adjustment cannot be performed are solved, when people use the deviation preventing device, the stability of the high-branch formwork cannot be effectively increased, the deviation is easily caused, and the stress of the high-branch formwork support cannot be adjusted in tightness, is inconvenient for people to use.

It should be noted that all directional indicators (such as up, down, left, right, front, and back) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Claims

1. The utility model provides a high formwork support prevents excursion device which characterized in that includes:

the foundation formwork (1) is transversely placed on a foundation and serves as a bottom supporting part of the high formwork support;

the supporting vertical pipes (5) are vertically arranged on the upper side of the foundation template (1) side by side, the upper ends of the supporting vertical pipes (5) are connected with a top template (6), and a plurality of positioning frames (9) and clamping sleeves (7) are arranged on the supporting vertical pipes (5) at intervals along the length direction of the supporting vertical pipes;

the supporting transverse pipe (11) penetrates through the positioning frame (9) at the same height on the supporting vertical pipe (5);

the adjusting sleeve (2) is arranged between the clamping sleeves (7) at the same height on the adjacent supporting vertical pipes (5), two ends of the adjusting sleeve (2) are respectively in threaded connection with a positive screw rod (32) and a negative screw rod (33), and the end parts of the positive screw rod (32) and the negative screw rod (33) are respectively connected with the corresponding clamping sleeves (7).

2. The high formwork deviation prevention device of claim 1, wherein: locating frame (9) install on the lateral wall that supports standpipe (5), its inside fretwork just installs arc support (10), the upside of arc support (10) be provided with first arc snap ring (125), the upper end of first arc snap ring (125) link to each other through the lower extreme of first bearing frame (124) with first screw rod (122), first screw rod (122) pass first swivel nut (121) at locating frame (9) top and link to each other with first runner (123), the support violently manage (11) pass and are pressed from both sides tightly from between first arc snap ring (125) and arc support (10).

3. The high formwork deviation prevention device of claim 2, wherein: a guide rod (18) is vertically arranged on one side of the arc-shaped support (10), and a sliding sleeve (19) connected with the first arc-shaped clamping ring (125) is sleeved on the guide rod (18).

4. The high formwork deviation prevention device of claim 1, wherein: the clamping sleeve (7) is cylindrical and is sleeved on the outer side of the supporting vertical pipe (5), a pair of second arc-shaped clamping rings (86) for clamping the supporting vertical pipe (5) is arranged in the clamping sleeve (7), one side of each second arc-shaped clamping ring (86) is connected with one end of a second screw rod (83) through a third bearing seat (85), the second screw rods (83) penetrate through second thread sleeves (82) arranged in through holes (81) in the side wall of the clamping sleeve (7) and are connected with a second rotating wheel (84), and a plurality of springs (20) for connecting the clamping sleeve (7) and the second arc-shaped clamping rings (86) are arranged around the second screw rods (83).

5. The high formwork deviation prevention device of claim 4, wherein: and a rubber pad (14) is arranged on the inner arc surface of the second arc-shaped snap ring (86).

6. The high formwork deviation prevention device of claim 1, wherein: screw nuts (31) are installed in two ends of the adjusting sleeve (2), the positive screw rod (32) and the negative screw rod (33) penetrate through the corresponding screw nuts (31) to be meshed, opposite ends of the positive screw rod (32) and the negative screw rod (33) are connected with the moving plate (35) through second bearing seats (34), and the moving plate (35) slides along the adjusting sleeve (2) in an anti-rotation mode.

7. The high formwork deviation prevention device of claim 6, wherein: the periphery of the moving plate (35) is provided with a plurality of protruding guide blocks (17), and the guide blocks (17) are embedded into guide grooves (16) which are arranged on the inner side wall of the adjusting sleeve (2) in the corresponding axial direction.

8. The high formwork deviation prevention device of claim 1, wherein: the foundation formwork is characterized in that a plurality of positioning sleeve rings (4) are installed at the upper end of the foundation formwork (1), and the lower end of the supporting vertical pipe (5) is inserted into the positioning sleeve rings (4) and is locked and fixed through locking screws (15) on the side walls of the positioning sleeve rings (4).

9. The high formwork deviation prevention device of claim 1, wherein: the ends of the positive screw rod (32) and the negative screw rod (33) are connected with the jacket (7) through the fixing plate (13).