CN213508086U - Pushing construction device for overall movement of full framing - Google Patents

Abstract

The utility model discloses a full hall support top pushes away construction equipment for moving as a whole, including being used for carrying out the supporting part that supports to full hall support from the bottom of full hall support when full hall support removes, be used for leading the supporting part to drive the guide part of full hall support along the directional removal of construction direction and be used for driving the supporting part along the drive division that the construction direction removed with the guide supporting part, through drive division drive supporting part along construction direction movably setting on the guide part. The utility model discloses a full hall support monolithic moving is with top construction equipment makes the supporting part drive full hall scaffold frame along construction direction directional removal to another position of treating the construction under the combined action of the directional guide of the drive effort of drive division and guide part to in avoiding current framing work progress, need set up the problem of scaffold frame again.

Description

Pushing construction device for overall movement of full framing

Technical Field

The utility model relates to a full hall scaffold construction technical field, in particular to full hall support moving as a whole is with top construction equipment is related to.

Background

The construction of cast-in-place beams is generally adopted in expressway and first-level highway engineering, and for a stable foundation bridge with the height within 24 meters, the construction of full framing is mostly adopted. In order to save the construction cost, a construction method of firstly constructing half width and then constructing the other half width is adopted during construction.

In the prior art, after the construction of a half width, the support is usually required to be detached, a full support is erected again, and then the other half width is cast-in-place, so that a large amount of manpower is required to be consumed when the scaffold is erected again, the construction cost is high, and the time consumption is long, and the construction efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full hall support is whole to be moved with top and pushes away construction equipment to in solving current cast-in-place roof beam framing work progress, need set up the scaffold frame again, lead to the technical problem that construction cost is big, the efficiency of construction is low.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a full hall support monolithic moving is with pushing away construction equipment, includes the supporting part that is used for carrying out the support to full hall support from the bottom of full hall support when full hall support removes, is used for leading the supporting part to drive the guide part that full hall support moved along the construction direction orientation and be used for driving the supporting part along the drive division that the construction direction removed with the guide supporting part, sets up movably along the construction direction on the guide part through drive division drive supporting part.

Furthermore, the number of the guide parts is multiple, two adjacent guide parts are arranged in parallel on a horizontal plane, and the support parts and the guide parts are arranged in a one-to-one correspondence mode to support the full-framing from multiple positions at the bottom of the full-framing and keep the balance of the full-framing.

Furthermore, the guide part is concavely provided with a guide groove extending in the construction direction, the supporting part is movably arranged on the guide part along the construction direction through the guide groove, or a slide rail extending in the construction direction is convexly arranged on the guide part, and the supporting part is movably arranged on the guide part along the construction direction through the slide rail.

Further, the guide part is still including locating the gyro wheel in the guide way, the supporting part is located in the guide part through the guide way, the upper surface protrusion of supporting part is laid in the guide part, the lower surface of supporting part passes through gyro wheel sliding connection with the tank bottom surface of guide way, or, the tank bottom surface of the guide way of guide part is equipped with the lubricant film, the supporting part is located in the guide part through the guide way, the upper surface protrusion of supporting part is laid in the guide part, the lower surface of supporting part passes through the lubricant film and the tank bottom surface sliding connection of guide way.

Furthermore, the supporting part is a 20-channel steel with an upward opening, and the guiding part is a 25-channel steel with an upward opening.

Further, full hall support is top pushing construction equipment for moving as a whole still includes the drive power that is used for the drive end of direct receipt drive division of locating full hall support side direction ascending and evenly transmits the bearing roof beam on full hall support with received drive power and fixed locate full hall support outside be used for with the first reaction frame that the stiff end of drive division is connected.

Further, the driving part is a pushing oil cylinder, the fixed end of the pushing oil cylinder is connected with the first reaction frame, the telescopic end of the pushing oil cylinder is connected with the bearing beam, so that the bearing beam is pushed to move by the telescopic end of the pushing oil cylinder when the pushing oil cylinder works to drive the full framing to move along the construction direction, or the driving part is a winch, the fixed end of the winch is fixedly arranged on the first reaction frame, and the contraction end of the winch is used for being connected with the bearing beam to pull the bearing beam to move when the winch works to drive the full framing to move along the construction direction.

Furthermore, the fixed end of the pushing oil cylinder is hinged with the first reaction frame, and the telescopic end of the pushing oil cylinder is hinged with the bearing beam.

Furthermore, the number of the pushing oil cylinders is multiple, the pushing oil cylinders and the supporting parts are arranged in a one-to-one correspondence mode, and the multiple pushing oil cylinders are controlled by one oil pump and are respectively connected with the bearing beam, so that all the pushing oil cylinders are controlled by the oil pump to move synchronously, the bearing beam is synchronously pushed to move, and the full framing is driven to move stably.

Further, the first reaction frame further comprises at least one stroke cushion block, after the first pushing stroke is completed through the pushing oil cylinder, the stroke cushion block is arranged between the first reaction frame and the pushing oil cylinder in a cushioning mode, so that the pushing oil cylinder can complete the second pushing stroke, and the full-space support is pushed to the target position in a mode of sequentially increasing the stroke cushion blocks.

The utility model discloses following beneficial effect has:

the utility model discloses a full hall support moving in entirety is with top construction equipment that pushes away, including supporting part, guide part and drive division. After the construction of single width cast-in-place finishes, all top on full hall support upper portion hold in the palm and demolish, the supporting part supports full hall support and makes full hall support keep balance from a plurality of positions department of the bottom of full hall support, the supporting part sets up along construction direction movably on the guide part, make the supporting part drive full hall scaffold frame along the directional removal of construction direction to another position of treating the construction under the combined action of the drive effort of drive division and the directional guide of guide part, thereby avoid in the current framing work progress, need set up the problem of scaffold frame again. The utility model discloses a full hall support moving as a whole is with pushing away construction equipment at the moving as a whole in-process that promotes full hall support, makes the movement track of full hall support keep unanimous with the direction of construction when having guaranteed the steady motion of full hall support, is favorable to full hall support to remove to another position of treating the construction fast, accurately, and then has improved the efficiency of construction.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural view of a pushing construction device for overall movement of a full framing in a preferred embodiment of the present invention;

fig. 2 is a plan view of the full framing of the preferred embodiment of the present invention, which is used for the whole movement of the pushing construction device.

Illustration of the drawings:

100. the full framing is moved integrally by using a pushing construction device; 10. a support portion; 20. a guide portion; 30. a drive section; 40. a bearing beam; 50. a first reaction frame; 60. a second reaction frame.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered below.

Fig. 1 is a schematic structural view of a pushing construction device for overall movement of a full framing in a preferred embodiment of the present invention; fig. 2 is a plan view of the full framing of the preferred embodiment of the present invention, which is used for the whole movement of the pushing construction device. Wherein the arrows indicate the direction of construction.

As shown in fig. 1 and 2, the pushing construction device 100 for moving the full support as a whole according to the present embodiment includes a support portion 10 for supporting the full support from the bottom of the full support when the full support moves, a guide portion 20 for guiding the support portion 10 to guide the support portion 10 to drive the full support to move directionally along the construction direction, and a driving portion 30 for driving the support portion 10 to move along the construction direction, wherein the driving portion 30 drives the support portion 10 to be movably disposed on the guide portion 20 along the construction direction.

The utility model discloses a full hall support moving as a whole is with pushing away construction equipment 100, including supporting part 10, guide part 20 and drive division 30. After the construction of single width cast-in-place finishes, all top on full hall support upper portion hold in the palm and demolish, supporting part 10 supports full hall support and makes full hall support keep balance from a plurality of positions department of the bottom of full hall support, supporting part 10 sets up along construction direction movably on guide part 20, make supporting part 10 drive full hall scaffold frame along construction direction directional movement to another position of treating the construction under the combined action of the drive effort of drive part 30 and the directional guide of guide part 20, thereby avoid in the current framing work progress, need set up the problem of scaffold frame again. The utility model discloses a full hall support moving as a whole is with pushing away construction equipment at the moving as a whole in-process that promotes full hall support, makes the movement track of full hall support keep unanimous with the direction of construction when having guaranteed the steady motion of full hall support, is favorable to full hall support to remove to another position of treating the construction fast, accurately, and then has improved the efficiency of construction.

It can be understood that, the guide portion 20 cooperates with the support portion 10 to guide the support portion 10, the support portion 10 cooperates with the guide portion 20 through the sleeving of the large and small grooves, the guide portion 20 may also be concavely provided with a sliding groove, the support portion 10 is provided in the sliding groove or one side of the support portion 10 facing the guide portion 20 is convexly provided with a sliding rail or a pulley cooperating with the sliding groove, the guide portion 20 may also be convexly provided with a sliding bar, and one side of the support portion 10 facing the guide portion 20 is provided with a rail. Optionally, the supporting portion 10 is disposed in the guiding portion 20 and has a transverse gap with two sidewalls of the guiding portion 20, so as to keep the supporting portion 10 movable relative to the guiding portion 20 and prevent the supporting portion 10 from deviating greatly when moving.

Further, a guide groove extending in the construction direction is concavely provided on the guide portion 20, and the support portion 10 is movably provided on the guide portion 20 along the construction direction through the guide groove, or a slide rail extending in the construction direction is convexly provided on the guide portion 20, and the support portion 10 is movably provided on the guide portion 20 along the construction direction through the slide rail. By arranging the supporting parts 10 and the guide parts 20 in a one-to-one correspondence manner, after the plurality of guide parts 20 are laid, the supporting parts 10 are installed at corresponding positions, so that the convenience of assembling the pushing construction device 100 for the whole movement of the full-framing when the full-framing is moved is improved, and the supporting parts 10 are prevented from deviating in the moving process.

Further, in order to reduce the friction force between the supporting portion 10 and the guiding portion 20, the guiding portion 20 further includes a roller disposed in the guiding groove, the supporting portion 10 is disposed in the guiding portion 20 through the guiding groove, the upper surface of the supporting portion 10 protrudes out of the guiding portion 20 and is disposed, the lower surface of the supporting portion 10 is slidably connected to the groove bottom surface of the guiding groove through the roller, or a lubricating layer is disposed on the groove bottom surface of the guiding groove of the guiding portion 20, the supporting portion 10 is disposed in the guiding portion 20 through the guiding groove, the upper surface of the supporting portion 10 protrudes out of the guiding portion 20 and is disposed, and the lower surface of the supporting portion 10 is slidably connected to the groove bottom surface of the guiding groove through the. Optionally, the number of the rollers is multiple, and the rollers are arranged at intervals along the construction direction. Optionally, the lubricating layer is a layer of yellow oil.

Furthermore, in order to obtain materials, 20 # channel steel and 25 # channel steel on a construction site can be directly used. The support portion 10 is a 20-gauge channel steel with an upward opening, and the guide portion 20 is a 25-gauge channel steel with an upward opening.

Further, the pushing construction device for the whole movement of the full framing further comprises a bearing beam 40 which is arranged on the lateral side of the full framing and used for directly receiving the driving force of the driving end of the driving part 30 and uniformly transmitting the received driving force to the full framing, and a first reaction frame 50 which is fixedly arranged outside the full framing and used for being connected with the fixed end of the driving part. Optionally, the pushing construction device for the whole movement of the full framing further comprises a force bearing beam 40 arranged on the lateral side of the full framing and used for directly receiving the driving force of the driving end of the driving part 30 and uniformly transmitting the received driving force to the full framing, and a first reaction frame 50 arranged opposite to the force bearing beam 40 and used for positioning the fixed end of the driving part 30 on the guide part 20 outside the full framing to form a reverse support of the driving part 30. Specifically, the carrier beam 40 is laid in a direction perpendicular to the support portion 10 on a horizontal plane. It will be appreciated that the first reaction frame 50 may be a rectangular frame or a triangular frame, the first reaction frame 50 being anchored to the outside of the hall frame. Optionally, the carrier beam 40 is formed by double splicing two No. 40I-steel beams. The bearing beam 40 is arranged to transfer force to enable the whole full framing scaffold to bear force, so that the problem that the full framing scaffold is inclined or deformed due to single stress is solved.

Preferably, the pushing construction device 100 for the full framing integral movement further comprises a second reaction frame 60. The bearing beam 40 is fixed at the bottom of the full framing scaffold through the second reaction frame 60, and a plurality of second reaction frames 60 are arranged at intervals on the horizontal plane along the direction vertical to the construction direction.

Further, the driving part 30 is a pushing cylinder, a fixed end of the pushing cylinder is connected with the first reaction frame 50, and a telescopic end of the pushing cylinder is connected with the bearing beam 40, so that the bearing beam 40 is pushed to move by the telescopic end of the pushing cylinder when the pushing cylinder works, and then the full framing is driven to move along the construction direction, or the driving part 30 is a winch, a fixed end of the winch is fixedly arranged on the first reaction frame 50, and a contraction end of the winch is used for being connected with the bearing beam 40, so that the bearing beam 40 is pulled to move when the winch works, and then the full framing is driven to move along the construction direction.

Further, the fixed end of the pushing cylinder is detachably connected with the first reaction frame 50, and the telescopic end of the pushing cylinder is detachably connected with the bearing beam 40. Optionally, the fixed end of the jacking cylinder is hinged to the first reaction frame 50, and the telescopic end of the jacking cylinder is hinged to the force-bearing beam 40, so that the two ends of the jacking cylinder can adaptively adjust the direction of the acting force.

Furthermore, the number of the pushing cylinders is multiple, the pushing cylinders and the supporting parts 10 are arranged in a one-to-one correspondence manner, and the multiple pushing cylinders are controlled by an oil pump and are respectively connected with the bearing beam 40, so that all the pushing cylinders are controlled by the oil pump to move synchronously, the bearing beam 40 is synchronously pushed to move, and the full framing is driven to move stably. The bearing beam 40 is synchronously pushed by the plurality of pushing cylinders and the bearing beam 40 pushes the full framing scaffold to move towards the construction direction, so that the damage of the pushing cylinders due to exceeding the load is avoided, and the stability of the full framing scaffold during moving is ensured.

Further, the pushing construction device 100 for the full framing overall movement further includes a bracket disposed in the guide groove for supporting the pushing cylinder so as to keep the pushing cylinder horizontal, and the bracket is disposed between the support portion 10 and the first reaction frame 50.

Optionally, the first reaction frame 50 further includes at least one stroke cushion block, and after the first pushing stroke is completed by the pushing cylinder, the stroke cushion block is arranged between the first reaction frame 50 and the pushing cylinder so that the pushing cylinder completes the second pushing stroke, and the full support is pushed to the target position by sequentially increasing the stroke cushion blocks. Specifically, the pushing construction device 100 for the overall movement of the full framing support further includes a stroke cushion block for being cushioned between the first reaction frame 50 and the pushing cylinder, a first end of the stroke cushion block is used for being connected with a fixed end of the pushing cylinder, and a second end of the stroke cushion block is used for being abutted against the first reaction frame 50, so that after one pushing cylinder completes one pushing formation, the stroke cushion block is cushioned between the first reaction frame 50 and the pushing cylinder, and the pushing cylinder performs a pushing action of a next stroke. When the jacking device is used, after the jacking oil cylinder finishes jacking of one stroke, the jacking oil cylinder is detached and reset, a stroke block is arranged between the jacking oil cylinder and the first reaction frame 50 in a cushioning mode, then the fixed end of the jacking oil cylinder is arranged on the stroke block, and the telescopic end of the jacking oil cylinder is arranged on the supporting beam to carry out jacking of the next stroke until the jacking oil cylinder is jacked to another position to be constructed.

The utility model discloses a full hall support moving as a whole is with pushing away construction equipment 100's theory of operation as follows: firstly laying a guide part 20 on the ground along the construction direction, fixing the guide part 20 on the ground, laying a support part 10 on the inner side of the guide part 20, movably arranging the support part 10 in a guide groove along the construction direction, connecting the fixed end of a pushing oil cylinder with a first reaction frame 50 fixedly arranged on the outer side of the full framing scaffold, connecting the telescopic end of the pushing oil cylinder with a bearing beam 40, pushing the bearing beam 40 through the pushing oil cylinder, and allowing the full framing to synchronously slide along with the support part 10 until the full framing moves to another position to be constructed. The specific operation is as follows: and after the construction of the single cast-in-place beam is finished, knocking down the full-space support jacking to ensure that the beam bottom formwork and the square timber on the upper part of the full-space support are completely separated from the concrete surface. The suspension is shifted up along one row of collet of construction direction and messenger's collet in the adjustment, with a guide part 20 along the downside of one row of collet of construction direction anchor at the suspension, then locate a guide part 20 that will correspond in supporting part 10, then screw the collet and make collet and supporting part 10 top support, operate multirow collet in proper order and then install many guide parts 20 and supporting part 10, form the multirow support to full hall scaffold and then keep the balance of full hall scaffold. And selecting a jacking and pushing oil cylinder and an oil pump according to the weight and the pushing length of the full support for pushing, and correspondingly installing the jacking and pushing oil cylinder and the oil pump, wherein in the pushing process, because the formation of the jacking and pushing oil cylinder is limited, after one-time pushing is not performed, a stroke cushion block is arranged between the jacking and pushing oil cylinder and the first reaction frame 50 in a filling mode until the full support is pushed to another position to be constructed. And finally, screwing up the bottom support, and sequentially taking out the row of the supporting parts 10 and the guide parts 20 to finish the integral movement of the full framing scaffold.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A pushing construction device for the integral movement of a full framing, which is characterized in that,

comprises a supporting part (10) used for supporting the full framing from the bottom of the full framing when the full framing moves, a guiding part (20) used for guiding the supporting part (10) to guide the supporting part (10) to drive the full framing to directionally move along the construction direction, and a driving part (30) used for driving the supporting part (10) to move along the construction direction,

the support part (10) is driven by the driving part (30) to be movably arranged on the guide part (20) along the construction direction.

2. The pushing construction device for the whole movement of the full framing in claim 1,

the number of the guide parts (20) is multiple, two adjacent guide parts (20) are arranged in parallel on a horizontal plane,

the supporting parts (10) and the guide parts (20) are arranged in a one-to-one correspondence manner to support the full support from a plurality of positions at the bottom of the full support and keep the full support balanced.

3. The pushing construction device for the whole movement of the full framing in claim 2, wherein,

the guide part (20) is concavely provided with a guide groove extending in the construction direction, the support part (10) is movably arranged on the guide part (20) along the construction direction through the guide groove, or,

the supporting part (10) passes through the slide rail is movably located along the construction direction on the guide part (20).

4. The pushing construction device for the whole movement of the full framing in claim 3, wherein,

the guide part (20) further comprises a roller arranged in the guide groove, the supporting part (10) is arranged in the guide part (20) through the guide groove, the upper surface of the supporting part (10) protrudes out of the guide part (20) to be arranged, the lower surface of the supporting part (10) is connected with the groove bottom surface of the guide groove in a sliding mode through the roller, or,

guide part (20) the tank bottom surface of guide way is equipped with the lubricant film, supporting part (10) pass through the guide way is located in guide part (20), the upper surface protrusion of supporting part (10) in guide part (20) are laid, the lower surface of supporting part (10) passes through the lubricant film with the tank bottom surface sliding connection of guide way.

5. The pushing construction device for the full framing whole body movement of claim 4,

the supporting part (10) is a 20-number channel steel with an upward opening, and the guiding part (20) is a 25-number channel steel with an upward opening.

6. The pushing construction device for the whole movement of the full framing in claim 2, wherein,

the pushing construction device for the whole movement of the full framing further comprises a bearing beam (40) which is arranged on the lateral side of the full framing and used for directly receiving the driving force of the driving end of the driving part (30) and uniformly transmitting the received driving force to the full framing, and a first reaction frame (50) which is fixedly arranged outside the full framing and used for being connected with the fixed end of the driving part.

7. The pushing construction device for the full framing whole body movement of claim 6,

the driving part (30) is a pushing oil cylinder, the fixed end of the pushing oil cylinder is connected with the first reaction frame (50), the telescopic end of the pushing oil cylinder is connected with the bearing beam (40), so that when the pushing oil cylinder works, the telescopic end of the pushing oil cylinder pushes the bearing beam (40) to move so as to drive the full framing to move along the construction direction, or,

the driving part (30) is a winch, the fixed end of the winch is fixedly arranged on the first reaction frame (50), and the contraction end of the winch is used for being connected with the bearing beam (40) so as to pull the bearing beam (40) to move when the winch works and further drive the full hall support to move along the construction direction.

8. The pushing construction device for the full framing whole body movement of claim 7,

the fixed end of the pushing oil cylinder is hinged with the first reaction frame (50), and the telescopic end of the pushing oil cylinder is hinged with the bearing beam (40).

9. The pushing construction device for the full framing integer of claim 8,

the number of the pushing oil cylinders is multiple, the pushing oil cylinders and the supporting parts (10) are correspondingly arranged one by one,

the plurality of pushing oil cylinders are controlled by an oil pump and are respectively connected with the bearing beam (40), so that all the pushing oil cylinders are controlled by the oil pump to synchronously move to synchronously push the bearing beam (40) to move so as to drive the full framing to stably move.

10. The pushing construction device for the full framing integer of claim 8,

the first reaction frame (50) further comprises at least one stroke cushion block, after the first pushing stroke is completed through the pushing oil cylinder, the stroke cushion block is arranged between the first reaction frame (50) and the pushing oil cylinder in a cushioning mode, so that the pushing oil cylinder completes the second pushing stroke, and the stroke cushion blocks are sequentially increased until the full-space support is pushed to the target position.

Images