CN219344158U - Adjustable steel pipe supporting structure for sloping roof construction - Google Patents

Abstract

The utility model relates to the technical field of building construction equipment, in particular to an adjustable steel pipe supporting structure for sloping roof construction. The utility model provides an adjustable steel pipe supporting structure for sloping roof construction, which comprises a supporting main body, wherein the supporting main body comprises a supporting rod and a steel pipe fixing part arranged at the top of the supporting rod; the support rod comprises a vertical rod with an installation cavity at the bottom, a spiral insertion rod in the installation cavity of the vertical rod in a spiral connection mode and an adjusting disc for controlling the insertion depth of the spiral insertion rod. The utility model has the advantages of simple operation, firm structure, capability of adjusting the height and adjusting the angle of the steel pipe fixing part in the horizontal direction, and particularly can still adjust the angle in the horizontal direction under the use condition of high fixing.

Description

Adjustable steel pipe supporting structure for sloping roof construction

Technical Field

The utility model relates to the technical field of building construction equipment, in particular to an adjustable steel pipe supporting structure for sloping roof construction.

Background

During construction of a conventional sloping roof, an inclined steel pipe support matched with the angle of the sloping roof is erected through facilities such as an adjustable steel frame, devices such as a template are paved on the inclined steel pipe support, and then construction of the sloping roof is carried out. At the top end of the inclined steel pipe support, a U-shaped open top bracket is typically used to support the steel pipe in the horizontal direction. However, the traditional steel pipe lap joint mode has limitation, when the inclination angle of the erected steel pipe support is large, after templates and other facilities are placed, the steel pipe is not stressed, but a tray for supporting the steel pipe is stressed, so that the steel pipe support structure is unstable, and even the support structure is damaged.

CN201714077U discloses a steel pipe supporting jacking, which has the advantages of simple structure, convenient operation, wide application range, high construction efficiency and the like. Through its special structural design, solved the support requirement of the stupefied form of different template backs, reached the purpose of used repeatedly to can reduce construction cost. However, the steel pipe cannot be locked at a fixed position, and when the steel pipe receives a large lateral force or vibration and the like, the steel pipe is easy to slip. And after the height of the steel pipe is adjusted through the deformed steel bars, the opening direction of the upper opening of the jacking is rotated along with the height of the steel pipe, so that the opening direction of the jacking cannot be controlled to be exactly aligned with the setting direction of the steel pipe to be built, and the steel pipe is built at the moment to cause instability of a steel pipe supporting structure.

CN213143959U discloses an interior wall scaffold jacking and scaffold, is provided with hollow sleeve, and the stand can follow the sleeve and remove and carry out altitude mixture control, and the retaining member can be fixed the stand at height-adjusting, conveniently rises and descends, need not to reassemble, convenient operation. However, the locking device of the height adjusting part is only two or more locking bolts, the height adjusting step is more, difficult and complex, the load bearing capacity of the locking bolts is poor, and when the jacking load is large, the locking bolts are easy to loose, so that the adjustable jacking is caused to slide in the vertical direction. And the structure of its supporting seat is single thin, just is two draw-in grooves that set up on concave groove, lacks fixing device and reinforcing means, and when the side force that receives is great, the supporting seat has the risk of taking place to warp.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides an adjustable steel pipe supporting structure which is firm in structure, adjustable in height, capable of adjusting the supporting direction of a steel pipe in the horizontal direction, stable and relatively simple in structure and suitable for sloping roof construction, and especially capable of adjusting the supporting direction of the steel pipe in the horizontal direction under the condition of fixed height.

The utility model provides an adjustable steel pipe supporting structure for sloping roof construction, which adopts the following technical scheme:

an adjustable steel pipe supporting structure for sloping roof construction comprises a supporting main body, wherein the supporting main body comprises a supporting rod and a steel pipe fixing part arranged at the top of the supporting rod; the bracing piece includes the pole setting that has the installation inner chamber of bottom, screwed connection in screw insert pole and be used for controlling the adjustment disk of the degree of depth of inserting of screw insert pole in the installation inner chamber of pole setting, its characterized in that: the steel pipe fixing part is installed at the top of the supporting rod through a rotatable part and is used for adjusting the direction of the steel pipe fixing part in the horizontal direction.

Through adopting foretell technical scheme, through the inside degree of depth of pole setting that rotatory spiral inserted bar screw in had been fixed to realize confirming the main part length of this structure after, make the opening direction of steel pipe fixed part still can freely adjust, thereby let form specific parallel relation or angle between the steel pipe that this structure supported, and need not adjust the angle of pole setting, spiral inserted bar or other part and adjust the angle of supported steel pipe, promote efficiency, reduce the instability of whole steel pipe support system, make the construction of whole steel pipe support system more convenient and fast.

Optionally, the rotating part comprises a sleeve arranged at the bottom of the steel pipe fixing part and a locking piece, and the top of the spiral inserting rod is detachably locked in the sleeve through the locking piece.

The steel pipe fixing part is sleeved with the spiral inserting rod through the sleeve, and before the locking part is locked, the sleeve and the steel pipe fixing part connected with the sleeve can rotate freely at the top of the spiral inserting rod. And after the direction is determined, the locking piece is locked, and the direction of the rear steel pipe fixing part is determined. Through such setting, can guarantee that this structure can adjust its direction on its steel pipe fixed part's horizontal plane, can conveniently carry out locking and the pine of steel pipe fixed part again to telescopic existence has strengthened the shearing resistance of this structure on the horizontal direction, has increased the intensity of whole steel pipe support system.

Optionally, a groove is formed in the bottom of the steel pipe fixing part, a round steel part is arranged at the top end of the spiral insertion rod, and the round steel part stretches into the groove to be locked.

By inserting the round steel into the groove at the bottom of the steel pipe fixing part, the round steel is closely attached to the groove, the spiral inserting rod and the sleeve, and the stability of the structure is improved. Meanwhile, the structure is tightly attached, so that the strength influence on the structure due to non-integral connection, such as welding or other fixedly connecting modes of the sleeve and the bottom of the steel pipe fixing part, is reduced, the shearing resistance of the structure is further improved, and the strength of the whole steel pipe supporting system is increased.

Optionally, the round steel part is formed by polishing the top end of the spiral insertion rod to be smooth in side surface.

The top end of the spiral insertion rod is polished to form round steel, so that the integration of the round steel and the spiral insertion rod can be ensured, and the spiral insertion rod is prevented from being connected with the external round steel by welding or other connecting modes, so that the strength of the structure is influenced. The side surface of the steel rod is polished to be smooth, so that the contact area of the round steel and the groove can be increased, the joint tightness is improved, the friction loss of the groove and the round steel during relative rotation can be reduced by the smooth outer surface, and the service life of the structure is prolonged.

Optionally, the locking member is a locking bolt, and the screw insertion rod is locked by passing through a screw hole formed in the sleeve.

After the direction of the steel pipe fixing part is determined, the function of keeping the direction of the steel pipe fixing part unchanged can be achieved by screwing the locking bolt. The fastening measure has the advantages that the structure is simpler, the influence on the overall strength of the structure is low, the manufacturing difficulty of the structure is not improved, other functions of the structure are not influenced, and meanwhile, the required functions and effects are achieved.

Optionally, the steel pipe fixing component comprises a steel supporting plate and a clamping steel plate arranged on the top surface of the steel supporting plate; the clamping steel plate comprises an upper clamping steel plate and a lower clamping steel plate, one sides of the upper clamping steel plate and the lower clamping steel plate are connected in a hinged mode, and the opposite sides of the hinge points are locked through fastening bolts.

The inner side surface of the clamping steel plate is matched with the shape of the outer surface of the steel pipe to be clamped, and the steel pipe can be fixed on the steel supporting plate in a fixedly connected combination mode. The hinged connection between the upper clamping steel plate and the lower clamping steel plate reduces the operation difficulty and the possibility of component loss compared with the clamping mode adopting the forms of steel cover plates and the like. When the bearing steel pipe of the steel pipe fixing device is just the joint part of two steel pipes, the steel pipe positioning device with the cross section being cross can be inserted into the joint part of the steel pipes, the clamping steel plates are covered and clamped, and the fastening bolts are screwed down, so that the effect of butt joint of the two steel pipes is achieved.

Optionally, the upper clamping steel plate and the lower clamping steel plate are respectively provided with a fastening support plate on the opposite side edges of the hinging point, and in the locking state, the fastening bolt penetrates through the two fastening support plates and is locked on the steel support plate.

The fastening bolts are fixed on the steel supporting plates, so that the clamping force of the clamping steel plates can be improved, and the lateral movement resistance and torsion resistance of the clamping steel plates can be improved.

Optionally, a positioning nut is arranged at the top end of the fastening bolt.

The positioning nut can control the downward screwing distance of the bolt, simplify the operation steps in assembly and provide a downward pressing force, thereby further improving the clamping force of the clamping steel plate and preventing the fixed steel pipe from loosening or slipping.

Optionally, the fastening support piece on the lower clamping steel plate is fixedly connected with the steel support plate.

The fastening support piece fixedly connected with the steel support plate improves the integrity of the structure, the clamping steel plate and the steel support plate are fixed into a whole, the stability of the steel pipe fixing part is improved, the sharp edges which are independently protruded in the structure can be reduced, and the safety degree in the installation operation is improved.

Optionally, a steel plate stiffening rib is arranged between the lower clamping steel plate and the steel supporting plate.

The steel plate stiffening rib can provide lateral supporting force, so that the possibility of deformation or distortion and loosening of the structure is reduced when the structure is subjected to loads in horizontal and vertical directions in the inclined roof supporting system.

By implementing the technical scheme, the utility model has the following beneficial effects:

the steel pipe fixing device is simple to operate, firm in structure, capable of adjusting the height, and capable of adjusting the angle of the steel pipe fixing part in the horizontal direction, and especially capable of adjusting the angle in the horizontal direction under the use condition of high fixing.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of an adjustable steel pipe support structure according to one embodiment of the present utility model; in the figure, a 100-support bar; 200-steel tube fixing parts; 300-rotating the component; 110-vertical rods; 120-screw insertion rod; 130-a conditioning disk; 210-steel pallet; 220-clamping a steel plate; 221-upper clamping steel plate; 222-lower clamping steel plate; 230-fastening bolts; 231-positioning nuts; 240-stiffeners; 310-sleeve; 320-locking member

Fig. 2 is a detailed view of the rotating parts of the adjustable steel pipe support structure according to one embodiment of the present utility model. 330-round steel section in the figure; 340-groove; 223-fastening tabs.

Detailed Description

The utility model is described in further detail below with reference to the drawings and to specific embodiments.

It should be noted that the following embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; those of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Example 1

The embodiment provides an adjustable steel pipe supporting structure for sloping roof construction, which comprises the following specific structures:

as shown in the drawings, an adjustable steel pipe support structure for sloping roof construction includes a support bar 100 and a steel pipe fixing part 200 provided at the top of the support bar 100; the support bar 100 includes a vertical rod 110 having a mounting inner cavity at the bottom, a screw insertion rod 120 screw-coupled to the mounting inner cavity of the vertical rod 110, and an adjustment plate 130 for controlling the insertion depth of the screw insertion rod 120.

As shown in the drawings, the steel pipe fixing member 200 is mounted to the top of the support bar 100 through the rotatable member 300, and the rotatable member 300 includes a sleeve 310 provided at the bottom of the steel pipe fixing member 200 and a locking member 320, and the top of the screw insertion rod 120 is detachably locked in the sleeve 310 through the locking member 320. The sleeve 310 may be welded to the bottom of the steel pipe fixing member 200 or may be riveted or otherwise connected. In this embodiment, the sleeve 310 is welded to the bottom of the steel pipe fixing member 200.

The locking member 320 is a locking bolt that locks the screw insertion rod 120 by passing through a screw hole 321 provided in the sleeve 310.

As shown in the drawing, the steel pipe fixing part 200 includes a steel pallet 210, and a clamp steel plate 220 provided on the top surface of the steel pallet 210, the clamp steel plate 220 including an upper clamp steel plate 221 and a lower clamp steel plate 222, the upper clamp steel plate 221 and the lower clamp steel plate 222 being provided with a fastening bracket 223 on opposite side edges of a hinge point, respectively, and in a fastened state, a fastening bolt 230 passing through the two fastening brackets 223 and being fastened to the steel pallet 210. One side between the upper clamping steel plate 221 and the lower clamping steel plate 222 is connected in a hinge manner, and the opposite side to the hinge is locked by the fastening bolt 230. The top end of the fastening bolt 230 is provided with a set nut 231. The lower clamping steel plate 222 and the fastening support piece 223 on the lower clamping steel plate 222 are fixedly connected with the steel supporting plate 210. A steel plate stiffener 240 is provided between the lower clamp steel plate 222 and the steel pallet 210.

Example 2

The embodiment provides an adjustable steel pipe supporting structure for sloping roof construction, which comprises the following specific structures:

as shown in the drawings, an adjustable steel pipe support structure for sloping roof construction includes a support bar 100 and a steel pipe fixing part 200 provided at the top of the support bar 100; the support bar 100 includes a vertical rod 110 having a mounting inner cavity at the bottom, a screw insertion rod 120 screw-coupled to the mounting inner cavity of the vertical rod 110, and an adjustment plate 130 for controlling the insertion depth of the screw insertion rod 120.

As shown in the drawings, the steel pipe fixing member 200 is mounted to the top of the support bar 100 through a rotatable member 300, and the rotatable member 300 includes a sleeve 310 and a locking piece 320 provided at the bottom of the steel pipe fixing member 200. The sleeve 310 may be welded to the bottom of the steel pipe fixing member 200 or may be riveted or otherwise connected. In this embodiment, the sleeve 310 is welded to the bottom of the steel pipe fixing member 200. A groove 340 is provided on the bottom of the steel pipe fixing member 200, a round steel part 330 is provided on the top end of the screw insertion rod 120, the round steel part 330 is extended into the groove 340, and the round steel part 330 is formed by polishing the top end of the screw insertion rod 120 to a smooth side.

The height of the round steel part 330 is the same as the depth of the groove 340, the cross-sectional diameter of the round steel part 330 is the same as the inner diameter of the groove 340, the cross-sectional diameter of the screw insertion rod 120 is the same as the inner diameter of the sleeve 310, and the cross-sectional diameter of the round steel part 330 is not greater than the cross-sectional diameter of the screw insertion rod 120. The screw insertion rod 120 is detachably locked in the sleeve 310 by the locking member 320, and the round steel part 330 is detachably locked in the groove 340 by the locking member 320.

The locking member 320 may be a locking bolt, or may be an elastic washer or other locking member, and in this embodiment, the locking member 320 is a locking bolt, and locks the screw insertion rod 120 by passing through a screw hole 321 provided in the sleeve 310.

As shown in the drawings, the steel pipe fixing part 200 includes a steel pallet 210, and a clamp steel plate 220 provided on the top surface of the steel pallet 210, the clamp steel plate 220 including an upper clamp steel plate 221 and a lower clamp steel plate 222, the upper clamp steel plate 221 and the lower clamp steel plate 222 being provided with a fastening tab 223 on opposite side edges of a hinge point, respectively, and in a fastened state, a fastening bolt 230 passing through the two fastening tabs 223 and being fastened to the steel pallet 210. One side between the upper clamping steel plate 221 and the lower clamping steel plate 222 is connected in a hinge manner, and the opposite side to the hinge point is locked by the fastening bolt 230. The top end of the fastening bolt 230 is provided with a set nut 231. The lower clamping steel plate 222 and the fastening support piece 223 on the lower clamping steel plate 222 are fixedly connected with the steel supporting plate 210. A steel plate stiffener 240 is provided between the lower clamp steel plate 222 and the steel pallet 210.

Example 3

The embodiment provides an adjustable steel pipe supporting structure for sloping roof construction, which comprises the following specific structures:

as shown in the drawings, an adjustable steel pipe support structure for sloping roof construction includes a support bar 100 and a steel pipe fixing part 200 provided at the top of the support bar 100; the support bar 100 includes a vertical rod 110 having a mounting inner cavity at the bottom, a screw insertion rod 120 screw-coupled to the mounting inner cavity of the vertical rod 110, and an adjustment plate 130 for controlling the insertion depth of the screw insertion rod 120.

As shown in the drawings, the steel pipe fixing member 200 is mounted to the top of the support bar 100 through a rotatable member 300, and the rotatable member 300 includes a sleeve 310 and a locking piece 320 provided at the bottom of the steel pipe fixing member 200. The sleeve 310 may be welded to the bottom of the steel pipe fixing member 200 or may be riveted or otherwise connected. In this embodiment, the sleeve 310 is connected to the bottom of the steel pipe fixing member 200 by caulking. A groove 340 is provided at the bottom of the steel pipe fixing member 200, a round steel part 330 is provided at the top end of the screw insertion rod 120, the round steel part 330 is inserted into the groove 340, and the round steel part 330 is formed by welding a piece of processed round steel having a smooth outer side surface to the top end of the screw insertion rod 120.

The height of the round steel part 330 is the same as the depth of the groove 340, the cross-sectional diameter of the round steel part 330 is the same as the inner diameter of the groove 340, the cross-sectional diameter of the screw insertion rod 120 is slightly smaller than the inner diameter of the sleeve 310, and the difference value of the inner diameter is not more than 2mm, and in this embodiment, is preferably 1mm. The cross-sectional diameter of the round steel portion 330 is not greater than the cross-sectional diameter of the screw insertion rod 120. The screw insertion rod 120 is detachably locked in the sleeve 310 by the locking member 320, and the round steel part 330 is detachably locked in the groove 340 by the locking member 320.

The locking member 320 is a locking bolt that locks the screw insertion rod 120 by passing through a screw hole 321 provided in the sleeve 310.

As shown in the drawings, the steel pipe fixing part 200 includes a steel pallet 210, and a clamp steel plate 220 provided on the top surface of the steel pallet 210, the clamp steel plate 220 including an upper clamp steel plate 221 and a lower clamp steel plate 222, the upper clamp steel plate 221 and the lower clamp steel plate 222 being provided with a fastening tab 223 on opposite side edges of a hinge point, respectively, and in a fastened state, a fastening bolt 230 passing through the two fastening tabs 223 and being fastened to the steel pallet 210. One side between the upper clamping steel plate 221 and the lower clamping steel plate 222 is connected in a hinge manner, and the opposite side to the hinge point is locked by the fastening bolt 230. The top end of the fastening bolt 230 is provided with a set nut 231. The lower clamping steel plate 222 and the fastening support piece 223 on the lower clamping steel plate 222 are fixedly connected with the steel supporting plate 210. A steel plate stiffener 240 is provided between the lower clamp steel plate 222 and the steel pallet 210.

The applicant declares that the above is only a specific embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and it should be apparent to those skilled in the art that any changes or substitutions that are easily conceivable within the technical scope of the present utility model disclosed by the present utility model fall within the scope of the present utility model and the disclosure.

Claims (10)

1. An adjustable steel pipe supporting structure for sloping roof construction comprises a supporting main body, wherein the supporting main body comprises a supporting rod (100) and a steel pipe fixing component (200) arranged at the top of the supporting rod (100); the support rod (100) comprises a vertical rod (110) with an installation cavity at the bottom, a spiral insertion rod (120) in the installation cavity of the vertical rod (110) in a spiral connection mode, and an adjusting disc (130) for controlling the insertion depth of the spiral insertion rod (120), and is characterized in that: the steel pipe fixing member (200) is mounted on the top of the support bar (100) through a rotatable member (300) for adjusting the direction of the steel pipe fixing member (200) in the horizontal direction.

2. An adjustable steel pipe support structure for sloping roof construction according to claim 1, characterized in that the rotating member (300) comprises a sleeve (310) provided at the bottom of the steel pipe fixing member (200) and a locking member (320), and the top of the screw insertion rod (120) is detachably locked in the sleeve (310) by the locking member (320).

3. An adjustable steel pipe support structure for sloping roof construction according to claim 2, characterized in that a groove (340) is provided on the bottom of the steel pipe fixing member (200), a round steel part (330) is provided on the top end of the screw insertion rod (120), and the round steel part (330) extends into the groove (340) for locking.

4. An adjustable steel pipe support structure for sloping roof construction as claimed in claim 3, characterized in that the round steel part (330) is formed by grinding the top end of the screw insertion rod (120) to a side surface smooth.

5. An adjustable steel pipe support structure for sloping roof construction as claimed in claim 2, characterized in that the locking member (320) is a locking bolt for locking the screw insertion rod (120) by passing through a screw hole provided in the sleeve (310).

6. An adjustable steel pipe support structure for sloping roof construction as claimed in claim 1, characterized in that the steel pipe fixing member (200) comprises a steel pallet (210), a clamp steel plate (220) provided on the top surface of the steel pallet (210); the clamping steel plate comprises an upper clamping steel plate (221) and a lower clamping steel plate (222), one side of the upper clamping steel plate (221) is connected with one side of the lower clamping steel plate (222) in a hinged mode, and the opposite side of the hinge point is locked through a fastening bolt (230).

7. An adjustable steel pipe support structure for sloping roof construction according to claim 6, characterized in that the upper clamping steel plate (221) and the lower clamping steel plate (222) are each provided with a fastening bracket (223) on opposite side edges of the hinge point, and in the fastened state, the fastening bolt (230) passes through both fastening brackets (223) and is fastened to the steel pallet (210).

8. An adjustable steel pipe support structure for sloping roof construction as claimed in claim 6, characterized in that the top end of the fastening bolt (230) is provided with a positioning nut (231).

9. An adjustable steel pipe support structure for sloping roof construction as claimed in claim 6, characterized in that the fastening lugs (223) on the lower clamping steel plates (222) are fixedly connected with the steel pallet (210).

10. An adjustable steel pipe support structure for pitched roof construction according to claim 6, characterized in that a steel plate stiffener (240) is provided between the lower clamping steel plate (222) and the steel pallet (210).

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