CN209874549U - Building engineering strutting arrangement - Google Patents

Abstract

The utility model relates to a building engineering supporting device, which comprises a fixed supporting structure and a movable supporting structure reinforced hoop, wherein the fixed supporting structure comprises a supporting sleeve, a base and supporting legs, the supporting sleeve is vertically welded in the center of the upper surface of the base, the base is provided with a base screw hole, and the supporting legs are connected in the screw hole through wires; the movable supporting structure comprises a telescopic bar and a top plate external member, wherein the top of the telescopic bar is provided with a switching disc, and the top plate external member is rotatably connected to the switching disc; the telescopic bar is installed in the support sleeve, and the support sleeve top forms hoop flower portion, strengthens the staple bolt setting in hoop flower portion. This building engineering strutting arrangement through carrying out a series of structural design and transformation to flexible thick stick, support sleeve, staple bolt, base and roof external member, has reinforceed connection position intensity and spacing firm degree, and can adapt to arranging and supporting of various non-horizontal surfaces, is convenient for remove simultaneously and adjusts, is showing reliability, flexibility and the application scope that has improved strutting arrangement in the engineering construction.

Description

Building engineering strutting arrangement

Technical Field

The utility model relates to a building engineering strutting arrangement.

Background

The present support device for construction engineering includes an upper support rod and a lower support tube, and realizes height adjustment by providing through holes on the upper support rod and the lower support tube and matching with tightening bolts. In practical engineering construction, the traditional supporting device has the following defects: (1) the strength of the joint of the upper and lower supporting parts is low, the tightening bolt is not firmly fixed, and the verticality is poor after long-term use; (2) the method is not suitable for the non-planar state of the lower base surface and the supported upper base surface (such as a building template base, an attic inclined roof and the like); (3) the weight of the single body is large, and the movement or the adjustment of the supporting position is inconvenient.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is how to overcome prior art's above-mentioned defect, provides a building engineering strutting arrangement.

In order to solve the technical problem, the supporting device for the constructional engineering comprises a fixed supporting structure and a movable supporting structure which are telescopically and movably sleeved, and a reinforced hoop for fixing the fixed supporting structure and the movable supporting structure, wherein the fixed supporting structure comprises a supporting sleeve, a base and supporting legs, the supporting sleeve is vertically welded in the center of the upper surface of the base, a base screw hole is formed in the base, and the supporting legs are screwed in the screw hole; the movable supporting structure comprises a telescopic bar and a top plate external member, wherein an adapter plate is arranged at the top of the telescopic bar, and the top plate external member is rotatably connected to the adapter plate; the telescopic bar is installed in the support sleeve, a plurality of spacious notches are vertically milled at the top of the support sleeve to form a hoop part, a limiting convex ring is arranged below the hoop part on the outer wall of the support sleeve, and the reinforced hoop is arranged on the hoop part. By the design, when the device is used, the lower base surface is supported by the supporting legs on the base, the supporting legs and the base are connected through a screw thread and can be suitable for leveling the upper part of the base by independently adjusting each supporting leg when the lower base surface is not flat; adjusting the elongation of the telescopic bar until the top plate sleeve contacts the upper supporting surface, and pre-tightening the bolts on the reinforcing hoops; and then, the top plate sleeve is rotated and adjusted to be completely attached to the upper base surface, and then the reinforced hoop is tightened to complete the arrangement of the supporting device.

Preferably, a plurality of reinforcing triangular buckling ribs are arranged on the reinforcing hoop. So design, strengthen the triangle and detain the muscle and be used for consolidating bearing structure in the weak position that movable support structure combined together, carry out the side direction support through upper and lower both sides at the hoop flower department to flexible thick stick and support sleeve, realize strengthening the structure of connecting the position.

As optimization, the two sides of the base are hinged with walking wheel plates, the upper part of the base is rotatably connected with a limiting clamping block, and walking wheels are arranged on the wheel plates. The traveling wheel plate is provided with the traveling wheels, the traveling wheel plate is turned down and fixed by the rotating limiting clamping block, and then the supporting legs are retracted, so that the device can be moved; when the movable support is moved to the required support position, the limiting clamping blocks are rotated to two sides, and the travelling wheels are upwards reversely rotated and retracted, so that positioning support can be implemented.

Preferably, the supporting legs comprise screw rods, connecting bearings arranged below the screw rods and arch-shaped foot seats arranged on the connecting bearings, and hexagonal screw rod caps are arranged above the screw rods. So design, the arch foot stool that has deformability all has better contact adhesion ability under the circumstances that the basal plane is plane or domatic under to the bearing is as middle adaptor, can be under the circumstances of basal plane under the arch foot stool good contact, can carry out local height adjustment to the base under the motionless circumstances of foot stool.

Preferably, the outer wall of the telescopic bar is corrugated, the reinforcing triangular buckle rib is provided with corrugated teeth, and the inner wall of the hoop part is provided with arc-shaped teeth. So design, ripple tooth and arc tooth all are used for the buckle to stretch out and draw back the ripple outer wall of thick stick to strengthen the structural strength of junction.

Preferably, the top plate kit comprises a base plate and an inclination plate, wherein one side of the base plate is hinged with one side of the inclination plate, the base plate is rotatably connected onto the adapter plate, and the base plate is provided with a pair of supporting bolt holes and a pair of supporting bolts. By the design, the upper base surface with any angle and inclination direction can be propped by rotating the base plate and adjusting the propping bolt.

As optimization, all be equipped with the strengthening rib in support sleeve and base junction, flexible thick stick and switching dish junction.

As optimization, level gauges are arranged on the base and the base plate. The device is designed for vertical reference during erection and adjustment.

The utility model relates to a building engineering strutting arrangement through carrying out a series of structural design and transformation to flexible thick stick, support sleeve, staple bolt, base and roof external member, has reinforceed connection position intensity and spacing firm degree, and can adapt to arranging and supporting of various non-horizontal surfaces, is convenient for simultaneously remove and adjust, is showing reliability, flexibility and the application scope that has improved strutting arrangement in the engineering construction.

Drawings

The utility model relates to a building engineering strutting arrangement is further explained below with the accompanying drawing:

FIG. 1 is a schematic plan view of the present support apparatus for construction work;

FIG. 2 is a top perspective view of the present construction support device;

FIG. 3 is an exploded top view of the present construction support device;

FIG. 4 is a bottom perspective view of the present construction support device;

fig. 5 is an exploded view of the support device from the bottom of the building.

In the figure:

1-a fixed supporting structure, 2-a movable supporting structure, 3-a reinforced hoop, 4-a supporting sleeve, 5-a base, 6-a supporting leg, 7-a telescopic bar, 8-a top plate kit, 9-a reinforcing rib and 10-a level meter;

31-reinforcing triangular buckling ribs, 41-wide notches, 42-flower hooping parts, 43-limiting convex rings, 51-base screw holes, 52-wheel moving plates, 53-limiting clamping blocks, 61-screw rods, 62-connecting bearings, 63-arched foot seats, 64-inner hexagonal screw rod caps, 71-adapter plates, 81-base plates and 82-inclined plates;

311-corrugated teeth, 421-arc teeth, 521-traveling wheels, 811-jack screw holes and 812-jack bolts.

Detailed Description

Embodiment 1: as shown in fig. 1 to 5, the supporting device for construction engineering comprises a fixed supporting structure 1 and a movable supporting structure 2 which are telescopically and movably sleeved, and a reinforcing hoop 3 for fixing the fixed supporting structure 1 and the movable supporting structure 2, wherein the fixed supporting structure 1 comprises a supporting sleeve 4, a base 5 and supporting legs 6, the supporting sleeve 4 is vertically welded in the center of the upper surface of the base 5, a base screw hole 51 is formed in the base 5, and the supporting legs 6 are screwed in the screw hole 51; the movable supporting structure 2 comprises a telescopic bar 7 and a top plate suite 8, wherein an adapter plate 71 is arranged at the top of the telescopic bar 7, and the top plate suite 8 is rotatably connected to the adapter plate 71; telescopic bar 7 is installed in the support sleeve 4, support sleeve 4 top forms hoop flower portion 42 through vertically milling out a plurality of spacious volume notches 41, and support sleeve 4 outer wall is equipped with spacing bulge loop 43 in hoop flower portion 42 below, it is in to strengthen staple bolt 3 setting hoop flower portion 42. When the device is used, the lower base surface is supported by the supporting legs on the base, the supporting legs and the base are connected through a screw thread and can be suitable for uneven lower base surface, and the parts above the base can be leveled by independently adjusting each supporting leg; adjusting the elongation of the telescopic bar until the top plate sleeve contacts the upper supporting surface, and pre-tightening the bolts on the reinforcing hoops; and then, the top plate sleeve is rotated and adjusted to be completely attached to the upper base surface, and then the reinforced hoop is tightened to complete the arrangement of the supporting device.

The reinforced hoop 3 is provided with a plurality of reinforced triangular buckling ribs 31. Strengthen triangle and detain the muscle and be used for consolidating bearing structure in the weak position that movable support structure combined together, carry out the side direction support through hoop flower department upper and lower both sides to flexible thick stick and support sleeve, realize strengthening the structure of connecting the position.

Two sides of the base 5 are hinged with walking wheel plates 52, the upper part of the base 5 is rotatably connected with a limiting fixture block 53, and walking wheels 521 are arranged on the wheel plates 52. The travelling wheel plate is provided with travelling wheels, the travelling wheel plate is turned down and fixed by the rotary limiting fixture block, and then the supporting legs are retracted, so that the device can be moved; when the movable support is moved to the required support position, the limiting clamping blocks are rotated to two sides, and the travelling wheels are upwards reversely rotated and retracted, so that positioning support can be implemented.

The supporting legs 6 comprise a screw rod 61, a connecting bearing 62 arranged below the screw rod 61 and an arched foot seat 63 arranged on the connecting bearing 62, and an inner hexagonal screw rod cap 64 is arranged above the screw rod 61. The arch-shaped foot seat with the deformation capability has better contact adhesion capability under the condition that the lower base surface is a plane or a slope, and the bearing is used as a middle adapter, so that the local height adjustment can be performed on the base under the condition that the foot seat is not moved under the condition that the arch-shaped foot seat is in good contact with the lower base surface.

The outer wall of the telescopic bar 7 is corrugated, the reinforcing triangular buckling rib 31 is provided with corrugated teeth 311, and the inner wall of the hoop flower part 42 is provided with arc-shaped teeth 421. The corrugated teeth and the arc-shaped teeth are used for fastening the corrugated outer wall of the telescopic bar, so that the structural strength of the joint is enhanced.

The top plate kit 8 comprises a base plate 81 and an inclination plate 82, wherein one side of the base plate 81 is hinged with one side of the inclination plate, the base plate 81 is rotatably connected to the adapter plate 71, and the base plate 81 is provided with a pair of supporting screw holes 811 and a pair of supporting bolts 812. The upper base surface with any angle and inclination direction can be propped up by rotating the base plate and adjusting the propping bolt.

And reinforcing ribs 9 are arranged at the joint of the support sleeve 4 and the base 5 and the joint of the telescopic bar 7 and the adapter plate 71.

Embodiment 2: as shown in fig. 1, the level 10 is disposed on each of the base 5 and the base plate 81. For vertical reference during erection and adjustment of the device. The remaining structure and components are as described in embodiment 1, but omitted.

This building engineering strutting arrangement has strengthened connection position intensity and spacing firm degree through carrying out a series of structural design and transformation to flexible thick stick, support sleeve, staple bolt, base and roof external member, and can adapt to arranging and supporting of various non-horizontal surfaces, is convenient for remove and adjust simultaneously, is showing reliability, flexibility and the application scope that has improved strutting arrangement in the engineering construction.

The above embodiments are intended to be illustrative of the manner in which the invention may be made and used by persons skilled in the art, and modifications to the above embodiments will be apparent to those skilled in the art, and it is therefore intended that the invention, including but not limited to the above embodiments, be limited to any methods, processes and products consistent with the principles and novel and inventive features disclosed herein, and which are to be interpreted as illustrative and not in a limiting sense.

Claims (8)

1. The utility model provides a building engineering strutting arrangement which characterized by: comprises a fixed supporting structure (1) and a movable supporting structure (2) which are telescopically and movably sleeved, and a reinforced hoop (3) for fixing the fixed supporting structure (1) and the movable supporting structure (2), wherein,

the fixed supporting structure (1) comprises a supporting sleeve (4), a base (5) and supporting legs (6), the supporting sleeve (4) is vertically welded in the center of the upper surface of the base (5), a base screw hole (51) is formed in the base (5), and the supporting legs (6) are connected in the screw hole (51) in a threaded mode;

the movable supporting structure (2) comprises a telescopic bar (7) and a top plate suite (8), an adapter plate (71) is arranged at the top of the telescopic bar (7), and the top plate suite (8) is rotatably connected to the adapter plate (71);

flexible thick stick (7) are installed in support sleeve (4), support sleeve (4) top forms hoop flower portion (42) through vertically milling out a plurality of spacious volume notches (41), and support sleeve (4) outer wall is equipped with spacing bulge loop (43) in hoop flower portion (42) below, reinforcement staple bolt (3) set up hoop flower portion (42).

2. A construction prop according to claim 1, wherein: and a plurality of reinforcing triangular buckling ribs (31) are arranged on the reinforcing hoop (3).

3. A constructional engineering support device as claimed in claim 2 wherein: the walking wheel plate is characterized in that walking wheel plates (52) are hinged to two sides of the base (5), the upper portion of the base (5) is rotatably connected with a limiting clamping block (53), and walking wheels (521) are arranged on the wheel plates (52).

4. A constructional engineering support device as claimed in claim 3 wherein: the supporting legs (6) comprise a screw rod (61), a connecting bearing (62) arranged below the screw rod (61) and an arched foot seat (63) arranged on the connecting bearing (62), and an inner hexagonal screw rod cap (64) is arranged above the screw rod (61).

5. A constructional engineering support device as claimed in claim 4 wherein: the outer wall of the telescopic bar (7) is corrugated, the reinforcing triangular buckle rib (31) is provided with corrugated teeth (311), and the inner wall of the hoop flower part (42) is provided with arc-shaped teeth (421).

6. A constructional engineering support device as claimed in claim 5 wherein: roof external member (8) include one side mutual articulated base plate (81) and inclination board (82), base plate (81) rotatable formula is connected on adaptor dish (71), and it has a pair of jack screw hole (811) to open on base plate (81) to be furnished with a pair of jack bolt (812).

7. A constructional engineering support device as claimed in claim 6 wherein: and reinforcing ribs (9) are arranged at the joint of the support sleeve (4) and the base (5) and the joint of the telescopic bar (7) and the adapter plate (71).

8. A constructional engineering support device as claimed in claim 6 wherein: the base (5) and the base plate (81) are both provided with gradienters (10).