CN217019275U - Automatic buckling device for steel skeleton pipe fitting - Google Patents

Abstract

The utility model relates to an automatic buckling device for steel skeleton pipe fittings, which comprises a steel skeleton and an installation buckle, wherein a plurality of holes matched with the installation buckle are formed in the steel skeleton, the automatic buckling device also comprises a transmission belt for transporting the installation buckle, two installation grooves for placing the installation buckle are formed in the transmission belt, an installation component for installing the steel skeleton is arranged on the left side of the transmission belt, and a buckling component for driving the installation buckle on the transmission belt into the holes of the steel skeleton is arranged above the transmission belt and the installation component.

Description

Automatic buckling device for steel skeleton pipe fitting

Technical Field

The utility model relates to the technical field of steel skeleton fastening, in particular to an automatic fastening device for steel skeleton pipe fittings.

Background

Have two rings of holes to squeeze into the installation on the steel skeleton pipe fitting and detain, the current mode of squeezing into is all through artifical one hand take the hammer, take the installation to detain on the other hand, through the hammer will install squeeze into the hole of detaining one in, this method not only need beat safety button on one side, must rotate the steel skeleton pipe fitting after having beaten, squeeze into safety button again, long-time work can make operating personnel's eye flower beat the hand of oneself, not only has wasted a large amount of manpowers, and has wasted a large amount of time.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention provides an automatic fastening device for a steel frame pipe, which fastens a hole on a steel frame.

The embodiment of the utility model is realized by adopting the following scheme: the utility model provides an automatic spiral-lock is put up to steel skeleton pipe fitting, detain including steel skeleton and installation, seted up on the steel skeleton a plurality of with the installation is detained matched with hole, still including being used for the transportation the transmission band that the installation was detained, set up two on the transmission band and be used for placing the installation is detained the mounting groove of usefulness, the left side of transmission band is provided with and is used for the installation component of steel skeleton, the transmission band with the top of installation component is provided with install on the transmission band and detain and squeeze into detain the subassembly on the steel skeleton hole.

In one embodiment of the utility model, the mounting component comprises a first motor, the first motor is arranged at the front end of the workbench, a rotating sleeve is arranged on the output end of the rear part of the first motor, a bidirectional screw is arranged in the rotating sleeve through a bearing, the head part of the bidirectional screw is arranged at the front end in the rotating sleeve through a bearing, the tail part of the bidirectional screw penetrates out of the rear end of the rotating sleeve through the bearing, a rotating disc is arranged at the tail part of the bidirectional screw, first lantern rings are symmetrically arranged at the front and rear ends of the bidirectional screw, a plurality of fixing blocks are annularly arranged on the two first lantern rings, a plurality of sliding openings matched with the fixing blocks are annularly arranged at the front and rear ends of the outer wall of the rotating sleeve, the fixing blocks penetrate out of the matched sliding openings, and the front and rear adjacent fixing blocks are connected through a supporting component, the rotating sleeve is provided with two limiting discs, the two limiting discs are located between the two first sleeves, the supporting component is provided with a limiting rod, and the tail end of the limiting rod extends to the two limiting discs.

In one embodiment of the utility model, the support component comprises a support rod for fixing the steel skeleton, two first hinged blocks and two second hinged blocks, one end of each of the two first hinged blocks is hinged to two sides of the fixed block at the front end, the other end of each of the first hinged blocks is hinged to the front end of the support rod, one end of each of the two second hinged blocks is hinged to two sides of the fixed block at the rear end, and the other end of each of the two second hinged blocks is hinged to the rear end of the support rod; the limiting rod is arranged in the middle of the supporting rod.

In an embodiment of the utility model, a lifting platform for placing the steel framework is arranged below the limiting disc, an arc-shaped groove matched with the steel framework is formed in the lifting platform, two first telescopic cylinders are arranged at the bottom of the lifting platform, and the two first telescopic cylinders are both arranged on the ground.

In an embodiment of the utility model, two slide rails are arranged above the conveyor belt and the mounting assembly, a mobile station is arranged between the slide rails, a mounting cavity is formed in the mobile station, a motor with double output shafts is arranged in the mounting cavity, transmission shafts are arranged at the front and rear output ends of the motor with the double output shafts, the two transmission shafts penetrate out of the mobile station, gears are arranged on the two transmission shafts, and racks meshed with the gears are arranged on the slide rails; the upper buckle component comprises two air suction pipes, the two air suction pipes are arranged at the left end of the bottom of the mobile platform, an air pump connected with the two air suction pipes is arranged on the mobile platform, a suction disc is arranged at the bottom of each air suction pipe, an electric telescopic cylinder is arranged in each air suction pipe, and a pressing plate is arranged on a push rod at the bottom of the electric telescopic cylinder.

The utility model has the beneficial effects that: the utility model provides an automatic buckling device for a steel skeleton pipe fitting, which is characterized in that a mounting buckle is conveyed through a conveying belt, a mounting assembly is unfolded to fix a steel skeleton, a buckling assembly is moved through a moving platform, the mounting buckle on the conveying belt is taken out and driven into a hole of the steel skeleton by the buckling assembly, manual buckling is not needed, a large amount of labor and time are saved, meanwhile, the mounting assembly not only plays a role of fixing the steel skeleton, but also can drive the steel skeleton to rotate, and the hole without buckling is rotated to the lower part of the buckling assembly to be buckled.

Drawings

FIG. 1 is a schematic view of an automatic fastening device for steel frame pipe.

Fig. 2 is a cross-sectional view taken along line a-a of fig. 1.

Fig. 3 is a sectional view taken at B-B of fig. 1.

Fig. 4 is a cross-sectional view taken at C-C of fig. 1.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 4, the utility model provides an automatic fastening device for a steel skeleton pipe fitting, which comprises a steel skeleton 1 and a mounting fastener 2, wherein the steel skeleton 1 is provided with a plurality of holes 11 matched with the mounting fastener 2, the automatic fastening device further comprises a transmission belt 3 for transporting the mounting fastener 2, the transmission belt 3 is provided with two mounting grooves 31 for placing the mounting fastener 2, a mounting component for mounting the steel skeleton 1 is arranged at the left side of the transmission belt 3, and a fastening component for driving the mounting fastener 2 on the transmission belt 3 into the holes 11 of the steel skeleton 1 is arranged above the transmission belt 3 and the mounting component.

With reference to fig. 2 to 4, the mounting assembly includes a first motor 41, the first motor 41 is disposed at the front end of the worktable 6, a rotating sleeve 42 is disposed on an output end of the rear portion of the first motor 41, a bidirectional screw 43 is disposed in the rotating sleeve 42, a head of the bidirectional screw is disposed at the front end of the rotating sleeve through a bearing, a tail of the bidirectional screw 43 passes through the rear end of the rotating sleeve 42 through the bearing, a rotating disc 44 is disposed at a tail of the bidirectional screw 43, first collars 45 are symmetrically disposed at front and rear ends of the bidirectional screw 43, four fixing blocks 46 are annularly disposed on each of the first collars 45, four sliding openings 49 matched with the fixing blocks 46 are annularly disposed at front and rear ends of an outer wall of the rotating sleeve 42, the fixing blocks 46 pass through the sliding openings 49 matched with the fixing blocks, adjacent two around the fixed block 46 is connected through the supporting component, be provided with two spacing dishes 47 on the rotation sleeve 42, two spacing dishes 47 are located between two first lantern rings 45, be provided with gag lever post 48 on the supporting component, the end of gag lever post 48 extends to two between the spacing dish 47, when needing to strut the supporting component, rotate carousel 44, it is rotatory to drive two-way screw 43, and two first lantern rings 45 on two-way screw 43 are driven in the rotation of two-way screw 43 are close to each other to strut the supporting component.

With continuing reference to fig. 2 to 4, the supporting assembly includes a supporting rod 71 for fixing the steel framework 1, two first hinge blocks 72 and two second hinge blocks 73, wherein one end of each of the two first hinge blocks 72 is hinged to both sides of the front fixing block 46, the other end of each of the first hinge blocks 72 is hinged to the front end of the supporting rod 71, one end of each of the two second hinge blocks 73 is hinged to both sides of the rear fixing block 46, and the other end of each of the two second hinge blocks 73 is hinged to the rear end of the supporting rod 71; the gag lever post 48 sets up the middle part of bracing piece 71, at the in-process of strutting, gag lever post 48 removes in spacing dish 47, plays spacing effect, makes the angle that first articulated piece 72 and second articulated piece 73 strut the same, guarantees the straight of bracing piece 71.

Referring to fig. 1, a lifting table 8 for placing the steel framework 1 is disposed below the limiting disc 47, an arc-shaped groove 81 matched with the steel framework 1 is formed in the lifting table 8, two first telescopic cylinders 82 are disposed at the bottom of the lifting table 8, the two first telescopic cylinders 82 are disposed on the ground, and the arc-shaped groove 81 in the lifting table 8 can be used for placing the steel framework 1.

With reference to fig. 1 and 4, two sliding rails 9 are disposed above the conveyor belt 3 and the mounting assembly, a moving table 91 is disposed between the sliding rails 9, an installation cavity is formed in the moving table 91, a dual-output shaft motor 92 is disposed in the installation cavity, transmission shafts 93 are disposed at front and rear output ends of the dual-output shaft motor 92, the two transmission shafts 93 penetrate through the moving table 91, gears 94 are disposed on the two transmission shafts 93, and racks 95 engaged with the gears 94 are disposed on the sliding rails 9; the upper buckle component comprises two air suction pipes 51, the two air suction pipes 51 are arranged at the left end of the bottom of the movable platform 91, an air pump 52 connected with the two air suction pipes 51 is arranged on the movable platform 91, a suction cup 53 is arranged at the bottom of each air suction pipe 51, an electric telescopic cylinder 54 is arranged in each air suction pipe 51, a push rod at the bottom of the electric telescopic cylinder 54 is provided with a pressing plate 56, when the upper buckle is needed, the push rod of the electric telescopic cylinder 54 descends, and the installation buckle 2 is pressed into the hole 11 of the steel framework 1 through the pressing plate 56.

The utility model has the following working principle: the steel skeleton 1 is put in from the rear of the installation component and placed on the arc-shaped groove 81 of the lifting platform 8, the rotary turntable 44 drives the two-way screw 43 to rotate, so as to drive the two first sleeves 45 on the two-way screw 43 to approach each other, thereby expanding the installation component, the steel skeleton 1 is supported by the support rod 71, when the support rod 71 supports the steel skeleton 1, the first telescopic cylinder 82 drives the lifting platform 8 to descend (preventing the steel skeleton 1 from rubbing with the lifting platform 8 when rotating), the double-output-shaft motor 92 drives the two gears 94 to move on the rack 95, the upper buckle component on the moving platform 91 is driven to move to the upper part of the left end of the transmission belt 3, the installation buckles 2 in the two installation grooves 31 are sucked on the suction cups 53 at the bottoms of the air suction pipes 51 through the air pump 52 and the two air suction pipes 51, the double-output-shaft motor 92 drives the two gears 94 to move on the rack 95, the upper buckle component on the moving platform 91 is driven to move to the upper part of the steel skeleton 1, the push rod of the electric telescopic cylinder 54 in the air suction pipe 51 extends downwards, the installation buckle 2 is pressed into the hole 11 of the steel skeleton 1 through the pressing plate 56, after the pressing, the moving platform 91 drives the upper buckle component to move to the upper side of the transmission belt 3 again to suck the installation buckle 2, the first motor 41 in the installation component drives the rotating shaft 42 to rotate, so as to drive the steel skeleton 1 to rotate, the hole 11 which is not buckled on the steel skeleton 1 is rotated to the lower side of the upper buckle component, the previous buckling step can be repeated, after the buckling is completed, the first telescopic cylinder 82 drives the lifting platform 8 to ascend, the arc-shaped groove 81 of the lifting platform 8 is contacted with the bottom of the steel skeleton 1, the rotating disc at the rear end of the screw 43 is rotated, the first sleeve 45 on the screw 43 moves backwards, the supporting component is recovered, and the steel skeleton 1 can be taken away.

The above description is only a preferred embodiment of the present invention, and should not be construed as limiting the present invention, and all equivalent variations and modifications made in the claims of the present invention should be covered by the present invention.

Claims (5)

1. Automatic locking device that goes up of steel skeleton pipe fitting, detain including steel skeleton and installation, seted up on the steel skeleton a plurality of with the installation is detained matched with hole, its characterized in that: still including being used for the transportation the transmission band of installation knot, seted up two on the transmission band and be used for placing the installation is detained the mounting groove of usefulness, the left side of transmission band is provided with and is used for the installation component of steel skeleton, the transmission band with the top of installation component is provided with will installation knot on the transmission band is squeezed into last knot subassembly on the steel skeleton hole.

2. The automatic fastening device for steel skeleton pipe fittings of claim 1, wherein: the mounting component comprises a first motor, the first motor is arranged at the front end of the workbench, a rotating sleeve is arranged at the output end of the rear part of the first motor, a bidirectional screw rod is arranged in the rotating sleeve through a bearing, the head part of the bidirectional screw rod is arranged at the front end in the rotating sleeve through a bearing, the tail part of the bidirectional screw rod penetrates out of the rear end of the rotating sleeve through the bearing, a turntable is arranged at the tail part of the bidirectional screw rod, first lantern rings are symmetrically arranged at the front end and the rear end of the bidirectional screw rod, a plurality of fixed blocks are annularly arranged on the two first lantern rings, a plurality of sliding openings matched with the fixed blocks are annularly arranged at the front end and the rear end of the outer wall of the rotating sleeve, the fixed blocks penetrate out the matched sliding openings, the front fixed blocks and the rear fixed blocks are connected through a supporting component, and two limiting discs are arranged on the rotating sleeve, two the spacing dish is located between two first collars, the last gag lever post that is provided with of supporting component, the end of gag lever post extends to two between the spacing dish.

3. The automatic fastening device for steel skeleton pipe fittings of claim 2, wherein: the supporting assembly comprises a supporting rod for fixing the steel skeleton, two first hinging blocks and two second hinging blocks, one ends of the two first hinging blocks are hinged to two sides of the front fixing block, the other ends of the first hinging blocks are hinged to the front end of the supporting rod, one ends of the two second hinging blocks are hinged to two sides of the rear fixing block, and the other ends of the two second hinging blocks are hinged to the rear end of the supporting rod; the limiting rod is arranged in the middle of the supporting rod.

4. The automatic fastening device for steel skeleton pipe fitting of claim 2, wherein: the limiting disc is characterized in that a lifting platform used for placing the steel skeleton is arranged below the limiting disc, an arc-shaped groove matched with the steel skeleton is formed in the lifting platform, two first telescopic cylinders are arranged at the bottom of the lifting platform, and the two first telescopic cylinders are arranged on the ground.

5. The automatic fastening device for steel skeleton pipe fittings of claim 1, wherein: two sliding rails are arranged above the transmission belt and the mounting assembly, a moving table is arranged between the sliding rails, a mounting cavity is formed in the moving table, a motor with double output shafts is arranged in the mounting cavity, transmission shafts are arranged at the front output end and the rear output end of the motor with the double output shafts, the two transmission shafts penetrate through the moving table, gears are arranged on the two transmission shafts, and racks meshed with the gears are arranged on the sliding rails; the upper buckle component comprises two air suction pipes, the two air suction pipes are arranged at the left end of the bottom of the mobile platform, an air pump connected with the two air suction pipes is arranged on the mobile platform, a suction disc is arranged at the bottom of each air suction pipe, an electric telescopic cylinder is arranged in each air suction pipe, and a pressing plate is arranged on a push rod at the bottom of the electric telescopic cylinder.

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