CN117464261A - Automatic welding device for building electrical construction - Google Patents

Abstract

The invention is suitable for the technical field of building electrical engineering welding, and provides an automatic welding device for building electrical construction, which comprises a first fixed ring, wherein the first fixed ring is connected with a second fixed ring through a plurality of fixed rods, an elastic abutting mechanism is arranged at the inner side of the second fixed ring at equal angles and is used for fixing a workpiece to be welded, a power driving mechanism is arranged on the first fixed ring, angle adjusting mechanisms are uniformly distributed at the movable end of the power driving mechanism, the angle adjusting mechanisms are rotationally connected with the second fixed ring, a push-pull distance adjusting mechanism synchronously swings along with the angle adjusting mechanisms, and the distance between the angle adjusting mechanisms and the workpiece is adjusted; the welding method can reduce the influence caused by the dislocation of welding stress during welding, improves the welding precision, can develop multi-point synchronous welding once, improves the welding efficiency by several times, can complete the welding of annular regular tracks, and can also carry out the welding of concave-convex parts of workpieces.

Description

Automatic welding device for building electrical construction

Technical Field

The invention belongs to the technical field of building electrical engineering welding, and particularly relates to an automatic welding device for building electrical construction.

Background

In the process of building electrical construction, pipe fittings or columns are required to be welded, when the conventional welding device is used, a pipeline is required to penetrate through the supporting frame, the air bag ring and the through hole and extend into the sealing box body, the end part of the pipeline is erected on the supporting seat, the air bag ring is utilized for fixing, the pipeline is driven to synchronously rotate under the condition that the left gear and the right gear rotate, and the two side pipelines are welded by the welding head.

But when the pipeline is overlong in the welding process, the pipeline is easy to swing under the action of centrifugal force, the welding precision is affected, the pipeline is required to rotate for one circle to finish welding, and the welding head and the pipeline are constant in distance, so that the pipeline cannot be effectively welded when bulges or pits appear.

Disclosure of Invention

The embodiment of the invention aims to provide an automatic welding device for building electrical construction, which aims to solve the problems in the background technology.

The embodiment of the invention is realized in such a way that the automatic welding device for building electrical construction comprises a first fixing ring and a first supporting leg, and further comprises:

the second fixing ring is arranged on the inner side of the first fixing ring, a plurality of fixing rods are arranged between the first fixing ring and the second fixing ring, and connecting columns are arranged on the fixing rods;

the elastic propping mechanisms are arranged at the inner side of the second fixing ring in an equal angle manner and used for fixing workpieces to be welded, and the elastic propping mechanisms are matched with dampers arranged in the second fixing ring to reduce shaking caused by welding, so that the welding precision of the workpieces is improved;

the power driving mechanism is arranged on the first fixed ring and driven by an independent external motor;

the angle adjusting mechanisms are uniformly distributed at the movable end of the power driving mechanism, are rotationally connected with the fixed ring II and control the swing angle of the angle adjusting mechanism through the rotation direction of the adjusting motor;

the push-pull distance adjusting mechanisms are arranged in the same number with the angle adjusting mechanisms, are connected with the angle adjusting mechanisms, synchronously swing along with the angle adjusting mechanisms and adjust the distance between the angle adjusting mechanisms and the workpiece;

the auxiliary supporting units are symmetrically arranged on two sides of the first fixed ring and used for supporting workpieces to be welded.

Preferably, the elastic abutting mechanism comprises a sleeve, an abutting column, an abutting rod, a limiting rod and an elastic supporting piece II;

the sleeve is fixedly arranged on the inner side of the second fixing ring, the abutting column is slidably arranged at the end part of the sleeve, and the abutting rods are hinged to the two sides of the sleeve;

the limiting rods are symmetrically and slidably arranged on two sides of the sleeve, the end parts of the limiting rods are provided with cylinders, and the limiting rods and the cylinders are both in sliding connection with the abutting rods;

the inside of the sleeve is provided with a first elastic supporting piece, the first elastic supporting piece is connected with the abutting column, a second elastic supporting piece is arranged between the sleeve and the second elastic supporting piece, and the first elastic supporting piece and the second elastic supporting piece are matched with the damper which is independently arranged.

Preferably, the power driving mechanism comprises an outer gear ring, a box body, a driving gear shaft and a groove;

the outer gear ring is rotatably arranged in the first fixed ring, the box body is arranged at the top end of the first fixed ring, the driving gear shaft is rotatably arranged in the first fixed ring, the driving gear shaft is also meshed with the outer gear ring, and a groove for the driving gear shaft to rotate is formed in the first fixed ring;

the shaft end of the driving gear shaft is in transmission connection with the shaft end of an external motor through a coupler.

Preferably, the angle adjusting mechanism comprises a movable rod, a swing rod, a welding head, an arc-shaped groove, a pile body and a guide groove;

the movable rod is arranged on the inner side of the outer gear ring and fixes the position of the movable rod through a pin shaft;

the swing rod is hinged to the movable rod, and the welding head is slidably arranged on the swing rod;

the arc-shaped groove is arranged on the two side surfaces of the fixed ring so as to facilitate the swing of the swing rod;

the pile body is arranged on the second fixing ring, the guide groove is arranged on the swing rod, and the guide groove is in sliding connection with the pile body.

Preferably, the push-pull distance-adjusting mechanism comprises a telescopic piece and a positioning column;

the telescopic piece is installed on the pile body, the locating column is arranged on the welding head, and the locating column is further connected with the working end of the telescopic piece so as to facilitate pushing the welding head to slide along the swing rod.

Preferably, the motor, the welding head and the telescopic piece are electrically connected with an external controller and used for automatically adjusting the relative positions of the welding head and the workpiece so as to facilitate subsequent welding.

Preferably, the auxiliary supporting unit comprises a supporting ring, a second supporting leg and a connecting column;

the support ring is arranged on the outer side of the workpiece, and the second support legs are symmetrically arranged on the side surface of the support ring;

the linking post is fixedly arranged at the bottom end of the second supporting leg so as to be convenient for connecting the second supporting legs which are arranged in pairs.

The automatic welding device for building electrical construction provided by the embodiment of the invention has the following advantages:

(1) The welding device has the characteristics of stable structure and high welding precision in the welding process, and can reduce the influence caused by the dislocation of welding stress to the greatest extent during welding;

(2) In the ring welding process, multi-point synchronous welding can be carried out once, and the welding efficiency is improved by several times;

(3) The power driving mechanism, the angle adjusting mechanism and the push-pull distance adjusting mechanism are matched, so that the welding of annular regular tracks can be completed, the welding work of concave-convex parts of workpieces can be performed, the applicability of the device is greatly improved, and different welding requirements can be met.

Drawings

Fig. 1 is a schematic structural diagram of an automated welding device for building electrical construction according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is a cross-sectional view at B in FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 1 at C;

fig. 6 is a front view of a swing rod in an automatic welding device for building electrical construction, which is provided by the embodiment of the invention.

In the accompanying drawings: 1-a first fixing ring; 2-a first supporting leg; 3-a support ring; 4-a second supporting leg; 5-connecting columns; 6-a workpiece; 7-fixing the second ring; 8-fixing rods; 9-connecting columns; 10-sleeve; 11-abutting the column; 12-abutting the rod; 13-a limit rod; 14-elastic support II; 15-an outer gear ring; 16-a box body; 17-a drive gear shaft; 18-grooves; 19-a movable rod; 20-swinging rod; 21-a welding head; 22-arc grooves; 23-pile body; 24-guiding grooves; 25-telescoping pieces; 26-positioning columns; 100-an elastic abutting mechanism; 200-a power driving mechanism; 300-angle adjusting mechanism; 400-push-pull distance-adjusting mechanism.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 6, the structure diagram of an automatic welding device for building electrical construction provided by an embodiment of the present invention includes a first fixing ring 1, a first supporting leg 2, a second fixing ring 7, an elastic abutting mechanism 100, a power driving mechanism 200, an angle adjusting mechanism 300, a push-pull distance adjusting mechanism 400 and an auxiliary supporting unit, wherein the second fixing ring 7 is arranged inside the first fixing ring 1, a plurality of fixing rods 8 are installed between the first fixing ring 1 and the second fixing ring 7, and connecting posts 9 are installed on the fixing rods 8; the elastic propping mechanisms 100 are provided with a plurality of groups, the elastic propping mechanisms 100 are arranged at the inner side of the second fixed ring 7 at equal angles and are used for fixing the workpiece 6 to be welded, and the vibration caused during welding is reduced by matching with a damper arranged in the second fixed ring 7, so that the welding precision of the workpiece 6 is improved; the power driving mechanism 200 is arranged on the first fixed ring 1, and the power driving mechanism 200 is driven by an independent external motor; the angle adjusting mechanisms 300 are uniformly distributed at the movable end of the power driving mechanism 200, the angle adjusting mechanisms 300 are rotationally connected with the fixed ring II 7, and the swing angle of the angle adjusting mechanisms 300 is controlled by adjusting the rotation direction of the motor; the push-pull distance adjusting mechanisms 400 and the angle adjusting mechanisms 300 are arranged in the same number, the push-pull distance adjusting mechanisms 400 are connected with the angle adjusting mechanisms 300, the push-pull distance adjusting mechanisms 400 also synchronously swing along with the angle adjusting mechanisms 300, and the distance between the angle adjusting mechanisms 300 and the workpiece 6 is adjusted; the auxiliary supporting units are symmetrically arranged on two sides of the first fixing ring 1 and are used for supporting the workpiece 6 to be welded.

The application provides an automatic welding set is used in building electrical construction has stable in structure in welding process, and welding precision is high characteristics, can reduce the influence that welding stress dislocation caused in the welding to the maximum extent, and the girth welding in-process can once develop multiple spot synchronous welding, improves welded efficiency several times, simultaneously, power drive mechanism 200, angle adjustment mechanism 300 and push-and-pull roll adjustment mechanism 400 cooperation not only can accomplish annular rule orbit's welding, but also can carry out the weldment work at work piece 6 unsmooth positions, has improved the suitability of device to a great extent, can satisfy different welding demands.

In one example of the invention, the auxiliary supporting units are arranged in pairs on two sides of the first fixing ring 1, and the auxiliary supporting units comprise a supporting ring 3, a second supporting leg 4 and a connecting column 5; the support ring 3 is arranged on the outer side of the workpiece 6, and the second support legs 4 are symmetrically arranged on the side surface of the support ring 3; the connecting column 5 is fixedly arranged at the bottom end of the second supporting leg 4 so as to be convenient for connecting the second supporting legs 4 which are arranged in pairs, thereby improving the stability of the support and avoiding loosening during welding; in addition, the present application is applicable not only to pipe bodies, but also to columns.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the elastic tightening mechanism 100 includes a sleeve 10, a tightening post 11, a tightening rod 12, a stop rod 13, and a second elastic support 14;

the sleeve 10 is fixedly arranged on the inner side of the second fixing ring 7, the abutting column 11 is slidably arranged at the end part of the sleeve 10, and the abutting rods 12 are hinged on two sides of the sleeve 10;

the limiting rods 13 are symmetrically and slidably arranged on two sides of the sleeve 10, the end parts of the limiting rods 13 are provided with cylinders, and the limiting rods 13 and the cylinders are both in sliding connection with the abutting rods 12;

the inner side of the sleeve 10 is provided with a first elastic supporting piece, the first elastic supporting piece is connected with the abutting column 11, a second elastic supporting piece 14 is arranged between the sleeve 10 and the second elastic supporting piece 14, and the first elastic supporting piece and the second elastic supporting piece 14 are matched with dampers which are independently arranged.

In the process of the embodiment, the end of the abutting post 11 in the application abuts against the outer side of the workpiece 6, the workpiece 6 is abutted against by the elastic support piece arranged inside, the abutting rod 12 swings along the sleeve 10 when the workpiece 6 is dislocated in the abutting process, the limiting rod 13 slides along the sleeve 10 and the abutting rod 12, and the elastic support piece two 14 is elastically deformed under the stress and is matched with the damper to prevent the workpiece 6 from swinging.

As shown in fig. 1, 3 and 4, as another preferred embodiment of the present invention, the power driving mechanism 200 includes an external ring gear 15, a case 16, a driving gear shaft 17 and a recess 18;

the outer gear ring 15 is rotatably mounted in the first fixed ring 1, the box 16 is mounted at the top end of the first fixed ring 1, the driving gear shaft 17 is rotatably arranged in the first fixed ring 1, the driving gear shaft 17 is also meshed with the outer gear ring 15, and a groove 18 for the driving gear shaft 17 to rotate is formed in the first fixed ring 1;

the shaft end of the driving gear shaft 17 is in transmission connection with the shaft end of an external motor through a coupler.

In the specific implementation process of this embodiment, the external motor is a positive and negative motor, the driving gear shaft 17 rotates along the box 16 under the drive of the external motor, and the driving gear shaft 17 is meshed with the groove 18, so that the outer gear ring 15 rotates in the first fixed ring 1, the angle adjusting mechanism 300 synchronously rotates with the outer gear ring 15, and the rotation direction of the positive and negative motor is changed by the controller, so that the swing angle of the angle adjusting mechanism 300 is changed.

As shown in fig. 1, 5 and 6, as another preferred embodiment of the present invention, the angle adjusting mechanism 300 includes a movable rod 19, a swing rod 20, a welding head 21, an arc-shaped groove 22, a pile body 23 and a guide groove 24;

the movable rod 19 is arranged on the inner side of the outer gear ring 15 and fixes the position of the movable rod through a pin shaft;

the swing rod 20 is hinged to the movable rod 19, and the welding head 21 is slidably arranged on the swing rod 20;

the arc-shaped groove 22 is arranged on the side surface of the second fixing ring 7 so as to facilitate the swing rod 20 to swing;

the pile body 23 is arranged on the second fixing ring 7, the guide groove 24 is arranged on the swing rod 20, and the guide groove 24 is in sliding connection with the pile body 23.

In the process of implementing the embodiment, three movable rods 19, swinging rods 20 and welding heads 21 are provided, the swinging range of each welding head 21 is 120 degrees, so that three welding heads 21 can respectively complete one third of welding work under the condition of movement, the number of the movable rods 19, the swinging rods 20 and the welding heads 21 can be adjusted as required, the movable rods 19 synchronously move under the condition that the outer gear ring 15 rotates along the first fixed ring 1, the swinging rods 20 and the welding heads 21 swing along with the movable rods 19, and in the process, the pile body 23 also slides along the guide groove 24, so that the welding heads 21 can accurately swing.

As shown in fig. 1 and 5, as another preferred embodiment of the present invention, the push-pull distance-adjusting mechanism 400 includes a telescopic member 25 and a positioning column 26;

the telescopic piece 25 is arranged on the pile body 23, the positioning column 26 is arranged on the welding head 21, and the positioning column 26 is also connected with the working end of the telescopic piece 25 so as to facilitate pushing the welding head 21 to slide along the swing rod 20;

the motor, the welding head 21 and the telescopic piece 25 are all electrically connected with an external controller, and are used for automatically adjusting the relative positions of the welding head 21 and the workpiece 6 so as to facilitate subsequent welding.

In the process of implementing the embodiment, the telescopic member 25 may be a linear driving device such as an air cylinder, a hydraulic cylinder, an electric cylinder, or an electric telescopic rod, when in actual use, and is used for pulling the welding head 21 to slide along the swing rod 20 by the positioning column 26 during the swinging of the welding head 21, so as to accurately send the welding head 21 to a welding station on the workpiece 6, and weld the workpiece 6 under the condition that the welding head 21 is working.

In summary, the supporting legs two 4 at two sides of the first fixing ring 1 are connected through the connecting post 5, the second fixing ring 7 at two sides is connected through the connecting post 9, so that two workpieces 6 which are arranged independently are located on the same axis, the workpieces 6 are erected on the supporting ring 3 and supported through the second supporting legs 4, the workpieces 6 are abutted against the end parts of the tight supporting posts 11, the workpieces 6 are fixed under the condition that the elastic supporting pieces one inside the sleeve 10 are matched with the damper, the tight fixing work of the two sections of workpieces 6 is completed, in the welding process, the driving gear shaft 17 rotates along the box 16 under the driving of the external motor, the driving gear shaft 17 is meshed with the external gear ring 15, the external gear ring 15 and the movable rod 19 are driven to rotate along the first fixing ring 1, the movable rod 19 also pulls the swinging rod 20 and the welding head 21 to swing along the workpieces 6, the welding angle is adjusted, the welding head 21 is pushed to slide along the swinging rod 20 by the aid of the set telescopic piece 25 in the adjusting process, the welding head 21 and the workpiece 6 are automatically changed, the welding mechanism can be matched with the elastic supporting pieces 21 under the condition that the position 21 of the workpiece 6 is convenient to work, the welding mechanism can be matched with the welding mechanism in the welding position of the two sections, and the welding mechanism can be adjusted in the welding position of the welding mechanism is reduced by 300, and the welding precision can be greatly reduced, and the welding precision can be matched with the welding mechanism can be adjusted by the welding mechanism to the welding position is 300.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The utility model provides an automatic welding device is used in building electrical construction, includes solid fixed ring one and supporting leg one, its characterized in that still includes:

the second fixing ring is arranged on the inner side of the first fixing ring, a plurality of fixing rods are arranged between the first fixing ring and the second fixing ring, and connecting columns are arranged on the fixing rods;

the elastic propping mechanisms are arranged at the inner side of the second fixing ring in an equal angle manner and used for fixing workpieces to be welded, and the elastic propping mechanisms are matched with dampers arranged in the second fixing ring to reduce shaking caused by welding, so that the welding precision of the workpieces is improved;

the power driving mechanism is arranged on the first fixed ring and driven by an independent external motor;

the angle adjusting mechanisms are uniformly distributed at the movable end of the power driving mechanism, are rotationally connected with the fixed ring II and control the swing angle of the angle adjusting mechanism through the rotation direction of the adjusting motor;

the push-pull distance adjusting mechanisms are arranged in the same number with the angle adjusting mechanisms, are connected with the angle adjusting mechanisms, synchronously swing along with the angle adjusting mechanisms and adjust the distance between the angle adjusting mechanisms and the workpiece;

the auxiliary supporting units are symmetrically arranged on two sides of the first fixed ring and used for supporting workpieces to be welded.

2. The automated welding device for building electrical construction according to claim 1, wherein the elastic abutting mechanism comprises a sleeve, an abutting column, an abutting rod, a limiting rod and an elastic supporting piece II;

the sleeve is fixedly arranged on the inner side of the second fixing ring, the abutting column is slidably arranged at the end part of the sleeve, and the abutting rods are hinged to the two sides of the sleeve;

the limiting rods are symmetrically and slidably arranged on two sides of the sleeve, the end parts of the limiting rods are provided with cylinders, and the limiting rods and the cylinders are both in sliding connection with the abutting rods;

the inside of the sleeve is provided with a first elastic supporting piece, the first elastic supporting piece is connected with the abutting column, a second elastic supporting piece is arranged between the sleeve and the second elastic supporting piece, and the first elastic supporting piece and the second elastic supporting piece are matched with the damper which is independently arranged.

3. The automated welding apparatus for building electrical construction of claim 1, wherein the power drive mechanism comprises an external gear ring, a case, a drive gear shaft, and a groove;

the outer gear ring is rotatably arranged in the first fixed ring, the box body is arranged at the top end of the first fixed ring, the driving gear shaft is rotatably arranged in the first fixed ring, the driving gear shaft is also meshed with the outer gear ring, and a groove for the driving gear shaft to rotate is formed in the first fixed ring;

the shaft end of the driving gear shaft is in transmission connection with the shaft end of an external motor through a coupler.

4. The automated welding device for building electrical construction according to claim 3, wherein the angle adjusting mechanism comprises a movable rod, a swing rod, a welding head, an arc-shaped groove, a pile body and a guide groove;

the movable rod is arranged on the inner side of the outer gear ring and fixes the position of the movable rod through a pin shaft;

the swing rod is hinged to the movable rod, and the welding head is slidably arranged on the swing rod;

the arc-shaped groove is arranged on the two side surfaces of the fixed ring so as to facilitate the swing of the swing rod;

the pile body is arranged on the second fixing ring, the guide groove is arranged on the swing rod, and the guide groove is in sliding connection with the pile body.

5. The automated welding device for building electrical construction of claim 4, wherein the push-pull distance-adjusting mechanism comprises a telescopic member and a positioning column;

the telescopic piece is installed on the pile body, the locating column is arranged on the welding head, and the locating column is further connected with the working end of the telescopic piece so as to facilitate pushing the welding head to slide along the swing rod.

6. The automated welding device for electrical construction of claim 5, wherein the motor, the welding head and the telescoping member are electrically connected to an external controller for automatically adjusting the relative position of the welding head and the workpiece for subsequent welding.

7. The automated welding apparatus for building electrical construction of claim 1, wherein the auxiliary support unit comprises a support ring, a second support leg, and a connecting column;

the support ring is arranged on the outer side of the workpiece, and the second support legs are symmetrically arranged on the side surface of the support ring;

the linking post is fixedly arranged at the bottom end of the second supporting leg so as to be convenient for connecting the second supporting legs which are arranged in pairs.