CN211759540U - Ring forming element welding automation anchor clamps that can preheat - Google Patents

Abstract

The utility model provides a loop forming element welding automation anchor clamps that can preheat relates to welding equipment technical field, and it includes workstation and the arm of setting on the workstation, is provided with the heating ring case on the arm, is provided with thermodetector in the heating ring case. The lower part of the heating ring box is provided with a clamping seat, a first clamping sleeve and a second clamping sleeve which are oppositely arranged on the left and right of the clamping seat, the clamping seat is connected with a rotating mechanism which drives the clamping seat to rotate by electric power, and a pneumatic system which drives the first clamping sleeve and the second clamping sleeve to be close to or far away from each other is arranged on the clamping seat. The problem of among the prior art centre gripping annular weldment's anchor clamps centre gripping precision poor and weldment preheat the uncontrollable, the effect is poor of process is solved.

Description

Ring forming element welding automation anchor clamps that can preheat

Technical Field

The utility model relates to a welding equipment technical field especially relates to a loop forming element welding automation anchor clamps that can preheat.

Background

Welding is a manufacturing process for joining metals by heating, pressing, or both, and has various structures, and it is necessary to fix a workpiece before welding, and with the development of automated welding equipment, it is necessary to fix a workpiece by using a jig on the automated welding equipment and then move a welding gun along a weld joint to weld.

The conventional clamp used for welding the annular weldment needs to be manually knocked down when being clamped, so that the accuracy of the clamp is seriously reduced, the roundness of a welding track is poor during welding, and the welding quality is reduced.

In the existing welding process, in order to prevent welding cracks, the cooling speed of a weldment joint is reduced in a mode generally adopted, and an effective method for reducing the cooling speed is to preheat the weldment by using a flame gun before welding, but the mode of manually heating the flame gun is low in heating efficiency and poor in effect, the temperature in the preheating process cannot be effectively monitored, and the preheating process and the preheating degree cannot be controlled.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem among the prior art, the utility model provides a loop forming element welding automation anchor clamps that can preheat has solved among the prior art anchor clamps centre gripping precision difference and the weldment preheating process uncontrollable, the poor problem of effect of centre gripping annular weldment.

In order to achieve the purpose of the invention, the technical scheme adopted by the utility model is as follows:

the utility model provides a ring part welding automation anchor clamps that can preheat, it includes the workstation and sets up the arm on the workstation, is provided with the heating ring case on the arm, is provided with thermodetector in the heating ring case. The lower part of the heating ring box is provided with a clamping seat, a first clamping sleeve and a second clamping sleeve which are oppositely arranged on the left and right of the clamping seat, the clamping seat is connected with a rotating mechanism which drives the clamping seat to rotate by electric power, and a pneumatic system which drives the first clamping sleeve and the second clamping sleeve to be close to or far away from each other is arranged on the clamping seat.

Furthermore, bilateral symmetry is provided with first slope pole and second slope pole on the grip slipper, and the bottom that first cover and second pressed from both sides overlaps is pegged graft respectively on first slope pole and second slope pole, and pneumatic system drive grip slipper reciprocates. In the process that the clamping seat is driven by the pneumatic system to move up and down, the first inclined rod and the second inclined rod can convert vertical upward thrust or vertical downward pulling force applied to the clamping seat into horizontal force for pushing the first jacket and the second jacket to be separated or close, and the pneumatic clamping device is ingenious in structural design, simple, reliable and high in operability.

Further, pneumatic system includes the piston chamber, and the top fixed connection of the piston in the piston chamber is on the grip slipper, and spring coupling is passed through in the bottom in piston chamber in the bottom of piston, and piston chamber and air pump intercommunication are provided with the gas pocket with piston chamber and external intercommunication on the grip slipper, and the air pump is installed on the workstation.

The air pump is used for pumping away air in the lower space of the piston, and the air pressure in the upper space of the piston is larger than that in the lower space, so that the piston moves downwards under the air pressure difference, the spring is compressed, the clamping seat can be pulled to move downwards in the downward moving process of the piston, the first jacket and the second jacket are clamped tightly through the inclined rod, the air pump is closed, the air pressure rises back, meanwhile, the spring rebounds to push the clamping seat to move upwards through the piston, and the first jacket and the second jacket are loosened. The whole process can be controlled by one key, the operation is convenient and simple, and the automation degree is high.

Furthermore, the rotating mechanism comprises a rotating shaft fixedly connected with the radial direction of the clamping seat, the rotating shaft is connected with a motor through a transmission device, and the motor is installed on the workbench. The rotating shaft is driven to rotate by the motor, so that the clamping seat for fixing the weldment is driven to rotate, the welding gun does not need to move in the process of welding the weldment, the roundness of a welding line is ensured by the rotation of the weldment, and the welding quality is easy to control; the rotating speed and the rotating angle of the motor are easy to control, the automation is easy to realize, and the control process is simple and easy to operate.

Furthermore, a plurality of sliding grooves are evenly distributed on the circumference of the top end of the rotating shaft along the axial direction of the rotating shaft, the clamping seat is fixed on the sliding sleeve, and a plurality of sliding blocks corresponding to the sliding grooves are fixed on the inner hole wall of the sliding sleeve. Through the embedding connection of the sliding blocks and the sliding grooves which are uniformly distributed on the circumference, the sliding sleeve and the rotating shaft are fixed in the radial direction and can slide axially and relatively, the clamping seat can rotate the weldment along with the rotation of the rotating shaft, and can move up and down to drive the first clamping sleeve and the second clamping sleeve to clamp and loosen.

Furthermore, the rotating shaft is a gear shaft, the transmission device comprises a driving gear connected with the motor and a driven gear connected with the gear shaft, and the driving gear is meshed with the driven gear. The high-speed rotation of the motor can be stably converted into the low-speed rotation of the rotating shaft, the rotating speed of the rotating shaft can be ensured to be stable all the time, the improvement of the uniformity of welding seams is facilitated, and the welding strength is improved.

Furthermore, the bottom ends of the first clamping sleeve and the second clamping sleeve are respectively meshed with one toothed plate, and the two toothed plates are respectively inserted into the first inclined rod and the second inclined rod which are symmetrically fixed on the clamping seat. First press from both sides cover and second and press from both sides the cover all with the pinion rack meshing for the position of pressing from both sides the cover on the pinion rack is adjustable, is convenient for adjust the initial interval between first cover and the second cover of pressing from both sides according to the weldment of different diameters, improves the application scope of this anchor clamps, improves the commonality.

Further, the piston cavity is hermetically arranged in the inner cavity of the rotating shaft of the rotating mechanism, and the piston and the rotating shaft are coaxially arranged. The piston cavity is arranged in the inner cavity of the rotating shaft, so that the whole fixture device is more compact in structure, the number of parts forming the whole fixture is effectively reduced, the integration level is higher, and the cost is lower.

Furthermore, an electromagnetic induction coil is wound in the heating ring box. Only when the weldment stretches into the electromagnetic induction coil, the weldment can be heated, so that the depth of the weldment stretching into the electromagnetic induction coil can be selectively controlled to control the heating part, the heating is more accurate, and the waste of heat is avoided.

Further, the temperature detector is connected with the paperless temperature recorder through a lead. The heating temperature detected by the temperature and temperature detector can be displayed in real time through the paperless temperature recorder, the heating time and the heating degree of the welding piece can be conveniently controlled, and the preheating effect of the welding piece is improved.

The utility model has the advantages that: the automatic ring welding clamp can clamp and fix an annular welding part, the heating ring box is moved to the welding part through the control mechanical arm to preheat the welding part, and the preheating temperature can be detected through a temperature detector in the heating ring box, so that the intuition of the preheating degree is improved, and the preheating effect is favorably improved; the heating ring box adopts induction heating, so that the heating ring box is sleeved on a weldment, namely, the weldment is heated, the heating ring box is moved away, namely, the heating is stopped, and the convenience of operation and control is improved.

The first jacket and the second jacket which are used for clamping and fixing the weldment on the clamping seat are close to and far away from each other by virtue of a pneumatic system to convert the pressure energy of compressed gas into mechanical energy, so that the weldment can be rapidly and automatically clamped, the coaxiality between the jackets and the weldment can be automatically adjusted in place, and the roundness of a welding track on the weldment is improved; the first clamping sleeve and the second clamping sleeve are connected with the clamping seat through the toothed plate, so that the horizontal position of the first clamping sleeve or the second clamping sleeve on the toothed plate can be adjusted, and the use convenience and the universality of the clamp are improved.

The rotating mechanism is driven by electric power to drive the clamping seat to rotate, so that the weldment rotates for a circle, the welding gun can complete welding of the ring-shaped member by means of rotation of the weldment without action, the roundness of a welding track is favorably improved, the welding uniformity is also ensured, and the welding quality is improved.

The arrangement of the mechanical arm, the rotating mechanism and the pneumatic system is favorable for realizing the automatic control of the whole process.

Drawings

FIG. 1 is a perspective view of an automated fixture for welding a ring that can be preheated.

FIG. 2 is a cross-sectional view of a preheatable ring welding automated fixture taken along the axis of the holder.

Fig. 3 is a perspective view of the rotating shaft of fig. 2.

Figure 4 is a perspective view of the sliding sleeve of figure 2.

Wherein, 1, a workbench; 2. a mechanical arm; 3. heating the ring box; 31. a temperature detector; 4. a clamping seat; 41. a first tilt lever; 42. a second tilt lever; 43. a sliding sleeve; 431. a slider; 44. a toothed plate; 5. a first jacket; 6. a second jacket; 7. a rotation mechanism; 71. a rotating shaft; 711. a chute; 72. a transmission device; 721. a driving gear; 722. a driven gear; 73. a motor; 8. a pneumatic system; 81. a piston cavity; 82. a piston; 83. a spring; 84. an air pump; 85. air holes; 9. a first weldment; 10. a second weldment; 11. and (7) welding seams.

Detailed Description

The following description of the embodiments of the present invention is provided to facilitate the understanding of the present invention by those skilled in the art, but it should be understood that the present invention is not limited to the scope of the embodiments, and various changes will be apparent to those skilled in the art as long as they are within the spirit and scope of the present invention as defined and defined by the appended claims, and all inventions contemplated by the present invention are protected.

As shown in FIG. 1, the automatic ring welding fixture capable of preheating comprises a workbench 1 and a mechanical arm 2 arranged on the workbench 1, wherein a heating ring box 3 is arranged on the mechanical arm 2, and a temperature detector 31 is arranged in the heating ring box 3. A clamping seat 4 is arranged below the heating ring box 3, a first clamping sleeve 5 and a second clamping sleeve 6 which are arranged on the clamping seat 4 oppositely are connected to the clamping seat 4, a rotating mechanism 7 which drives the clamping seat 4 to rotate is connected to the clamping seat 4, and a pneumatic system 8 which drives the first clamping sleeve 5 and the second clamping sleeve 6 to be close to or far away from each other is arranged on the clamping seat 4.

Arm 2 is the four-axis arm, and arm 2 installs on workstation 1. Heating ring case 3 is installed to "wrist" one end at arm 2, heating ring case 3's bottom is opened, the wire winding has electromagnetic induction coil on the inside tank wall, electromagnetic induction coil circular telegram, produce high frequency magnetic field in the coil, thereby make the metal weldment that gets into among the electromagnetic induction coil receive the magnetic field induction and generate heat, whole in-process, the electric energy can all turn into the heat energy of weldment, the weldment does not have the contact with electromagnetic induction coil, and only can heat the metal weldment that is in among the electromagnetic induction coil. Move away heating ring case 3 from the weldment through arm 2 and stop the heating to the weldment promptly, simplified the operating procedure, it is more convenient, easily control.

A temperature detector 31 is arranged in the heating ring box 3, and the temperature detector 31 is connected with a paperless temperature recorder through a lead. The paperless temperature recorder is preferably an HE802 two-channel temperature detector, a thermocouple connected with the temperature detector serves as a temperature detector 31, the temperature detector 31 is fixed on the heating ring box 3 and can be in contact with the weldment extending into the heating ring box 3 to measure the heated temperature of the weldment, and the temperature value is displayed on the temperature detector for reference and judgment of an operator.

The application aims at an annular weldment, the so-called annular weldment means that the welding positions of two weldments are circular, the annular weldment is a common structural component in the field of machining, for example, a first weldment 9 and a second weldment 10 inserted into the first weldment 9 shown in fig. 1, the position to be welded between the first weldment 9 and the second weldment 10 is a welding seam 11 between the top end of an inner hole of the first weldment 9 and the top end of the outer wall of the second weldment 10, the first weldment 9 needs to be clamped and fixed, and the first weldment 9 is cylindrical.

The first weldment 9 can be clamped and fixed by the approach of the first clamping sleeve 5 and the second clamping sleeve 6 which are respectively in a semicircular shape, and the first welding member 9 can be released by the separation of the first clamping sleeve 5 and the second clamping sleeve 6. The bottom ends of the first jacket 5 and the second jacket 6 are respectively meshed with one toothed plate 44, and the initial distance between the first jacket 5 and the second jacket 6 can be adjusted by adjusting the position of the first jacket 5 or the second jacket 6 on the corresponding toothed plate 44, so as to adapt to first weldments 9 with different thicknesses. The first jacket 5 or the second jacket 6 is fixed by a threaded fastener after the position on the toothed plate 44 is adjusted.

As shown in fig. 2, the bottom ends of the two toothed plates 44 are respectively inserted into a first tilting rod 41 and a second tilting rod 42 symmetrically fixed on the holder 4. The first tilting lever 41 and the second tilting lever 42 are arranged on the left and right sides of the holder 4 in mirror symmetry, and both tilt in a direction away from the axis of the holder 4.

The rotating mechanism 7 comprises a rotating shaft 71 fixedly connected with the clamping seat 4 in the radial direction, the rotating shaft 71 is connected with a motor 73 through a transmission device 72, and the motor 73 is arranged on the workbench 1. The rotation shaft 71 is a gear shaft, and the transmission 72 includes a driving gear 721 connected to the motor 73 and a driven gear 722 connected to the gear shaft, the driving gear 721 being engaged with the driven gear 722.

The pneumatic system 8 comprises a piston cavity 81, the top end of a piston 82 in the piston cavity 81 is fixedly connected to the holder 4, the bottom end of the piston 82 is connected to the bottom end of the piston cavity 81 through a spring 83, and the spring 83 is a compression spring. The piston chamber 81 is communicated with an air pump 84, an air hole 85 for communicating the piston chamber 81 with the outside is arranged on the clamping seat 4, and the air pump 84 is arranged on the workbench 1. The piston chamber 81 is hermetically arranged in the inner chamber of the rotating shaft 71 of the rotating mechanism 7, and the piston 82 is coaxially arranged with the rotating shaft 71.

Therefore, the holder 4 both needs to move up and down along with the piston 82 and needs to rotate around the axis of the holder 71 along with the rotating shaft 71, and therefore the lower end of the holder 4 is connected with the sliding sleeve 43 through the threaded fastener, as shown in fig. 3 and 4, a plurality of sliding grooves 711 are evenly distributed on the circumference of the top end of the rotating shaft 71 along the axial direction of the rotating shaft, a plurality of sliding blocks 431 corresponding to the sliding grooves 711 are fixed on the inner hole wall of the sliding sleeve 43, the sliding blocks 431 can slide up and down in the sliding grooves 711 but cannot rotate along the circumference, and the rotating mechanism 7 and the pneumatic system 8 can work normally through the arranged sliding sleeve 43.

When the clamping device is used, the initial positions of the first jacket 5 and the second jacket 6 on the toothed plate 44 are adjusted according to the outer diameter of the first weldment 9 and the threaded fasteners are screwed for fixing, the second weldment 10 is placed in the first weldment 9, the weldment is placed between the first jacket 5 and the second jacket 6, the air pump 84 is started, the air pump 84 sucks air at the lower part of the piston cavity 81, the air pressure at the lower part is reduced, the piston 82 moves downwards, the spring 83 is compressed, the clamping seat 4 moves downwards along with the piston 82, the first inclined rod 41 pulls the first jacket 5 and the second inclined rod 42 to pull the second jacket 6 to enable the two jackets to approach until the outer wall surface of the first weldment 9 is abutted, and then the clamping and fixing of the weldment are completed.

The control mechanical arm 2 sleeves the heating ring box 3 on the first weldment 9, the first weldment 9 and the second weldment 10 inside are fully heated, the preheating degree is judged by reading the temperature value on the temperature measuring instrument, and after the preheating meets the requirement, the control mechanical arm 2 is controlled to move away the heating ring box 3.

Then start motor 73, the rotational speed of motor 73 drives holder 4 slowly rotatory after passing through gear drive and slows down, when holder 4 drives the weldment and rotates, start welder and weld seam 11, holder 4 stops after accomplishing the rotation of round, the welding of annular weldment also accomplishes, then close air pump 84, spring 83 resumes deformation and pushes up piston 82, holder 4 moves up, promote two jackets through two sloping poles and keep away from, thereby loosen the centre gripping of butt welding spare, be convenient for take off the weldment.

Claims (10)

1. The automatic ring welding fixture capable of preheating is characterized by comprising a workbench (1) and a mechanical arm (2) arranged on the workbench (1), wherein a heating ring box (3) is arranged on the mechanical arm (2), and a temperature detector (31) is arranged in the heating ring box (3);

the heating ring box is characterized in that a clamping seat (4) is arranged below the heating ring box (3), a first clamping sleeve (5) and a second clamping sleeve (6) which are oppositely arranged on the clamping seat (4) from left to right are connected with a rotating mechanism (7) which is electrically driven to rotate the clamping seat (4), and a pneumatic system (8) which drives the first clamping sleeve (5) and the second clamping sleeve (6) to be close to or far away from each other is arranged on the clamping seat (4).

2. The automatic ring welding clamp capable of preheating according to claim 1, wherein a first inclined rod (41) and a second inclined rod (42) are symmetrically arranged on the clamping seat (4) from left to right, the bottom ends of the first jacket (5) and the second jacket (6) are respectively inserted into the first inclined rod (41) and the second inclined rod (42), and the clamping seat (4) is driven by the pneumatic system (8) to move up and down.

3. The automatic preheatable ring welding fixture as claimed in claim 2, wherein the pneumatic system (8) comprises a piston cavity (81), the top end of a piston (82) in the piston cavity (81) is fixedly connected to the clamping seat (4), the bottom end of the piston (82) is connected to the bottom end of the piston cavity (81) through a spring (83), the piston cavity (81) is communicated with an air pump (84), the clamping seat (4) is provided with an air hole (85) for communicating the piston cavity (81) with the outside, and the air pump (84) is mounted on the worktable (1).

4. The automatic preheatable ring welding fixture as claimed in claim 2, wherein the rotating mechanism (7) comprises a rotating shaft (71) fixedly connected with the clamping seat (4) in the radial direction, the rotating shaft (71) is connected with a motor (73) through a transmission device (72), and the motor (73) is mounted on the worktable (1).

5. The automatic ring welding fixture capable of preheating according to claim 4, wherein a plurality of sliding grooves (711) are uniformly distributed on the circumference of the top end of the rotating shaft (71) along the axial direction of the rotating shaft, the clamping seat (4) is fixed on the sliding sleeve (43), and a plurality of sliding blocks (431) corresponding to the sliding grooves (711) are fixed on the inner hole wall of the sliding sleeve (43).

6. The automated preheatable ring welding fixture according to claim 4, wherein the shaft (71) is a gear shaft, the transmission (72) comprises a driving gear (721) connected to the motor (73) and a driven gear (722) connected to the gear shaft, and the driving gear (721) is engaged with the driven gear (722).

7. The automated ring welding jig capable of being preheated as claimed in claim 1 or 2, wherein the bottom ends of the first jacket (5) and the second jacket (6) are respectively engaged with a toothed plate (44), and the two toothed plates (44) are respectively inserted on a first inclined rod (41) and a second inclined rod (42) which are symmetrically fixed on the clamping seat (4).

8. The automated preheatable ring welding jig according to claim 3, wherein the piston chamber (81) is sealingly disposed in an inner chamber of a rotating shaft (71) of the rotating mechanism (7), and the piston (82) is disposed coaxially with the rotating shaft (71).

9. The automated preheatable loop welding jig according to claim 1, wherein an electromagnetic induction coil is wound inside the heating loop box (3).

10. The automated preheatable loop welding jig of claim 1, wherein the temperature detector (31) is wired to a paperless temperature recorder.

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