CN118023686A - Auxiliary fixing type high-frequency welding equipment - Google Patents

Abstract

The invention provides auxiliary fixed high-frequency welding equipment which comprises a base and a collecting box, wherein the collecting box is positioned on one side of the base, a welding machine and a vertical plate are respectively arranged on two sides of the top of the base, an adjusting mechanism is arranged in the vertical plate, the output ends of the upper side and the lower side of the adjusting mechanism are respectively connected and fixed with a first connecting piece and a second connecting piece, a first clamping mechanism is connected onto the first connecting piece, a turnover mechanism is arranged on the second connecting piece, one side of the turnover mechanism is connected with a workbench, and a second clamping mechanism is arranged on the workbench. The invention has the following beneficial effects that through the design of the invention, the pipe fittings with different sizes can be stably clamped and fixed, the stability of the workpiece is further improved, the welding accuracy is improved, and meanwhile, the welded high-temperature pipe fitting can be fully automatically unloaded, so that the high-temperature pipe fitting can be stably unloaded into the collecting box for cooling and storing.

Description

Auxiliary fixing type high-frequency welding equipment

Technical Field

The invention relates to auxiliary fixed high-frequency welding equipment, and belongs to the field of welding equipment.

Background

The high-frequency welding machine can be used for welding various metal materials and also used for diathermy, smelting, heat treatment and other processes.

The working principle of the high-frequency welding machine is as follows: firstly, a whole set of unique electronic circuits are arranged in a high-frequency welding machine, low-frequency alternating current input from a power grid is converted into high-frequency alternating current, the high-frequency alternating current is added into an induction coil, and then is converted into a high-frequency magnetic field by utilizing an electromagnetic induction principle and acts on a metal object in the magnetic field; generating induced current proportional to the magnetic field intensity in the metal object by utilizing the eddy current effect, wherein the eddy current is influenced by the skin effect, and the higher the frequency is, the more concentrated is on the surface layer of the metal object; when the vortex flows in the metal object, heat is generated by utilizing the inherent resistance value in the interior and utilizing the principle of the current thermal effect, and the heat is directly generated in the object, so that the heating speed is high, the efficiency is high, any metal object can be instantaneously melted, and the heating speed and the temperature are controllable.

However, the existing welding machine does not have auxiliary tools for fixing workpieces, needs to be manually held or placed on the ground for operation, has a certain danger, and the welded workpieces have higher temperature, so that workers are inconvenient to take down and store.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide auxiliary fixed high-frequency welding equipment.

In order to achieve the above object, the present invention is realized by the following technical scheme:

The utility model provides an auxiliary fixation type high frequency welding equipment, includes base and collecting box, the collecting box is located base one side, base top both sides are equipped with welding machine and riser respectively, the inside adjustment mechanism that is equipped with of riser, adjustment mechanism's upper and lower both sides output is fixed with connecting piece one and connecting piece two respectively, be connected with first fixture on the connecting piece one, be equipped with tilting mechanism on the connecting piece two, one side and the workstation of tilting mechanism are connected, be equipped with the second on the workstation fixture, the top center department of workstation is equipped with second fixture matched with supporting mechanism.

Further, adjustment mechanism is including seting up the inside inner chamber of riser and symmetry are seting up the movable groove of riser surface, the movable groove with the inner chamber is linked together, the inside one side of inner chamber is equipped with accommodate motor, accommodate motor's side output is equipped with initiative conical gear, the inner chamber with swing joint has the rotation axis between the movable groove, the one end of rotation axis runs through to the inside and the driven conical gear connection of inner chamber are fixed, driven conical gear with initiative conical gear meshes mutually, the other end of rotation axis runs through to the inside and the surface of movable groove has seted up external screw thread one, the inside sliding connection of movable groove has the nut movable block, the nut movable block thread bush is established on the external screw thread one.

Further, the upper nut moving block and the lower nut moving block are respectively connected and fixed with the first connecting piece and the second connecting piece, and the upper clamping mechanism and the lower clamping mechanism are positioned in the same vertical axial direction.

Further, fixture includes the fixed shell, the fixed shell is hollow structure, the through-hole has all been seted up in the both sides center department of fixed shell, the inside one side rotation of fixed shell is connected with the ring part, the outside surface and the inboard surface of ring part are equipped with external screw thread two and internal screw thread respectively, external screw thread two meshes with drive gear mutually, drive gear is connected with driving motor, driving motor fixes inside the fixed shell.

Further, evenly be equipped with a plurality of support frames of group of the inboard of ring, rotate on the support frame and connect the movable column, the middle part of movable column is fixed with connecting plate one, the end fixing of connecting plate one has the arc, the end of arc passes through the through-hole runs through to the outside of fixed shell, the end fixing of movable column has side bevel gear, side bevel gear one side meshing has bottom bevel gear, the middle part of bottom bevel gear is fixed with the axis of rotation, axis of rotation swing joint is in inside the fixed shell, the axis of rotation is kept away from bottom bevel gear one side is fixed with the linkage gear, the linkage gear with the internal thread meshes mutually.

Further, an annular chute matched with the annular piece is formed in the inner wall of the fixed shell, and the arc plates in the upper clamping mechanism and the lower clamping mechanism face opposite.

Further, tilting mechanism is including fixing at the supporting seat of connecting piece two top one side and seting up business turn over hole on the connecting piece two, rotate on the supporting seat and be connected with the pivot, the pivot middle part is fixed with connecting plate two, connecting plate two's tip with the workstation is connected fixedly, the tip of pivot run through to the outside of supporting seat is connected fixedly with driven gear, the top of base just is located be equipped with rack board under the business turn over hole, rack board with driven gear cooperatees.

Further, the supporting mechanism is including seting up the recess of workstation top center department, the inside sliding connection of recess has the limiting plate, the bottom of limiting plate is equipped with power spring, power spring's bottom with the interior bottom extrusion of recess is in the same place, the top center department of limiting plate is fixed with the support column, the top of support column runs through to the top of workstation is connected fixedly with the carrier, the carrier is located the second inside the fixture, the top center department of carrier is fixed with the locating lever.

Further, the bearing piece comprises a fixing plate, the bottom center of the fixing plate is fixedly connected with the top of the supporting column, and the side edge of the circumference direction of the fixing plate is provided with a first extending supporting component and a second extending supporting component.

Further, the first extension supporting component comprises a first storage groove uniformly formed in the circumferential outer surface of the fixed plate, a first spring groove is formed in the first storage groove, a first sliding plate is connected to one side of the first spring groove in a sliding mode, a first return spring is arranged on one side of the first sliding plate, the first return spring is extruded with the first spring groove, a first sliding column is fixed to the other side of the first sliding plate, the end portion of the first sliding column penetrates through the outer side of the fixed plate to be fixedly connected with a moving plate, the second extension supporting component comprises a second storage groove uniformly formed in the circumferential outer surface of the fixed plate, a second spring groove is formed in the second storage groove, a second sliding plate is connected to the inner portion of the second spring groove in a sliding mode, a second return spring is arranged on one side of the second sliding plate and is extruded with the second spring groove, a second sliding column is fixed to the other side of the second sliding plate, and the other end portion of the second sliding column penetrates through the outer side of the fixed plate to be fixedly connected with the second moving plate.

The invention has the beneficial effects that:

Through the design of the invention, the pipe fittings with different sizes can be stably clamped and fixed, so that the stability of workpieces is improved, the welding accuracy is improved, and meanwhile, the welded high-temperature pipe fittings can be fully automatically unloaded, so that the high-temperature pipe fittings can be stably unloaded into the collecting box for cooling and storage.

Through adjustment mechanism's design, accommodate motor drives two driven bevel gears through initiative bevel gear and rotates, and driven bevel gear drives the rotation axis and rotate, and the rotation axis drives the nut movable block through the screw drive of external screw thread one and removes along the travel groove, and two nut movable blocks drive connecting piece one and connecting piece two respectively and remove in step, and connecting piece one and connecting piece two drive two fixture and remove.

Through fixture's design, driving motor drives driving gear and rotates, and driving gear and external screw thread two meshing drive ring piece are rotatory, and the ring piece is rotatory to drive the linkage gear through the internal screw thread and rotate, and the linkage gear passes through the axis of rotation and drives bottom conical gear and rotate, and bottom conical gear passes through side conical gear and drive movable column rotation, and movable column passes through connecting plate one and drives the arc rotatory, and four arcs rotatory angle regulation, and then adjusts the opening size that four arcs formed for the size looks adaptation of opening and pipe fitting.

Through tilting mechanism's design, welding machine carries out welding treatment to the butt joint end of top pipe fitting and below pipe fitting, after the welding is accomplished, remove the centre gripping of top fixture to top pipe fitting fixedly, then, start reverse drive adjustment mechanism, make connecting piece one and connecting piece two remove to two directions respectively, connecting piece take the fixture of top to rise and remove idle position, connecting piece two then take the fixture of connecting piece two and below to descend, when connecting piece two descends and rack board contact, rack board penetrates connecting piece two top through the business turn over hole and contacts with driven gear, and then drive driven gear rotation, driven gear rotation drives connecting plate two and workstation rotation through the pivot, the workstation rotation drives the fixture of below and the work piece that welds are rotated, make the work piece rotation collection box top opening that welds, finally, loosen the fixture of below, at this moment, the work piece that welds can drop inside the collection box, the work piece that welds is in high temperature state, the work piece that welds can cool in the collection box inside.

Through supporting mechanism's design to make the fixture of below can with the pipe fitting looks adaptation of different length, when the length of pipe fitting is less than the fixture of below high, at this moment, place the pipe fitting on the fixed plate in the fixture of below, then, push down the pipe fitting, make the pipe fitting of below spill below fixture's open-top distance can satisfy the welding demand, prevent that the pipe fitting from spilling below fixture's distance can't satisfy the welding demand, adjust the back, carry out the centre gripping to the pipe fitting through below fixture and fix.

Through the design of carrier, when the pipe fitting is pressed the carrier and is at the inside vertical removal of arc, the extension supporting component one in the carrier outside and extension supporting component two can take place the extrusion with the inner wall of arc according to vertical removal's distance for extension supporting component one and extension supporting component two can accomodate to the fixed plate inside, and then can make the carrier can with arc looks adaptation.

Through the design of the first extension supporting component, when the size of the pipe fitting is slightly larger than that of the fixed plate, the pipe fitting can be pressed on the first moving plate on the first extension supporting component, and then the pipe fitting can be stably supported.

Through the design of the second extension supporting component, when the size of the pipe fitting is slightly larger than the first moving plate, the pipe fitting can be pressed on the second moving plate on the second extension supporting component, and then the pipe fitting can be stably supported.

Drawings

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

FIG. 1 is a schematic perspective view of an auxiliary fixing type high frequency welding apparatus according to the present invention;

FIG. 2 is a schematic view showing a partially sectioned structure of an auxiliary fixing type high frequency welding apparatus of the present invention in front view;

FIG. 3 is a schematic view of a clamping mechanism of an auxiliary fixing type high frequency welding apparatus according to the present invention;

FIG. 4 is a schematic diagram showing the internal structure of a clamping mechanism of an auxiliary fixing type high-frequency welding apparatus according to the present invention;

FIG. 5 is a schematic diagram showing the internal structure of a clamping mechanism of an auxiliary fixing type high-frequency welding device;

FIG. 6 is a schematic diagram of the internal structure of a clamping mechanism of an auxiliary fixing type high-frequency welding device;

FIG. 7 is a schematic view of a supporting mechanism of an auxiliary fixing type high frequency welding apparatus according to the present invention;

FIG. 8 is a schematic view showing the internal structure of a carrier of an auxiliary fixing type high frequency welding apparatus according to the present invention;

FIG. 9 is a schematic top view of a carrier of an auxiliary stationary high frequency welding apparatus according to the present invention;

Fig. 10 is a schematic structural view of a turnover mechanism of an auxiliary fixing type high frequency welding apparatus according to the present invention.

In the figure, 1, a base; 2. a welding machine; 3. a vertical plate; 4. an inner cavity; 5. adjusting a motor; 6. a driving bevel gear; 7. a rotation shaft; 8. a driven bevel gear; 9. an external thread I; 10. a moving groove; 11. a nut moving block; 12. a first connecting piece; 13. a second connecting piece; 14. a work table; 15. a fixed case; 16. a through hole; 17. a ring member; 18. an external thread II; 19. an internal thread; 20. a drive gear; 21. a driving motor; 22. a support frame; 23. a movable column; 24. side bevel gears; 25. a bottom bevel gear; 26. a rotating shaft; 27. a linkage gear; 28. a first connecting plate; 29. an arc-shaped plate; 30. a groove; 31. a power spring; 32. a limiting plate; 33. a support column; 34. a carrier; 35. a positioning rod; 36. a fixing plate; 37. a first storage groove; 38. a first spring groove; 39. a first reset spring; 40. a first sliding plate; 41. a sliding column I; 42. a first moving plate; 43. a second storage groove; 44. a spring groove II; 45. a second reset spring; 46. a second sliding plate; 47. a sliding column II; 48. a second moving plate; 49. a support base; 50. a second connecting plate; 51. a driven gear; 52. an inlet and outlet hole; 53. rack plate; 54. and (5) collecting a box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the invention provides an auxiliary fixed high-frequency welding device technical scheme, which comprises a base 1 and a collecting box 54, wherein the collecting box 54 is positioned at one side of the base 1, a welding machine 2 and a vertical plate 3 are respectively arranged at two sides of the top of the base 1, an adjusting mechanism is arranged in the vertical plate 3, the output ends of the upper side and the lower side of the adjusting mechanism are respectively connected and fixed with a first connecting piece 12 and a second connecting piece 13, a first clamping mechanism is connected to the first connecting piece 12, a turnover mechanism is arranged on the second connecting piece 13, one side of the turnover mechanism is connected with a workbench 14, a second clamping mechanism is arranged on the workbench 14, and a supporting mechanism matched with the second clamping mechanism is arranged at the center of the top of the workbench 14; through the design of the invention, the pipe fittings with different sizes can be stably clamped and fixed, so that the stability of workpieces is improved, the welding accuracy is improved, and meanwhile, the welded high-temperature pipe fittings can be fully automatically unloaded, so that the high-temperature pipe fittings can be stably unloaded into the collecting tank 54 for cooling and storage.

Referring to fig. 2, the adjusting mechanism includes an inner cavity 4 formed inside the riser 3 and a moving groove 10 symmetrically formed on an outer surface of the riser 3, the moving groove 10 is communicated with the inner cavity 4, an adjusting motor 5 is arranged on one side inside the inner cavity 4, a driving bevel gear 6 is arranged at a side output end of the adjusting motor 5, a rotating shaft 7 is movably connected between the inner cavity 4 and the moving groove 10, one end of the rotating shaft 7 penetrates through the inner cavity 4 and is fixedly connected with a driven bevel gear 8, the driven bevel gear 8 is meshed with the driving bevel gear 6, the other end of the rotating shaft 7 penetrates through the moving groove 10 and is provided with an external thread one 9 on the outer surface, a nut moving block 11 is slidably connected inside the moving groove 10, the nut moving block 11 is sleeved on the external thread one 9, an upper nut moving block 11 and a lower nut moving block 11 are respectively fixedly connected with a first connecting piece 12 and a second connecting piece 13, and the upper clamping mechanism and the lower clamping mechanism are positioned in the same vertical axial direction; through adjustment mechanism's design, accommodate motor 5 drives two driven bevel gears 8 rotatory through initiative bevel gear 6, and driven bevel gear 8 drives rotation axis 7 rotatory, and rotation axis 7 drives nut movable block 11 through the screw drive of external screw thread one 9 and removes along moving groove 10, and two nut movable blocks 11 drive connecting piece one 12 and connecting piece two 13 respectively and remove in step, and connecting piece one 12 and connecting piece two 13 drive two fixture and remove.

Referring to fig. 3-6, the clamping mechanism includes a fixed housing 15, the fixed housing 15 is of a hollow structure, through holes 16 are formed in the centers of two sides of the fixed housing 15, a ring member 17 is rotatably connected to one side of the inside of the fixed housing 15, external threads 18 and internal threads 19 are respectively formed on the external surface and the internal surface of the ring member 17, the external threads 18 are meshed with a driving gear 20, the driving gear 20 is connected with the driving motor 21, the driving motor 21 is fixed in the fixed housing 15, a plurality of groups of supporting frames 22 are uniformly arranged on the inner side of the ring member 17, a movable column 23 is rotatably connected on the supporting frames 22, a connecting plate one 28 is fixed in the middle of the movable column 23, an arc 29 is fixed at the end of the connecting plate one 28, the end of the arc 29 penetrates to the outside of the fixed housing 15 through the through holes 16, a side bevel gear 24 is fixed at the end of the movable column 23, a bottom bevel gear 25 is meshed with one side of the side bevel gear 24, a rotating shaft 26 is fixed in the middle of the bottom bevel gear 25, the rotating shaft 26 is movably connected with the rotating shaft 26, and is far from the inner wall 27 of the fixed housing 15, and is meshed with the ring gear 27 in the corresponding to the inner wall 27, and the inner wall of the fixed housing 15 is meshed with the ring gear 19; through fixture's design, driving motor 21 drives driving gear 20 rotation, driving gear 20 and external screw thread two 18 meshing drive ring 17 rotation, ring 17 rotation drives the linkage gear 27 rotation through internal screw thread 19, linkage gear 27 drives bottom conical gear 25 rotation through axis of rotation 26, bottom conical gear 25 drives movable column 23 rotation through side conical gear 24, movable column 23 drives arc 29 rotation through connecting plate one 28, four arc 29 rotation regulation angles, and then adjusts the opening size that four arcs 29 formed for opening and pipe fitting's size looks adaptation.

Referring to fig. 10, the turnover mechanism includes a supporting seat 49 fixed on one side of the top of the second connecting piece 13 and an access hole 52 formed in the second connecting piece 13, a rotating shaft is rotatably connected to the supporting seat 49, a second connecting plate 50 is fixed in the middle of the rotating shaft, an end of the second connecting plate 50 is fixedly connected to the workbench 14, the end of the rotating shaft penetrates to the outer side of the supporting seat 49 and is fixedly connected to the driven gear 51, a rack plate 53 is arranged on the top of the base 1 and under the access hole 52, and the rack plate 53 is matched with the driven gear 51; through tilting mechanism's design, welding machine 2 carries out welding treatment to the butt joint end of upper pipe fitting and below pipe fitting, after the welding is accomplished, remove upper fixture and fixed to the centre gripping of upper pipe fitting, then, start reverse drive adjustment mechanism, make connecting piece one 12 and connecting piece two 13 can respectively move to two directions, connecting piece one 12 carries the fixture of top to rise and moves to idle position, connecting piece two 13 then carries the fixture of connecting piece two 13 and below to descend, when connecting piece two 13 descends and tooth board 53 contact, tooth board 53 penetrates connecting piece two 13 top through access hole 52 and contacts with driven gear 51, and then drive driven gear 51 rotation, driven gear 51 rotation drives connecting plate two 50 and workstation 14 rotation through the pivot, workstation 14 rotation drives the fixture of below and the work piece of welding are rotated, make the work piece of welding rotate the top of collecting box 54, finally, the fixture of below is released, at this moment, the work piece of welding can drop inside collecting box 54, the work piece of welding is in high temperature state, the work piece of welding can be deposited inside the collecting box 54.

Referring to fig. 7, the supporting mechanism includes a groove 30 formed at the top center of the table 14, a limiting plate 32 is slidably connected in the groove 30, a power spring 31 is disposed at the bottom of the limiting plate 32, the bottom end of the power spring 31 and the inner bottom of the groove 30 are pressed together, a supporting column 33 is fixed at the top center of the limiting plate 32, the top end of the supporting column 33 penetrates through to the upper side of the table 14 and is fixedly connected with a bearing member 34, the bearing member 34 is located in the second clamping mechanism, and a positioning rod 35 is fixed at the top center of the bearing member 34; through supporting mechanism's design to make the fixture of below can with the pipe fitting looks adaptation of different length, when the length of pipe fitting is less than the fixture of below high, at this moment, place the pipe fitting on the fixed plate 36 in the fixture of below, then, push down the pipe fitting, make the pipe fitting of below spill below fixture's open-top distance can satisfy the welding demand, prevent that the pipe fitting from spilling below fixture's distance can't satisfy the welding demand, adjust the back, carry out the centre gripping to the pipe fitting through below fixture and fix.

Referring to fig. 8-9, the carrier 34 includes a fixing plate 36, where a bottom center of the fixing plate 36 is fixedly connected to a top of the supporting column 33, and a first extending support component and a second extending support component are disposed on a side edge of the fixing plate 36 in a circumferential direction; through the design of the bearing piece 34, when the pipe fitting presses the bearing piece 34 to vertically move in the arc 29, the first extending support component and the second extending support component outside the bearing piece 34 can be extruded with the inner wall of the arc 29 according to the vertical moving distance, so that the first extending support component and the second extending support component can be stored in the fixing plate 36, and the bearing piece 34 can be matched with the arc 29.

Referring to fig. 8-9, the first extension supporting component includes a first storage groove 37 uniformly formed on the circumferential outer surface of the fixed plate 36, a first spring groove 38 is formed in the first storage groove 37, a first sliding plate 40 is slidably connected in the first spring groove 38, a second return spring 39 is formed on one side of the first sliding plate 40, the first return spring 39 is extruded with the first spring groove 38, a first sliding column 41 is fixed on the other side of the first sliding plate 40, the end of the first sliding column 41 penetrates through to the outer side of the fixed plate 36 and is fixedly connected with the first sliding plate 42, through the design of the first extension supporting component, when the size of a pipe is slightly larger than that of the fixed plate 36, the pipe is pressed on the first sliding plate 42 on the first extension supporting component, so that the pipe can be stably supported, the second extension supporting component includes a second storage groove 43 uniformly formed on the circumferential outer surface of the fixed plate 36, a second spring groove 44 is formed in the second storage groove 43, a second sliding plate 46 is slidably connected in the second sliding plate 44, one side of the second sliding plate 46 is provided with a sliding column 41, the second return spring 45 penetrates through the outer side of the second sliding plate 45, and is fixedly connected with the second sliding plate 48 through the second sliding plate 45, and is stably pressed on the second sliding plate 47 when the second sliding plate 48 is fixedly connected with the second sliding plate 48, and the second sliding plate is stably pressed on the second sliding plate.

When the welding fixture is used, two pipe fittings are respectively placed in an upper clamping mechanism and a lower clamping mechanism, namely, firstly, the lower pipe fitting is placed on a fixing plate 36, a positioning rod 35 is positioned in the pipe fitting, then, the pipe fitting is pressed down, so that the distance of the lower pipe fitting exposed out of the top opening of the lower clamping mechanism can meet the welding requirement, then, the lower pipe fitting is clamped and fixed by adjusting the size of the top opening of the lower clamping mechanism, then, the size of the opening of the upper clamping mechanism is adjusted, so that the size of the opening is slightly larger than that of the upper pipe fitting, the upper pipe fitting is inserted into the upper clamping mechanism, the upper pipe fitting can be stably and vertically lowered under the guide of the opening, the bottom end of the upper pipe fitting can be matched with the top end of the lower pipe fitting, and the lower pipe fitting can be stably and accurately butted;

The driving process of the clamping mechanism is as follows, the driving motor 21 drives the driving gear 20 to rotate, the driving gear 20 is meshed with the external thread II 18 to drive the annular piece 17 to rotate, the annular piece 17 rotates to drive the linkage gear 27 to rotate through the internal thread 19, the linkage gear 27 drives the bottom conical gear 25 to rotate through the rotating shaft 26, the bottom conical gear 25 drives the movable column 23 to rotate through the side conical gear 24, the movable column 23 drives the arc plates 29 to rotate through the first connecting plate 28, the four arc plates 29 rotate to adjust angles, and then the size of an opening formed by the four arc plates 29 is adjusted, so that the opening is matched with the size of a pipe fitting;

Then, the height of the upper clamping mechanism and the lower clamping mechanism is adjusted through the adjusting mechanism, so that the positions of the upper pipe fitting and the lower pipe fitting are adjusted, the butt joint part of the two pipe fittings can be moved to the welding end of the welding machine 2, namely, the adjusting motor 5 is started, the adjusting motor 5 drives the two driven bevel gears 8 to rotate through the driving bevel gears 6, the driven bevel gears 8 drive the rotating shafts 7 to rotate, the rotating shafts 7 drive the nut moving blocks 11 to move along the moving grooves 10 through the threaded drive of the external threads 9, the two nut moving blocks 11 respectively drive the first connecting piece 12 and the second connecting piece 13 to synchronously move, and the first connecting piece 12 and the second connecting piece 13 drive the two clamping mechanisms to move;

The welding machine 2 performs welding treatment on the butt joint ends of the upper pipe fitting and the lower pipe fitting, after welding is finished, the upper clamping mechanism is released to clamp and fix the upper pipe fitting, then, the reverse driving adjusting mechanism is started, so that the first connecting piece 12 and the second connecting piece 13 can respectively move towards two directions, the first connecting piece 12 is lifted to an idle position with the upper clamping mechanism, the second connecting piece 13 is lowered with the second connecting piece 13 and the lower clamping mechanism, when the second connecting piece 13 is lowered to be contacted with the rack plate 53, the rack plate 53 penetrates into the upper part of the second connecting piece 13 through the inlet and outlet holes 52 and is contacted with the driven gear 51, the driven gear 51 is driven to rotate, the driven gear 51 rotates to drive the second connecting plate 50 and the workbench 14 to rotate through the rotating shaft, the workbench 14 rotates to drive the lower clamping mechanism and the welded workpiece to rotate, so that the welded workpiece rotates to the upper opening of the top of the collecting box 54, and finally, the welded workpiece falls into the inside the collecting box 54, and the welded workpiece is cooled inside the collecting box 54;

Then, the first connecting piece 12 and the second connecting piece 13 are driven to synchronously move towards the middle of the vertical plate 3 through the adjusting mechanism and move to a first starting position, so that the second connecting piece 13 can ascend to be separated from the rack plate 53, in the ascending and separating process of the second connecting piece 13, the driven gear 51 can reversely walk along the rack plate 53, the workbench 14 is driven to rotate, the workbench 14 is further enabled to rotate and reset to move to the top of the second connecting piece 13, the workbench 14 is further enabled to be stably placed at the top of the second connecting piece 13, and then welding work of a next pipe fitting can be waited.

Although the present disclosure describes embodiments, not every embodiment is described in terms of a single embodiment, and such description is for clarity only, and one skilled in the art will recognize that the embodiments described in the disclosure as a whole may be combined appropriately to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides an auxiliary fixation type high-frequency welding equipment, its characterized in that, includes base (1) and collection box (54), collection box (54) are located base (1) one side, base (1) top both sides are equipped with welding machine (2) and riser (3) respectively, riser (3) inside is equipped with adjustment mechanism, adjustment mechanism's upper and lower both sides output is fixed with connecting piece one (12) and connecting piece two (13) respectively, be connected with first fixture on connecting piece one (12), be equipped with tilting mechanism on connecting piece two (13), one side and workstation (14) of tilting mechanism are connected, be equipped with the second on workstation (14) clamping mechanism, the top center department of workstation (14) is equipped with the second clamping mechanism matched with supporting mechanism.

2. The auxiliary fixed high-frequency welding equipment according to claim 1, wherein the adjusting mechanism comprises an inner cavity (4) formed in the vertical plate (3) and a moving groove (10) symmetrically formed in the outer surface of the vertical plate (3), the moving groove (10) is communicated with the inner cavity (4), an adjusting motor (5) is arranged on one side of the inner cavity (4), a driving bevel gear (6) is arranged at the side output end of the adjusting motor (5), a rotating shaft (7) is movably connected between the inner cavity (4) and the moving groove (10), one end of the rotating shaft (7) penetrates into the inner cavity (4) and is fixedly connected with a driven bevel gear (8), the driven bevel gear (8) is meshed with the driving bevel gear (6), the other end of the rotating shaft (7) penetrates into the inner portion of the moving groove (10) and the outer surface of the moving groove is provided with an external thread one (9), the moving block (11) is connected with the moving block (11) in a sliding mode, and the nut moving block (11) is sleeved on the external thread one (9).

3. The auxiliary fixing type high-frequency welding equipment according to claim 2, wherein the upper nut moving block (11) and the lower nut moving block are respectively connected and fixed with the first connecting piece (12) and the second connecting piece (13), and the upper clamping mechanism and the lower clamping mechanism are positioned in the same vertical axial direction.

4. An auxiliary fixing type high-frequency welding apparatus according to claim 3, wherein the clamping mechanism comprises a fixing shell (15), the fixing shell (15) is of a hollow structure, through holes (16) are formed in the centers of two sides of the fixing shell (15), an annular member (17) is rotatably connected to one side of the inside of the fixing shell (15), an external thread two (18) and an internal thread (19) are respectively arranged on the outer side surface and the inner side surface of the annular member (17), the external thread two (18) are meshed with a driving gear (20), the driving gear (20) is connected with a driving motor (21), and the driving motor (21) is fixed inside the fixing shell (15).

5. The auxiliary fixing type high-frequency welding equipment according to claim 4, wherein a plurality of groups of supporting frames (22) are uniformly arranged on the inner side of the annular piece (17), a movable column (23) is connected to the supporting frames (22) in a rotating mode, a connecting plate (28) is fixed to the middle of the movable column (23), an arc-shaped plate (29) is fixed to the end portion of the connecting plate (28), the end portion of the arc-shaped plate (29) penetrates through the through hole (16) to the outer side of the fixed shell (15), a side bevel gear (24) is fixed to the end portion of the movable column (23), a bottom bevel gear (25) is meshed with one side of the side bevel gear (24), a rotating shaft (26) is fixed to the middle of the bottom bevel gear (25), the rotating shaft (26) is movably connected to the inner portion of the fixed shell (15), the rotating shaft (26) is far away from the bottom bevel gear (25), one side of the linkage gear (27) is fixed, and the linkage gear (27) is meshed with the internal thread (19).

6. An auxiliary fixing type high-frequency welding apparatus according to claim 5, wherein an annular chute matched with the annular member (17) is formed on the inner wall of the fixing case (15), and the arc plates (29) in the upper and lower clamping mechanisms face each other.

7. The auxiliary fixing type high-frequency welding equipment according to claim 6, wherein the turnover mechanism comprises a supporting seat (49) fixed on one side of the top of the second connecting piece (13) and an inlet and outlet hole (52) formed in the second connecting piece (13), a rotating shaft is rotatably connected to the supporting seat (49), a second connecting plate (50) is fixed in the middle of the rotating shaft, the end portion of the second connecting plate (50) is fixedly connected with the workbench (14), the end portion of the rotating shaft penetrates through the outer side of the supporting seat (49) and is fixedly connected with the driven gear (51), a rack plate (53) is arranged at the top of the base (1) and located under the inlet and outlet hole (52), and the rack plate (53) is matched with the driven gear (51).

8. The auxiliary fixing type high-frequency welding equipment according to claim 7, wherein the supporting mechanism comprises a groove (30) formed in the center of the top of the workbench (14), a limiting plate (32) is slidably connected in the groove (30), a power spring (31) is arranged at the bottom of the limiting plate (32), the bottom end of the power spring (31) and the inner bottom of the groove (30) are extruded together, a supporting column (33) is fixed in the center of the top of the limiting plate (32), the top end of the supporting column (33) penetrates through the upper portion of the workbench (14) and is fixedly connected with a bearing piece (34), the bearing piece (34) is located in the second clamping mechanism, and a positioning rod (35) is fixed in the center of the top of the bearing piece (34).

9. The auxiliary fixing type high-frequency welding apparatus as claimed in claim 8, wherein the carrier (34) comprises a fixing plate (36), the bottom center of the fixing plate (36) is fixedly connected with the top of the supporting column (33), and the side edge of the fixing plate (36) in the circumferential direction is provided with an extension supporting component I and an extension supporting component II.

10. The auxiliary fixing type high-frequency welding equipment according to claim 9, wherein the first extension supporting component comprises a first storage groove (37) uniformly formed on the circumferential outer surface of the fixed plate (36), a first spring groove (38) is formed inside the first storage groove (37), a first sliding plate (40) is slidably connected inside the first spring groove (38), a first return spring (39) is arranged on one side of the first sliding plate (40), the first return spring (39) is extruded with the first spring groove (38), a first sliding column (41) is fixed on the other side of the first sliding plate (40), the end portion of the first sliding column (41) penetrates through to the outer side of the fixed plate (36) and is fixedly connected with the first moving plate (42), the second extension supporting component comprises a second storage groove (43) uniformly formed on the circumferential outer surface of the fixed plate (36), a second spring groove (44) is formed inside the second storage groove (43), a second sliding plate (46) is slidably connected inside the second spring groove (44), a second sliding plate (46) is arranged on one side of the second sliding plate (46), a second return spring (45) is arranged on the other side of the second sliding plate (45), the second sliding plate (45) is extruded with the second sliding plate (46), the other end of the second sliding column (47) penetrates through the outer side of the fixed plate (36) and is fixedly connected with the second moving plate (48).