CN115846995B - Large-scale automatic welding turning device - Google Patents

Abstract

The invention provides a large-scale automatic welding turnover device, which belongs to the technical field of welding processing and comprises a base; the turnover frame can be used for placing parts and is rotated on the base, and when the turnover frame rotates, the parts placed on the turnover frame can be driven to turn; the bearing frame is hinged at the rotating shafts of the turnover frame and the base and is movably arranged with the base, and the turnover frame can turn over parts onto the bearing frame; the driving assembly is arranged on the base and can drive the turnover frame and the bearing frame to rotate in opposite directions; the translation component is arranged on the bearing frame, and when the component is positioned on the bearing frame, the translation component can convey the component to the turnover frame; the device can realize that the work piece of multiple shape and size change carries out ninety degrees and one hundred eighty degrees upset, need not to press from both sides tightly and hoist and mount when overturning to it is comparatively convenient to use, also can effectual save time and manpower simultaneously.

Description

Large-scale automatic welding turning device

Technical Field

The invention belongs to the technical field of welding processing, and particularly relates to a large-scale automatic welding turnover device.

Background

Welding, also known as fusion welding, is a process and technique for joining metals or other thermoplastic materials, such as plastics, by means of heat, high temperature or high pressure.

In the existing welding process, in order to more comprehensively weld workpieces, the workpieces are required to be overturned, the welding of small parts is usually carried out manually, but for welding of heavier large parts, a crane is usually adopted to hoist and then overturned the parts, so that each time the parts are overturned, time is wasted, some manufacturers can adopt some overturners, such as a website https:// www.ixigua.com/6993470916474700329 adopts the overturner to overturn, when the parts need to be overturned for 180 degrees, the parts need to be overturned for two times, and when the parts need to be overturned for the second time, after the parts need to be detached from the overturner, the overturner is reset, and then the overturned parts are placed on the overturner to be overturned for two times, so that the overturner can be troublesome and time-consuming and labor-consuming when the overturned for 180 degrees.

Disclosure of Invention

The invention aims to provide a large-scale automatic welding turnover device, and aims to solve the problems that a turnover machine in the prior art is troublesome when turned 180 degrees and is time-consuming and labor-consuming.

In order to achieve the above purpose, the present invention provides the following technical solutions: large-scale automatic welding turning device includes:

A base;

the turnover frame can be used for placing parts and is rotated on the base, and when the turnover frame rotates, the parts placed on the turnover frame can be driven to turn;

The bearing frame is hinged at the rotating shafts of the turnover frame and the base and is movably arranged with the base, and the turnover frame can turn over parts onto the bearing frame;

the driving assembly is arranged on the base and can drive the turnover frame and the bearing frame to rotate in opposite directions;

and the translation part is arranged on the bearing frame, and when the parts are positioned on the bearing frame, the translation part can convey the parts to the turnover frame.

In order to enable the large-sized automatic welding turnover device to have the function of driving the turnover frame and the bearing frame to rotate in opposite directions, as a preferable mode of the invention, the driving assembly comprises an annular gear arranged on the turnover frame, the annular gear is concentric with a rotating shaft of the turnover frame, a gear meshed with the annular gear is rotatably connected on the base, a first driving device for driving the gear to rotate is arranged on the base, an arc-shaped plate is arranged on the bearing frame, the arc-shaped plate is concentric with the rotating shaft of the bearing frame, an angle compensation device for enabling the rotating angle of the turnover frame and the bearing frame to have an angle difference is arranged at the edge of the arc-shaped plate, the angle compensation device is adjustable, and the gear drives the bearing frame to turn through the angle compensation device.

In order to enable the large-scale automatic welding turnover device to have the function of enabling the turnover frame and the bearing frame to rotate sequentially, as the invention is preferable, the angle compensation device comprises an arc-shaped frame sliding at the edge of the arc-shaped plate, an outer ring gear meshed with a gear is arranged at the outer circle of the arc-shaped frame, an adjusting top strip is connected inside the arc-shaped frame in a sliding mode, inclined teeth are arranged on the adjusting top strip, a worm matched with the inclined teeth is arranged on the arc-shaped frame, and the worm rotates on the arc-shaped frame.

In order to enable the large-scale automatic welding turnover device to have the effect of moving parts on the bearing frame to the turnover frame, as a preferable mode of the invention, the translation part comprises a contact part and a driving part, the contact part consists of a plurality of first rollers which are horizontally arranged, the first rollers can be directly contacted with the parts, the driving part comprises a chain arranged on the first rollers, chain wheels which are matched with the chain are arranged on the first rollers below the bearing frame and at the two ends of the bearing frame, and a second driving device for driving the chain wheels to rotate is arranged on the bearing frame.

In order to enable the large-scale automatic welding turnover device to have a better function of moving parts onto the turnover frame, as a preferable mode of the large-scale automatic welding turnover device, the chain is a plurality of rows of chains, rubber bodies are arranged on the chains, chain pins of the chains extend to the inner parts of the rubber bodies, the surfaces of the rubber bodies are higher than the first rolling shafts, the parts enable the rubber bodies to be compressed through gravity and contact with the first rolling shafts, and anti-skidding patterns are arranged on the rubber bodies.

In order to enable the large-scale automatic welding turnover device to have the function of facilitating angle adjustment, the adjustment top strip is preferably provided with scale marks.

In order to enable the large-scale automatic welding turnover device to have the function of reducing friction force on parts and the turnover frame, the turnover frame is rotatably connected with a second roller, and the second roller is flush with the first roller in height.

In order to enable the large-scale automatic welding turnover device to have the function of supporting the turnover frame, as a preferable mode of the invention, the base is provided with the arc-shaped groove, a third rolling shaft is arranged in the arc-shaped groove in a circular array, and the annular gear is in contact with the third rolling shaft.

In order to enable the large-scale automatic welding turnover device to have the function of facilitating rotation of the worm, one end of the worm is preferably provided with an adjusting nut.

In order to enable the large-scale automatic welding turnover device to have the function of installing the turnover frame on the base, the base is preferably provided with a connecting part, the connecting part is connected to the rotating shaft of the turnover frame through a flange plate, and the connecting part is connected with the flange plate through a bearing.

Compared with the prior art, the invention has the beneficial effects that:

This large-scale automatic welding turning device, firstly place the spare part that needs to overturn on the roll-over stand, afterwards, the roll-over stand rotates certain angle back and accepts the frame and rotate to the opposite direction, make roll-over stand and accept the one side that the frame contacted with the spare part and be close to each other, make roll-over stand and accept the one side that the frame contacted with the spare part and be ninety degrees, the roll-over stand overturns the spare part to accept on the frame this moment, afterwards make roll-over stand and accept the frame reset, the spare part of this moment has overturned ninety degrees, when needs to continue the upset, remove the spare part again to the roll-over stand through translation part, the device can realize that the work piece of multiple shape and size change carries out ninety degrees and one hundred eighty degrees upset, need not clamp and hoist during the upset, thereby it is comparatively convenient to use, time and manpower can also be effectual simultaneously.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is an isometric cross-sectional view of an embodiment of the invention;

FIG. 3 is a schematic view of a structure of a receiving rack according to an embodiment of the present invention;

FIG. 4 is a schematic view of a roll-over stand according to an embodiment of the present invention;

FIG. 5 is a schematic view showing the installation structure of a chain and a rubber body in an embodiment of the present invention;

FIG. 6 is a schematic view of an adjusting top bar according to an embodiment of the present invention;

FIG. 7 is a schematic view of the first and second sections in the inverted configuration of the embodiment of the present invention;

Fig. 8 is a schematic structural view of the second and third parts when the embodiment of the present invention is turned over.

In the figure: 1. a base; 2. a roll-over stand; 21. an inner gear ring; 3. a bearing frame; 31. an arc-shaped plate; 4. a drive assembly; 41. a gear; 42. a first driving device; 43. an angle compensation device; 431. an arc-shaped frame; 432. an outer ring gear; 433. adjusting the top strip; 4331. scale marks; 434. helical teeth; 435. a worm; 5. a translation member; 51. a contact portion; 52. a driving part; 53. a first roller; 54. a chain; 55. a sprocket; 56. a second driving device; 57. a rubber body; 58. a chain pin; 6. a second roller; 7. an arc-shaped groove; 8. a third roller; 9. a connecting member; 10. a flange plate; 11. and adjusting the nut.

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. 1-2, the present invention provides the following technical solutions: large-scale automatic welding turning device includes: a base 1; the base 1 is arranged on the ground, the ground can be fixed through the fixing device, the turnover frame 2 can be used for placing parts and the parts are rotated on the base 1, so that the turnover frame 2 and the base 1 relatively move, and when the turnover frame 2 rotates, the parts placed on the turnover frame can be driven to turn, and the parts can slide on the turnover frame 2; the surface of the bearing frame 3 can be used for bearing parts, the bearing frame 3 is hinged at the rotating shafts of the turnover frame 2 and the base 1, so that the rotating shafts of the turnover frame 2 and the bearing frame 3 are the same axis and are movably arranged with the base 1, when the bearing frame 3 turns over, the bearing frame 3 moves relatively to the base 1, and the turnover frame 2 can turn over the parts onto the bearing frame 3; the driving component 4 is arranged on the base 1, the driving component 4 firstly drives the roll-over stand 2 to rotate for a certain angle and then drives the bearing frame 3 to rotate, so that the driving component 4 drives the roll-over stand 2 and the bearing frame 3 to rotate in opposite directions, the driving component 4 can enable one surfaces of the roll-over stand 2 and the bearing frame 3, which are in contact with parts, to be close to each other, and enable one surfaces of the roll-over stand 2 and the bearing frame 3, which are in contact with the parts, to be ninety degrees, at the moment, the roll-over stand 2 is larger than the bearing frame 3 in terms of rotation angle, so that the gravity point of the parts can cross the rotation axis of the roll-over stand 2, and then the roll-over stand 2 and the bearing frame 3 are reset, so that the parts can be turned over; and the translation part 5 is arranged on the carrying frame 3, and when the parts are positioned on the carrying frame 3, the translation part 5 can convey the parts to the turnover frame 2.

In the specific embodiment of the invention, firstly, the parts to be turned are placed on the turning frame 2, then the turning frame 2 rotates for a certain angle and then the carrying frame 3 rotates in the opposite direction, so that the surfaces of the turning frame 2 and the carrying frame 3, which are contacted with the parts, are close to each other, the surfaces of the turning frame 2 and the carrying frame 3, which are contacted with the parts, are ninety degrees, at the moment, the turning frame 2 turns the parts onto the carrying frame 3, then the turning frame 2 and the carrying frame 3 are reset, at the moment, the parts are turned ninety degrees, when the turning is needed, the parts are moved onto the turning frame 2 again through the translation part 5, the device can realize the turning of the parts with various shapes and sizes, and the turning is free from clamping and lifting, so that the device is convenient to use, and meanwhile, the time and the labor can be effectively saved.

Specifically, referring to fig. 2-4, the driving assembly 4 includes an inner gear ring 21 disposed on the roll-over stand 2, the inner gear ring 21 and the roll-over stand 2 are integrally formed, rotation axes of the inner gear ring 21 and the roll-over stand 2 are concentric, a gear 41 engaged with the inner gear ring 21 is rotatably connected to the base 1, when the gear 41 rotates, the inner gear ring 21 can be driven to rotate, the rotation of the inner gear ring 21 can drive the roll-over stand 2 to turn over, a first driving device 42 for driving the gear 41 to rotate is disposed on the base 1, the first driving device 42 is a motor and can drive the gear 41 to rotate, an arc plate 31 is disposed on the support 3, the arc plate 31 and the support 3 are integrally formed, rotation axes of the arc plate 31 and the support 3 are concentric, an angle compensating device 43 for making rotation angles of the roll-over stand 2 and the support 3 have angle difference is disposed at edges of the arc plate 31, the angle compensating device 43 is adjustable, the angle compensation device 43 can adjust the difference between the rotation angles of the roll-over stand 2 and the receiving stand 3 according to the shapes of parts, after adjustment, when the roll-over stand 2 and the receiving stand 3 are ninety degrees, the action point of the gravity of the parts can be enabled to cross the rotation axis of the roll-over stand 2, and above the receiving stand 3, as shown in fig. 8 and a3, the action point of the gravity of the parts is located above the receiving stand 3, when the roll-over stand 2 and the receiving stand 3 are reset, the parts will be located on the receiving stand 3 through the action of gravity, the gear 41 drives the receiving stand 3 to turn over through the angle compensation device 43, the driving component 4 can also be two hydraulic cylinders (not shown in the drawing) which are independently controlled, one end of each hydraulic cylinder is arranged on the base, the other end of each hydraulic cylinder is respectively connected with the roll-over stand 2 and the receiving stand 3, the roll-over stand 2 and the receiving stand 3 can be pushed to turn over through the expansion and contraction of the hydraulic cylinders, meanwhile, the rotation angle difference of the roll-over stand 2 and the bearing stand 3 can be controlled by controlling the independent hydraulic cylinders.

Specifically, referring to fig. 2-3, the angle compensation device 43 includes an arc frame 431 sliding on the edge of the arc plate 31, the arc frame 431 and the arc plate 31 are concentrically arranged, an outer ring 432 meshed with the gear 41 is disposed on the outer circle of the arc frame 431, when the gear 41 rotates, the outer ring 432 can be driven to rotate, an adjusting top bar 433 is slidingly connected to the inner part of the arc frame 431, a chute is disposed in the inner part of the arc frame 431, the adjusting top bar 433 slides in the chute, an inclined tooth 434 is disposed on the adjusting top bar 433, a worm 435 matched with the inclined tooth 434 is disposed on the arc frame 431, the worm 435 rotates on the arc frame 431, and the worm 435 and the adjusting top bar 433 are matched to enable the adjusting top bar 433 to slide in the inner part of the arc frame 431, and when the adjusting top bar 433 is pressed, the adjusting top bar 433 contracts inwards of the arc frame 431, and the difference of the rotating angle of the adjusting top bar 2 and the adjusting top bar 433 can be controlled by adjusting the telescopic adjustment top bar 433.

Specifically, referring to fig. 1,2 and 5, the translating member 5 includes a contact portion 51 and a driving member 52, the contact portion 51 is used for contacting with a component, the driving member 52 is used for driving the translating member 5 to operate, the contact portion 51 is composed of a plurality of first rollers 53 disposed horizontally, the diameters of the plurality of first rollers 53 are the same, the plurality of first rollers 53 are all rotated on the bearing frame 3, the first rollers 53 can directly contact with the component, when the component moves, friction force can be effectively reduced through rotation of the first rollers 53, the driving member 52 includes a chain 54 disposed on the first rollers 53, a sprocket 55 adapted to the chain 54 is disposed on the first rollers 53 below and at two ends of the bearing frame 3, a second driving device 56 for driving the sprocket 55 to rotate is disposed on the bearing frame 3, when the second driving device 56 operates, the sprocket 56 can drive the sprocket 54 to move, and the sprocket 54 moves and cooperates with the sprocket on the first roller 53, thereby driving the first roller 53 to rotate, and the component can be translated by the first roller 53.

Specifically, referring to fig. 5, the chain 54 is a multi-row chain, the bearing force of the chain can be increased by arranging the chain into a multi-row chain, the rubber body 57 is arranged on the chain 54, the chain pin 58 of the chain 54 extends into the rubber body 57, the rubber body 57 and the chain 54 can be prevented from being separated by extending the chain pin 58 into the rubber body 57, the surface of the rubber body 57 is higher than the first roller 53, the rubber body 57 is compressed by gravity and is contacted with the first roller 53, the rubber body 57 is provided with anti-skid patterns, when the part is placed on the bearing frame 3, the rubber body 57 is compressed and then contacted with the first roller 53, the rubber body 57 can be mobilized to move by moving the chain 54, and the part can be driven to move by friction force between the rubber body 57 and the part.

Further, referring to fig. 6, the adjustment top bar 433 is provided with graduation marks 4331, which are more convenient for adjusting the extending length of the adjustment top bar 433 by providing graduation marks on the adjustment top bar 433.

Further, the roll-over stand 2 is rotatably connected with the second roller 6, the second roller 6 is flush with the first roller 53, and when the parts on the bearing stand 3 move to the roll-over stand 2, the friction force between the parts and the support of the roll-over stand 2 can be reduced through the second roller 6.

Further, an arc groove 7 is formed in the base 1, a third rolling shaft 8 is arranged in the arc groove 7 in a circular array, an inner gear ring 21 is in contact with the third rolling shaft 8, the inner gear ring 21 is in contact with the inner gear ring 21 through the third rolling shaft 8, and in addition, the inner gear ring 21 and the roll-over stand 2 are integrally formed, so that the third rolling shaft 8 can support the roll-over stand 2 in a moving mode.

Further, one end of the worm 435 is provided with an adjusting nut 11, by means of which adjusting nut 11 the rotation of the worm 435 can be used.

Further, a connecting part 9 is arranged on the base 1, the connecting part 9 is connected to the rotating shaft of the roll-over stand 2 through a flange plate 10, and the connecting part 9 is connected with the flange plate 10 through a bearing.

Working principle:

As shown in a1 in fig. 7, firstly, the parts are placed on the turnover frame 2 of the equipment, then the length of the extension of the adjusting top bar 433 is roughly adjusted according to the shape of the parts, as shown in a2 in fig. 7, the first driving device 42 is started, the first driving device 42 drives the gear 41 to rotate, the gear 41 drives the inner gear ring 21 to rotate, the turnover frame 2 can be rotated through the integral forming of the inner gear ring 21 and the turnover frame 2, the arc frame 431 is driven to slide on the arc plate 31 by the other side of the gear 41, when the adjusting top bar 433 is propped against the bottom of the supporting frame 3, the gear 41 drives the supporting frame 3 to rotate through driving the arc frame 431, as shown in a3 in fig. 8, if the gravity point of the parts is on the supporting frame 3, the reset parts of the turnover frame 2 and the supporting frame 3 fall on the supporting frame 3 through the action of gravity, if the gravity point is on the turnover frame 2 and the supporting frame 3 are reset, the adjusting top bar 433 is reset, the second rolling device is driven to rotate by the chain 54 after the adjusting top bar is reset, and the chain is driven to rotate by 90 degrees, and the chain is driven to rotate by the second rolling device 54, and the chain can rotate by the adjusting top bar 54 to rotate by the second rolling device by the rotation of the adjusting top bar 54 degrees after the adjusting top bar is rotated by 90 degrees.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

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. Any reference sign in a claim should not be construed as limiting the claim concerned.

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 (4)

1. Large-scale automatic welding turning device, its characterized in that includes:

a base (1);

The turnover frame (2) can be used for placing parts and is rotated on the base (1), and when the turnover frame (2) rotates, the parts placed on the turnover frame can be driven to turn;

the bearing frame (3) is hinged at the rotating shafts of the turnover frame (2) and the base (1) and is movably arranged with the base (1), and the turnover frame (2) can turn over parts onto the bearing frame (3);

The driving assembly (4) is arranged on the base (1), and the driving assembly (4) can drive the turnover frame (2) and the bearing frame (3) to rotate in opposite directions;

the translation part (5) is arranged on the carrying frame (3), and when the parts are positioned on the carrying frame (3), the translation part (5) can convey the parts to the turnover frame (2);

The driving assembly (4) comprises an annular gear (21) arranged on the turnover frame (2), the annular gear (21) is concentric with a rotating shaft of the turnover frame (2), a gear (41) meshed with the annular gear (21) is rotatably connected to the base (1), a first driving device (42) for driving the gear (41) to rotate is arranged on the base (1), an arc plate (31) is arranged on the bearing frame (3), the arc plate (31) is concentric with the rotating shaft of the bearing frame (3), an angle compensating device (43) for enabling the rotating angle of the turnover frame (2) and the bearing frame (3) to have an angle difference is arranged at the edge of the arc plate (31), the angle compensating device (43) is adjustable, and the gear (41) drives the bearing frame (3) to turn over through the angle compensating device (43).

The angle compensation device (43) comprises an arc-shaped frame (431) sliding at the edge of the arc-shaped plate (31), an outer ring gear (432) meshed with the gear (41) is arranged at the outer circle of the arc-shaped frame (431), an adjusting top strip (433) is connected inside the arc-shaped frame (431) in a sliding mode, an inclined tooth (434) is arranged on the adjusting top strip (433), a worm (435) matched with the inclined tooth (434) is arranged on the arc-shaped frame (431), and the worm (435) rotates on the arc-shaped frame (431);

The translation part (5) comprises a contact part (51) and a driving part (52), the contact part (51) consists of a plurality of first rollers (53) which are horizontally arranged, the first rollers (53) can be directly contacted with parts, the driving part (52) comprises a chain (54) which is arranged on the first rollers (53), chain wheels (55) which are matched with the chain (54) are arranged below the bearing frame (3) and on the first rollers (53) at the two ends, and a second driving device (56) which is used for driving the chain wheels (55) to rotate is arranged on the bearing frame (3);

The chain (54) is a multi-row chain, a rubber body (57) is arranged on the chain (54), a chain pin (58) of the chain (54) extends into the rubber body (57), the surface of the rubber body (57) is higher than the first roller (53), parts enable the rubber body (57) to be compressed and contact with the first roller (53) through gravity, and anti-skid patterns are arranged on the rubber body (57);

the adjusting top strip (433) is provided with scale marks (4331);

The turnover frame (2) is rotatably connected with a second rolling shaft (6), and the second rolling shaft (6) is flush with the first rolling shaft (53).

2. The large automated welding turnover device of claim 1, wherein: an arc groove (7) is formed in the base (1), a third rolling shaft (8) is arranged in the arc groove (7) in a circular array, and the annular gear (21) is in contact with the third rolling shaft (8).

3. The large automated welding turnover device of claim 1, wherein: one end of the worm (435) is provided with an adjusting nut (11).

4. A large automated welding turnover device according to any one of claims 1-3 and wherein: the base (1) is provided with a connecting part (9), the connecting part (9) is connected to the rotating shaft of the turnover frame (2) through a flange plate (10), and the connecting part (9) is connected with the flange plate (10) through a bearing.