CN211991612U - Welding operation platform capable of automatically demolding, welding mold and welding system - Google Patents

Abstract

The application discloses but welding operation platform, welding mould and welding system of automatic demoulding, wherein, but welding operation platform of automatic demoulding includes braced frame, welding operation platform still includes: the transverse moving piece is provided with a first inclined plane; a traverse driving mechanism mounted on the support frame and linked with the traverse member; the lifting piece is in sliding fit with the supporting frame and is provided with a second inclined surface which is acted with the first inclined surface, so that the movement of the transverse moving piece is reversed to the movement of the lifting piece; the material pushing part is linked with the lifting part at the bottom end and used for lifting the welding workpiece to separate from the welding die at the top end. The application provides a but welding operation platform, welding mould and welding system of automatic demoulding steadily demold, reduces the deformation, alleviates workman intensity of labour, improves production efficiency.

Description

Welding operation platform capable of automatically demolding, welding mold and welding system

Technical Field

The application relates to the technical field of welding, in particular to a welding operation table, a welding mold and a welding system capable of automatically demolding.

Background

The escalator steps move in parallel along the rails, the operation comfort is related to the manufacturing and mounting precision of the rails, and in order to ensure the manufacturing precision of the escalator rail components, the rails at the upper head part and the lower head part of the escalator all adopt a base plate to be welded with the rail components to form a welding workpiece. In order to ensure the position precision of the welding track, the welding mould adopts a fixed form, but the welding workpiece is easy to deform due to unbalanced force when being demoulded, and the precision of the welding workpiece is further influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a welding operation table, a welding die, and a welding system capable of automatically releasing a welding workpiece from a mold in order to solve a technical problem that the welding workpiece is easily deformed by unbalanced force when the welding workpiece is released from the mold.

In order to achieve the purpose, the following technical scheme is adopted in the application: an automatically de-moldable welding station comprising a support frame, said welding station further comprising:

the transverse moving piece is provided with a first inclined plane;

a traverse driving mechanism mounted on the support frame and linked with the traverse member;

the lifting piece is in sliding fit with the supporting frame and is provided with a second inclined surface which is acted with the first inclined surface, so that the movement of the transverse moving piece is reversed to the movement of the lifting piece;

the material pushing part is linked with the lifting part at the bottom end and used for lifting the welding workpiece to separate from the welding die at the top end.

Several alternatives are provided below, but not as an additional limitation to the above general solution, but merely as a further addition or preference, each alternative being combinable individually for the above general solution or among several alternatives without technical or logical contradictions.

Optionally, the bottom of the supporting frame is fixedly provided with a lower bearing plate, the top of the supporting frame is fixedly provided with an upper cover plate, the bottom surface of the traverse member is provided with a first guide seat in sliding fit with the top surface of the lower bearing plate, and the top surface of the traverse member is provided with a second guide seat in sliding fit with the bottom surface of the upper cover plate.

Optionally, the first guide seat and the second guide seat are a plurality of positioning plates arranged at intervals respectively.

Optionally, the traverse driving mechanism is an oil cylinder with a cylinder body arranged horizontally, and a piston rod of the oil cylinder is connected with the side edge of the traverse member.

Optionally, in the moving direction of the traverse member, two sets of traverse driving mechanisms are provided, and are respectively located at two sides of the traverse member.

Optionally, a vertically arranged guide rail is arranged in the support frame, and a guide slot matched with the guide rail is formed in a side edge of the lifting piece.

Optionally, in the moving direction of the traverse member, two sets of guide rails are arranged, and are respectively located on two sides of the traverse member.

Optionally, the traverse member is plate-shaped and is provided with one or more avoidance ports, each avoidance port is strip-shaped, the length direction of each avoidance port is consistent with the movement direction of the traverse member, one end of each avoidance port in the length direction is of a groove structure, and the first inclined plane is provided through the groove structure.

Optionally, the lifting member includes:

a plate body positioned between the pushing piece and the transverse moving piece along the height direction;

a plurality of reinforcing ribs fixed to the plate body;

the bevel angle piece is fixed on the bottom surface of the plate body and provided with a second bevel, the inserting position of the bevel angle piece is corresponding to the avoiding opening, and the second bevel is in contact fit with the first bevel.

The application still provides a welding mould for with but automatic demoulding's welding operation platform cooperate, welding mould includes:

the device comprises a reference plate, a pushing piece and a positioning piece, wherein the reference plate is provided with a through hole for the pushing piece to penetrate through;

a high clearance that is used for the installation to push away the material piece is left between messenger's welding work piece and the benchmark board, the periphery of setting element is equipped with bearing welding work piece stair structure.

The application also provides a welding system, which comprises the welding operation platform capable of automatically demoulding and the welding mould;

the reference plate is arranged at the top of the support frame; at least one part of the material pushing piece penetrates through the through hole to lift the welding workpiece to be separated from the welding die during demolding.

The application provides a but welding operation platform, welding mould and welding system of automatic demoulding, sideslip actuating mechanism drive sideslip piece when moving along the support frame horizontal direction, cooperatees through first inclined plane and second inclined plane, drives the piece of going up and down and moves along vertical direction, and the linkage pushes away the material piece, and then lifts the welding workpiece and breaks away from welding mould. The application provides a but welding operation platform, welding mould and welding system of automatic demoulding is applicable to the orbital welding workpiece of welding track part formation on basic plate, realizes the purpose in advance making each track together, guarantees each track relative position precision with the fashioned method of part, later utilizes the steady drawing of patterns of the welding operation platform that can automatic demoulding, reduces the deformation, alleviates workman intensity of labour, improves production efficiency.

Drawings

FIG. 1 is a schematic diagram of an exemplary welding system with automatic demolding according to an embodiment of the present disclosure;

FIG. 2 is a schematic side view of the welding system of FIG. 1;

FIG. 3 is a schematic diagram of the welding system of FIG. 1 from a top view;

FIG. 4 is a schematic illustration of the welding system of FIG. 3 without the weld workpiece and the welding dies;

FIG. 5 is a schematic view of a welded workpiece in the welding station of FIG. 1;

FIG. 6 is a schematic view of the welded article of FIG. 5 from another perspective;

FIG. 7 is a schematic view of the welded article of FIG. 5 from a further perspective;

FIG. 8 is a schematic structural view of the welding die shown in FIG. 1;

FIG. 9 is a schematic view of the welding mold shown in FIG. 8 from another perspective;

FIG. 10 is a schematic view of the pusher member of the welding station of FIG. 1;

FIG. 11 is a schematic view of the cross-member of the welding station of FIG. 1;

FIG. 12 is a schematic view of the cross-member of FIG. 11 from another perspective;

FIG. 13 is a schematic illustration of the cross-member of FIG. 11 in a further alternate view;

FIG. 14 is a schematic view of a first ramp surface of the cross-member shown in FIG. 11;

FIG. 15 is a schematic view of a traverse drive mechanism in the welding station shown in FIG. 1;

FIG. 16 is a schematic view of the structure of the lifter in the welding station of FIG. 1;

FIG. 17 is a schematic view of the lifter of FIG. 1 from another perspective;

FIG. 18 is a schematic view of the lift of FIG. 1 from a further perspective;

FIG. 19 is a schematic view of a support frame in the welding station of FIG. 1;

fig. 20 is a schematic view of the structure of the welding station shown in fig. 1, in which the first inclined surface and the second inclined surface are matched.

The reference numerals in the figures are illustrated as follows:

100. a welding operation table; 10. a support frame; 11. a lower bearing plate; 12. a guide rail; 13. a first base frame; 14. a second base frame; 15. intermediate gear connection; 20. welding the mold; 21. a reference plate; 211. a through hole; 22. a positioning member; 221. positioning the chassis; 222. a guide portion; 30. a traversing member; 31. a first inclined plane; 32. a first guide seat; 33. a second guide seat; 34. avoiding the mouth; 35. a third guide seat; 36. a friction reducing protection; 37. a drive connection; 40. a traverse driving mechanism; 41. a piston rod; 42. a cylinder joint; 43. a pin shaft; 50. a lifting member; 51. a plate body; 511. a guide slot opening; 52. reinforcing ribs; 53. a bevel member; 531. a second inclined plane; 60. pushing the material piece; 61. a cross bar; 62. a top rod; 70. welding a workpiece; 71. a base plate; 72. welding the track; 73. a fabrication hole; 80. and an upper cover plate.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 20, an embodiment of the present application provides a welding system for automatic demolding, which includes a welding station 100 capable of automatic demolding and a welding mold 20 cooperating with the welding station 100, wherein the welding station 100 includes a support frame 10, and the welding mold 20 is used for carrying a welding workpiece 70 and is mounted on top of the support frame 10.

The welding operation table 100 further comprises a transverse moving member 30, a transverse moving driving mechanism 40, a lifting member 50 and a material pushing member 60, wherein the transverse moving driving mechanism 40 drives the transverse moving member 30 to move transversely, the transverse moving member 30 drives the lifting member 50 to move in the vertical direction, and the material pushing member 60 is forced to lift the welding workpiece 70 to be separated from the welding die 20. It is understood that in other embodiments, the welding workpiece 70 and the welding mold 20 are implemented as the welding operation table 100, wherein the welding workpiece 70 includes a base plate 71 and a welding rail 72, and the base plate 71 is provided with the necessary process holes 73 of the welding mold 20. The pushing member 60 is a demolding performing member, and the welding station 100 capable of automatic demolding further includes an upper cover plate 80, the upper cover plate 80 is fixedly installed on the top of the supporting frame 10, and the upper cover plate 80 is an auxiliary member for safety protection and mechanism integrity and is distributed on both sides of the welding mold 20 along the horizontal moving direction of the traverse member 30.

The traverse driving mechanism 40 is installed on the support frame 10, and the traverse driving mechanism 40 is linked with the traverse member 30 to provide power for the movement of the traverse member 30. The traverse member 30 is located below the welding mold 20, and the traverse member 30 has a first inclined surface 31, and the traverse member 30 is movable in a horizontal direction with respect to the support frame 10. The lifting member 50 is slidably engaged with the supporting frame 10, and the lifting member 50 has a second inclined surface 531 which is engaged with the first inclined surface 31, as shown in fig. 20, so that the movement of the traverse member 30 is reversed to the movement of the lifting member 50. The pushing member 60 penetrates through the welding die 20 along the height direction, the pushing member 60 has a top end and a bottom end which are opposite to each other, the bottom end of the pushing member 60 is linked with the lifting member 50, and the top end of the pushing member 60 is used for lifting the welding workpiece 70 to separate from the welding die 20. It will be appreciated that the height direction is an up-down orientation in the orientation shown in fig. 1.

According to the welding operation table 100, the welding mold 20 and the welding system capable of automatically demolding provided by the embodiment, when the traverse driving mechanism 40 drives the traverse member 30 to move along the horizontal direction of the support frame, the lifting member 50 is driven to move along the vertical direction through the cooperation of the first inclined surface 31 and the second inclined surface 531, the pushing member 60 is linked, and the welding workpiece 70 is lifted to be separated from the welding mold 20. The welding operation table 100, the welding mold 20 and the welding system which can automatically demold provided by the embodiment are suitable for welding the welding workpiece 70 of the welding rail 72 formed by welding the rail parts on the base plate 71, the purpose of pre-manufacturing the rails together is realized, the relative position precision of the rails is ensured by using a part forming method, and then the welding operation table 100 which can automatically demold is used for stably demold, so that the deformation is reduced, the labor intensity of workers is reduced, and the production efficiency is improved.

Referring to fig. 11 to 14, in one embodiment, the traverse member 30 is substantially plate-shaped, and the plane of the plate-shaped is parallel to the plane of the welding mold 20. One or more avoidance ports 34 are formed in the transverse moving piece 30, the avoidance ports 34 are used for being matched with the lifting piece 50, each avoidance port 34 is in a strip shape, the length direction of each avoidance port 34 is consistent with the movement direction of the transverse moving piece 30, a groove structure is adopted at one end of each avoidance port 34 in the length direction, and a first inclined surface 31 is provided through the groove structure. Both ends of each avoidance opening 34 in the length direction may be of a groove structure, or only one end of each avoidance opening may be of a groove structure. The relief notch 34 may be, for example, a beveled notch.

Specifically, eight avoidance openings 34 are provided, each avoidance opening 34 is symmetrically distributed relative to the center line of the transverse moving member 30, and only one end of each avoidance opening 34 is provided with a groove structure. Further, the included angle between the first inclined surfaces 31 and the horizontal direction is 30 degrees to 60 degrees, preferably 45 degrees, and the first inclined surfaces 31 are arranged in parallel.

In one embodiment, the bottom surface of the traverse member 30 is provided with a first guide seat 32, the top surface of the traverse member 30 is provided with a second guide seat 33, the traverse member 30 guides the installation of the lifting member 50 and facilitates the sliding fit with the contacted components through the first guide seat 32 and the second guide seat 33, and meanwhile, the first guide seat 32 and the second guide seat 33 can strengthen the strength of the traverse member 30.

Specifically, the first guide seat 32 and the second guide seat 33 are a plurality of positioning plates arranged at intervals. Specifically, the first guide seats 32 are symmetrically distributed with respect to the center line of the traverse member 30, and the number of the first guide seats 32 is, for example, eight, four on each side with the center line of the traverse member 30 as a symmetry line, and the four are respectively located at four positions on the corresponding side traverse member 30. The second guide seats 33 are provided corresponding to the first guide seats 32 at the distribution positions of the traverse member 30. The traverse member 30 is provided with four first guide seats 32 and four second guide seats 33 in the middle region.

Since friction is easily generated when the first guide holder 32 or the second guide holder 33 slides relative to a member in contact with the member, for example, the bearing plate or the welding mold 20, a friction reducing protector 36 is installed at each end of the first guide holder 32 or the second guide holder 33 to reduce the friction. The friction reducing protector 36 is, for example, a bar shape having an L-shaped cross section, and semi-wraps the end of the first guide seat 32 or the second guide seat 33.

Further, the traverse member 30 is further provided with a third guide seat 35 to further reinforce the strength of the traverse member 30 and guide the elevating member 50. The third guiding seats 35 are distributed in the middle area of the traverse member 30 and are respectively located on the two sides of the bottom surface and the top surface of the traverse member 30, the third guiding seats 35 and the first guiding seats 32 are combined to form a step structure, the third guiding seats 35 and the second guiding seats 33 are also combined to form a step structure, and the third guiding seats 35 are closer to the traverse member 30 than the first guiding seats 32 and the second guiding seats 33. For example, the number of the third guide seats 35 is eight, and four of the traverse members 30 are equally distributed on the upper and lower sides.

More specifically, the traverse member 30 is provided with a drive link 37, the drive link 37 being for connecting the traverse drive mechanism 40, the drive link 37 having a connecting end mounted to the traverse member 30 by, for example, screws, and a mounting end connected to the traverse drive mechanism 40, the connecting end being substantially semicircular. The connecting end and the mounting end form a step structure.

In one embodiment, the traverse driving mechanism 40 is used for driving the traverse member 30 to move horizontally, and the traverse driving mechanism 40 may be a cylinder with a cylinder body disposed horizontally, and a piston rod 41 of the cylinder is connected to a side edge of the traverse member 30. Further, referring to fig. 15, the oil cylinder further includes an oil cylinder joint 42 and a pin 43, the oil cylinder joint 42 is installed on the top of the piston rod 41 and near the side of the traverse member 30, and the pin 43 is installed through the oil cylinder joint 42 and the side edge of the traverse member 30 together, so as to connect the oil cylinder and the side edge of the traverse member 30. It will be appreciated that the traverse drive mechanism 40 may also be a pneumatic cylinder or other actuator.

Specifically, two sets of traverse driving mechanisms 40 are provided in the moving direction of the traverse member 30, and are respectively positioned on both sides of the traverse member 30, so that the driving force is more stable, and each set of traverse driving mechanism 40 can be a plurality. For example, in the embodiment shown in fig. 4, there are four traverse driving mechanisms 40, two traverse driving mechanisms 40 are respectively disposed on both sides of the traverse member 30, one end of a piston rod 41 of a cylinder in each traverse driving mechanism 40 is connected to the support frame 10, and a cylinder joint 42 is connected to the connecting end of the driving connecting member 37 of the traverse member 30 by a pin shaft 43.

Referring to fig. 1, 2 and 19, in one embodiment, the lower bearing plate 11 is fixedly mounted at the bottom of the supporting frame 10, the first guide seat 32 of the traverse member 30 is slidably engaged with the top surface of the lower bearing plate 11, and the second guide seat 33 of the traverse member 30 is slidably engaged with the bottom surface of the welding mold 20. In other embodiments, the bottom of the supporting frame 10 may be fixedly installed with another welding mold 20 instead of the lower bearing plate 11, the first guiding seat 32 of the traverse member 30 is slidably engaged with the top surface of the welding mold 20 located therebelow, and the two welding molds 20 respectively located at the upper and lower positions of the supporting frame 10 are mutually the bearing plates of the traverse member 30 by rotating the supporting frame 10.

Specifically, the supporting frame 10 is provided with a vertically arranged guide rail 12, and referring to fig. 19, the side edge of the lifting member 50 is provided with a guide notch 511 which is matched with the guide rail 12. For example, two lifters 50 are provided, and two guide notches 511 of each lifter 50 are provided at opposite ends of the lifter 50, respectively, and the guide rail 12 corresponds to the guide notches 511. The lifting member 50 is engaged with the guide rail 12 through the guide notch 511, and the lifting member 50 can be vertically moved with respect to the guide rail 12 by the pushing of the traverse member 30.

Further, in the moving direction of the traverse member 30, two sets of the guide rails 12 are provided, and the two sets of the guide rails 12 are respectively located on both sides of the traverse member 30.

In one embodiment, the overall frame of the supporting frame 10 includes two first base frames 13 and two second base frames 14, each of the first base frames 13 is parallel to each other, each of the second base frames 14 is connected to two corresponding ends of the two first base frames 13, and the first base frames 13 and the second base frames 14 form a box structure.

The support frame 10 further comprises two intermediate coupling bars 15 for reinforcing the support frame 10, the two intermediate coupling bars 15 being connected between the two first base frames 13, the guide rails 12 being provided on the intermediate coupling bars 15. Two guide rails 12 are provided on each intermediate link 15, and the traverse member 30 and the lifting member 50 are mounted in the area surrounded by the first base frame 13 and the intermediate link 15.

Referring to fig. 16 to 18, in one embodiment, the lifting member 50 includes a plate body 51, a plurality of ribs 52 and a bevel member 53, and the plate body 51, the plurality of ribs 52 and the bevel member 53 are integrated or separated. The plate body 51 is located between the welding die 20 and the traverse 30 in the height direction, and the lifting member 50 is movable between the traverse 30 and the welding die 20 above to lift the welding workpiece 70 by the driving of the traverse 30. The plurality of ribs 52 are fixed to the plate body 51, and may be distributed at equal intervals in the horizontal direction, for example. The angle piece 53 is fixed on the bottom surface of the plate body 51, the angle piece 53 provides a second inclined surface 531 to contact and match with the first inclined surface 31, and the angle piece 53 inserts the corresponding avoiding opening 34 of the traverse member 30. The angle members 53 are formed in a plate shape, for example, 4 angle members 53 are distributed to each of the elevating members 50, and the second inclined surfaces 531 are arranged in parallel.

Referring to fig. 8 and 9, a welding mold 20 provided in an embodiment of the present application includes a reference plate 21 and a positioning element 22, wherein the reference plate 21 is provided with a through hole 211 for passing a pushing element therethrough. The reference plate 21 is installed on the top of the support frame 10, and the positioning member 22 is installed on the side of the reference plate 21 near the welding workpiece 70.

Further, the number of the through holes 211 is set according to the requirement, for example, the through holes are distributed in a 4 x 2 array, wherein four through holes arranged in a row are used for a part of a single material pushing piece to penetrate.

The positioning member 22 is used for positioning the welding workpiece 70, and a step structure for supporting the welding workpiece 70 is arranged on the periphery of the positioning member 22, so that a height gap for installing the material pushing member is reserved between the welding workpiece 70 and the reference plate 21. Specifically, the positioning member 22 includes a positioning chassis 221 and a guide portion 222, the process hole 73 of the base plate 71 is inserted into the guide portion 222, the positioning chassis 221 is fixedly mounted on the reference plate 21, the cross section of the positioning chassis 221 along the horizontal direction is square, and the height of the positioning chassis 221 in the height direction is the height gap between the welding workpiece 70 and the reference plate 21; the guiding portion 222 is two columns extending along the height direction, and a step structure is formed between the guiding portion 222 and the positioning bottom plate 221. The positioning members 22 are plural and distributed in an array on the reference plate 21, such as 2 × 2, 3 × 3, 4 × 4, etc., preferably nine, 3 × 3.

Referring to fig. 3 and 10, in one embodiment, at least a portion of the ejector member lifts the welding workpiece out of the welding mold through the through hole 211 during demolding. The pushing member 60 is plural, for example, two, and each pushing member 60 is distributed along the moving direction of the traverse member 30. The material pushing part 60 comprises a cross rod 61 and a plurality of top rods 62, the cross rod 61 is located in the height gap and used for lifting the welding workpiece 70, the bottom end of each top rod 62 penetrates through the through hole 211 of the reference plate 21 and abuts against the lifting part 50, and the top rods 62 are connected to the bottom of the cross rod 61 at intervals. For example, four push rods 62 are uniformly spaced along the length of the cross bar 61.

The operation method and process of the welding operation table 100 capable of automatically demoulding provided by the application are as follows:

(1) after the welding workpiece 70 is formed by welding, the welding workpiece 70 is positioned in the welding mold 20, and the transverse moving piece 30 is driven to move horizontally by pushing or pulling through the oil cylinder.

(2) The traverse member 30 moves horizontally, and the lifting member 50 is vertically lifted by the cooperation of the first inclined surface 31 and the second inclined surface 531 of the lifting member 50 and the guide rail 12.

(3) The plate body 51 of the lifting piece 50 pushes the ejector rod 62 of the pushing piece 60 and drives the cross rod 61 to ascend, so that the welding workpiece 70 is ejected out of the welding die 20.

(4) The worker takes away the welding workpiece 70.

(5) When the hydraulic button is pressed, the oil cylinder moves reversely to drive the transverse moving piece 30 to move reversely, the lifting piece 50 and the pushing piece 60 are guided downwards by gravity and the guide rail 12 to vertically descend and return to the original position to wait for the second working cycle.

The application provides a but welding operation platform 100 of automatic demoulding, with welding operation platform 100 matched with welding mould 20 and welding system, sideslip actuating mechanism 40 drive sideslip piece 30 when moving along the support frame horizontal direction, cooperatees through first inclined plane 31 and second inclined plane 531, drives lifting member 50 and moves along vertical direction, and linkage material pushing member 60, and then lift welding work piece 70 and break away from welding mould 20. The transverse moving piece 30 is provided with an avoidance port 34 which adopts a groove structure, and the groove structure provides a first inclined surface 31; the traverse member 30 is provided with a first guide seat 32, a second guide seat 33, and a third guide seat 35, which achieve positioning guide and strength enhancement, and the friction-reducing protection member 36 facilitates friction reduction. The support frame 10 is provided with guide rails 12 to guide the movement of the lifter 50, and the lifter 50 is provided with reinforcing ribs 52 to enhance strength. The welding operation table 100, the welding mold 20 and the welding system capable of automatically demolding are suitable for welding the rail 72 part on the basic plate 71 to form the rail welding workpiece 70, the purpose of prefabricating the rails together is achieved, the relative position accuracy of the rails is guaranteed by a part forming method, then the welding operation table 100 capable of automatically demolding is utilized to stably demold the rails, deformation is reduced, labor intensity of workers is relieved, and production efficiency is improved.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A welding operation platform that can automatic drawing of patterns, includes braced frame, its characterized in that, welding operation platform still includes:

the transverse moving piece is provided with a first inclined plane;

a traverse driving mechanism mounted on the support frame and linked with the traverse member;

the lifting piece is in sliding fit with the supporting frame and is provided with a second inclined surface which is acted with the first inclined surface, so that the movement of the transverse moving piece is reversed to the movement of the lifting piece;

the material pushing part is linked with the lifting part at the bottom end and used for lifting the welding workpiece to separate from the welding die at the top end.

2. The welding station of claim 1, wherein the bottom of the support frame is fixedly provided with a lower bearing plate, the top of the support frame is fixedly provided with an upper cover plate, the bottom surface of the traverse member is provided with a first guide seat in sliding fit with the top surface of the lower bearing plate, and the top surface of the traverse member is provided with a second guide seat in sliding fit with the bottom surface of the upper cover plate.

3. The welding station of claim 2, wherein the first guide seat and the second guide seat are a plurality of positioning plates arranged at intervals.

4. The automated demoldable welding station as set forth in claim 1 wherein said traverse driving mechanism is a cylinder having a cylinder body disposed in a horizontal position, a piston rod of the cylinder being connected to a side edge of said traverse member.

5. The automated demoldable welding station as set forth in claim 1 wherein said traverse driving mechanism is provided in two sets, one on each side of said traverse member, in the direction of movement of said traverse member.

6. The welding station with automatic demolding function as claimed in claim 1, wherein the support frame is provided with vertically arranged guide rails, the side edges of the lifting members are provided with guide notches which are matched with the guide rails, and the guide rails are arranged in two groups respectively at two sides of the traverse member in the moving direction of the traverse member.

7. The welding operation table capable of automatically demolding as claimed in claim 1, wherein the traverse member is plate-shaped and is provided with one or more avoiding openings, each avoiding opening is strip-shaped and has a length direction consistent with a moving direction of the traverse member, at least one avoiding opening has a groove structure at one end in the length direction, and the first inclined surface is provided by the groove structure.

8. The automated demoldable welding station as set forth in claim 7, wherein said lift member comprises:

a plate body positioned between the pushing piece and the transverse moving piece along the height direction;

a plurality of reinforcing ribs fixed to the plate body;

the bevel angle piece is fixed on the bottom surface of the plate body and provided with a second bevel, the inserting position of the bevel angle piece is corresponding to the avoiding opening, and the second bevel is in contact fit with the first bevel.

9. A welding mold for cooperation with the automatically demoldable welding station as set forth in any one of claims 1 through 8, wherein the welding mold comprises:

the device comprises a reference plate, a pushing piece and a positioning piece, wherein the reference plate is provided with a through hole for the pushing piece to penetrate through;

a high clearance that is used for the installation to push away the material piece is left between messenger's welding work piece and the benchmark board, the periphery of setting element is equipped with bearing welding work piece stair structure.

10. A welding system comprising an automatically demoldable welding station as set forth in any one of claims 1 through 8 and a welding die as set forth in claim 9;

the reference plate is arranged at the top of the support frame; at least one part of the material pushing piece penetrates through the through hole to lift the welding workpiece to be separated from the welding die during demolding.

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