CN112756865A - Transfer welding mechanism and method for movable rail - Google Patents

Abstract

The invention relates to a transfer welding mechanism of a movable rail and a welding method thereof, wherein the mechanism is used for transferring the movable rail from a hook welding mechanism to a shifting needle welding mechanism, wherein a hook is arranged at one end of a first surface of the movable rail, and a shifting needle is arranged at the other end of a second surface of the movable rail; the transfer welding mechanism includes: the rotating assembly is used for rotating the other end of the movable rail to the position of one end of the movable rail; the overturning assembly is used for overturning the second surface of the movable rail to the position of the first surface of the movable rail; and the conveying assembly is used for conveying the movable rail to the hook welding mechanism, the rotating assembly, the overturning assembly and the shifting needle welding assembly in sequence. The transfer welding method is simple in mode, can realize full-automatic treatment, greatly saves labor and time, and can better ensure the assembling accuracy.

Description

Transfer welding mechanism and method for movable rail

Technical Field

The invention belongs to the technical field of drawer accessory production, and particularly relates to a transfer welding mechanism and a welding method for a movable rail of a drawer slide rail.

Background

Drawer slide is the hardware fitting who is used on the furniture cabinet body, and current drawer slide generally includes two sections slides and three section slides. The three-section sliding rail generally comprises a movable rail, a middle rail and a fixed rail. The movable rail is generally provided with a hook for fixing the drawer and a poking needle for poking the buffer, the poking needle and the hook are positioned on different planes and different directions of the movable rail, and meanwhile, due to the fact that the assembly precision requirement of the movable rail is high, the assembly of the hook and the poking needle needs to be manually switched between two processes, the consumed time is long, and the precision cannot be effectively guaranteed.

Disclosure of Invention

The invention provides a transfer welding mechanism of a movable rail and a welding method thereof, which are used for solving the technical problem that the hook welding process and the needle poking welding process of the movable rail in the prior art cannot be performed continuously.

The invention discloses a transfer welding mechanism of a movable rail, which is used for transferring the movable rail from a hook welding mechanism to a shifting needle welding mechanism, wherein a hook is arranged at one end of a first surface of the movable rail, and a shifting needle is arranged at the other end of a second surface of the movable rail; the transfer welding mechanism includes:

the rotating assembly is used for rotating the other end of the movable rail to the position of one end of the movable rail;

the overturning assembly is used for overturning the second surface of the movable rail to the position of the first surface of the movable rail;

and the conveying assembly is used for conveying the movable rail to the hook welding mechanism, the rotating assembly, the overturning assembly and the shifting needle welding assembly in sequence.

Preferably, the first surface is adjacent to the second surface, the rotation angle of the rotating assembly is 180 degrees, and the turning angle of the turning assembly is 90 degrees.

Preferably, the rotating assembly comprises a carrier trough and a rotating structure, the carrier trough is rotatably connected to a movable end of the rotating structure, and the carrier trough is positioned below the conveying assembly.

Preferably, the rotating structure comprises a ring gear, a rack and a rotating cylinder, a power output end of the rotating cylinder is connected with the rack, a tooth opening on the rack is meshed with a tooth opening on the ring gear, and the carrying groove is fixed on a middle shaft of the ring gear.

Preferably, the upset subassembly includes constant head tank, shifting chute and upset cylinder, the constant head tank is the obtuse right angle trapezoidal channel of one side right angle another side, the shifting chute is that both sides are the right angled concave groove, the constant head tank with the crossing setting of shifting chute all is in under the conveyor components, the expansion end of upset cylinder with the shifting chute links to each other.

Preferably, the positioning groove is further provided with a roller for reducing the overturning friction force, and the roller is connected to the right-angle edge of the notch of the positioning groove in a sliding manner.

Preferably, the conveying assembly comprises a transverse moving member, a longitudinal moving member and a material taking member, the longitudinal moving member is movably connected with the transverse moving member, and the material taking member is fixed at the bottom of the longitudinal moving member and used for grabbing the movable rail.

Preferably, get the material piece and include the adsorption disc that a plurality of intervals set up, the adsorption disc is in respectively under couple welding mechanism, rotating assembly, upset subassembly and the dial needle welding mechanism.

The second aspect of the invention also discloses a transfer welding method of the movable rail, which comprises the following steps:

the movable rail is moved to the rotating assembly from the hook welding mechanism through the conveying assembly;

starting a rotating assembly to enable the other end of the movable rail to rotate to the position of one end of the movable rail;

the rotating movable rail is moved to the overturning assembly from the rotating assembly through the conveying assembly;

starting a turnover assembly to enable the second surface of the movable rail to be turned over to the position of the first surface of the movable rail;

the turnover assembly moves the turnover movable rail to the needle poking welding mechanism through the conveying assembly.

Preferably, the conveying assembly is provided with a plurality of adsorption discs, the adsorption discs adsorb the movable rails which are sequentially arranged at the same time, and the process that the hook welding mechanism moves to the rotating assembly, the process that the rotating assembly moves to the overturning assembly and the process that the overturning assembly moves to the shifting needle welding mechanism are synchronously carried out.

As can be seen from the above embodiments of the present invention, the transfer welding mechanism of the movable rail of the present invention is disposed between the hook welding mechanism and the needle-setting welding mechanism, the movable rail is rotated by the rotating component to realize the switching of one end of the movable rail to the other end, and the movable rail is turned by the turning component to realize the turning of one side of the movable rail to the other side, so that the movable rail with one end of the first surface below the hook welding mechanism can be transported to the needle-setting welding mechanism by the transporting component, and the other end of the second surface below the needle-setting welding mechanism. The transfer welding method is simple in mode, can realize full-automatic treatment, greatly saves labor and time, and can better ensure the assembling accuracy.

Drawings

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

FIG. 1 is a schematic view of a first angular configuration of a flip assembly of a transfer welding mechanism for a movable rail according to the present invention;

FIG. 2 is a second schematic view of the turning assembly of the transfer welding mechanism of the movable rail according to the present invention;

FIG. 3 is a schematic view of the overall structure of the rotating assembly of the transfer welding mechanism of the movable rail according to the present invention;

FIG. 4 is a schematic view of a single structure of a rotating assembly of the transfer welding mechanism of the movable rail of the present invention;

fig. 5 is a schematic structural diagram of a conveying assembly of the transfer welding mechanism of the movable rail of the invention.

Description of the main element symbols:

10. a rotating assembly; 20. a turnover assembly; 30. a delivery assembly; 11. a carrying groove; 12. a rotating structure; 121. a ring gear; 122. a rack; 123. a rotating cylinder; 21. positioning a groove; 22. a moving groove; 23. turning over the air cylinder; 24. a roller; 31. a lateral moving member; 32. a longitudinal moving member; 33. and (6) taking the material.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

Referring to fig. 1-5, the present invention discloses a transfer welding mechanism for a movable rail, which is used to transfer the movable rail from a hook welding mechanism to a setting needle welding mechanism, wherein a hook is disposed at one end of a first surface of the movable rail, and a setting needle is disposed at the other end of a second surface of the movable rail; the transfer welding mechanism includes:

the rotating assembly 10 is used for rotating the other end of the movable rail to the position of one end of the movable rail;

the overturning assembly 20 is used for overturning the second surface of the movable rail to the position of the first surface of the movable rail;

and the conveying assembly 30 is used for conveying the movable rail to the hook welding mechanism, the rotating assembly 10, the overturning assembly 20 and the shifting needle welding assembly in sequence.

In the scheme, the transfer welding mechanism of the movable rail is arranged between the hook welding mechanism and the shifting needle welding mechanism, the movable rail is rotated through the rotating assembly 10 to realize the switching of one end of the movable rail to the other end, the movable rail is overturned through the overturning assembly 20 to realize the overturning of one surface of the movable rail to the other surface, so that the movable rail with one end of the first surface below the hook welding mechanism can be conveyed to the shifting needle welding mechanism through the conveying assembly 30, and the other end of the second surface below the shifting needle welding mechanism.

It should be noted that the hook mounting position of the movable rail is located at one end of the first surface, and the setting needle mounting position is located at the other end of the second surface. The first surface is adjacent to the second surface, and the switching between the first surface and the second surface can be realized by turning the turning component 20 by 90 degrees. One end is opposite to the other end, and the rotating assembly 10 rotates 180 degrees to realize the switching of the movable rail from one end to the other end.

In the embodiment, the rotating assembly 10 includes a loading slot 11 and a rotating structure 12, the loading slot 11 is rotatably connected to a movable end of the rotating structure 12, and the loading slot 11 is located under the conveying assembly 30. The rotating structure 12 is used for providing rotating power, and the loading slot 11 can ensure that the movable rail cannot move in the rotating process.

Referring to fig. 1-2, the rotating structure 12 includes a ring gear 121, a rack 122 and a rotating cylinder 123, a power output end of the rotating cylinder 123 is connected to the rack 122, a tooth opening of the rack 122 is engaged with a tooth opening of the ring gear 121, and the carrier trough 11 is fixed on a central axis of the ring gear 121. The rotating cylinder 123 provides an acting force for the rack 122 to vertically move the rack 122 along the tooth mouth direction thereof, and the vertical movement of the rack 122 drives the ring gear 121 engaged therewith to rotate, so that the rotation of the ring gear 121 is realized, the loading slot 11 is further driven to rotate, and the rotating angle and the precision can be better controlled.

Referring to fig. 3, the integral turnover assembly 20 includes two single bodies, and the two single bodies are respectively in contact with two ends of the movable rail and apply a force for turning over the movable rail during the turnover process, so as to implement the turnover process of the movable rail.

Referring to fig. 4, the turning assembly 20 includes a positioning groove 21, a moving groove 22 and a turning cylinder 23, the positioning groove 21 is a rectangular trapezoid groove with one side being rectangular and the other side being obtuse, the moving groove 22 is a concave groove with both sides being rectangular, the positioning groove 21 and the moving groove 22 are intersected and located under the conveying assembly 30, and the movable end of the turning cylinder 23 is connected to the moving groove 22. When conveying component 30 drives movable rail to upset subassembly 20, one side of movable rail contacts with the movable rail, and the other end contacts with the blunt angle limit of constant head tank 21, and upset cylinder 23 promotes moving groove 22, and the movable rail is along the upset of blunt angle limit under moving groove 22's drive, when the upset 90 degrees, falls into between moving groove 22 and the constant head tank 21, accomplishes the upset operation.

In this embodiment, the positioning slot 21 is further provided with a roller 24 for reducing the turning friction, and the roller 24 is slidably connected to the right-angled edge of the notch of the positioning slot 21. The arrangement of the roller 24 can further reduce the friction force of the movable rail on the positioning groove 21, and the turnover efficiency of the movable rail is improved.

Referring to fig. 5, the conveying assembly 30 includes a transverse moving member 31, a longitudinal moving member 32, and a material fetching member 33, wherein the longitudinal moving member 32 is movably connected to the transverse moving member 31, and the material fetching member 33 is fixed at the bottom of the longitudinal moving member 32 for grabbing the movable rail. The transverse moving member 31 is used for realizing the transfer between different stations, and the longitudinal moving member 32 is used for realizing the taking and placing process of the movable rail by the taking member 33.

In this embodiment, the material taking member 33 includes a plurality of absorption discs disposed at intervals, and the absorption discs are respectively disposed under the hook welding mechanism, the rotating assembly 10, the flipping assembly 20, and the needle setting welding mechanism. The arrangement of the adsorption discs can realize synchronous operation of a plurality of working procedures, and the working efficiency is improved.

The invention also discloses a transfer welding method of the movable rail, which comprises the following steps:

s1, moving the movable rail to the rotating assembly 10 through the hook welding mechanism by the conveying assembly 30;

s2, starting the rotating component 10 to rotate the other end of the movable rail to the position of one end of the movable rail;

s3, moving the rotated movable rail from the rotating assembly 10 to the overturning assembly 20 through the conveying assembly 30;

s4, starting the turnover assembly 20 to enable the second surface of the movable rail to be turned over to the position of the first surface of the movable rail;

and S5, moving the inverted movable rail to the setting needle welding mechanism from the inverting assembly 20 through the conveying assembly 30.

In this embodiment, a plurality of adsorption trays are arranged on the conveying assembly 30, and the adsorption trays adsorb the movable rails arranged in sequence at the same time, so that the process that the hook welding mechanism moves to the rotating assembly 10, the process that the rotating assembly 10 moves to the turnover assembly 20, and the process that the turnover assembly 20 moves to the needle-poking welding mechanism are performed synchronously.

It should be noted that the transfer welding method of the present invention is used for a consecutive hook welding process and a setting pin welding process. In the process, the hook can be welded firstly, and then the shifting needle can be welded; or firstly welding the shifting needle and then welding the hook. Any transfer method capable of automatically connecting the two processes is a simple modification and conversion of the present invention, and should fall within the scope of the present invention.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In view of the above description of the technical solutions provided by the present invention, those skilled in the art will recognize that there may be variations in the technical solutions and the application ranges according to the concepts of the embodiments of the present invention, and in summary, the content of the present specification should not be construed as limiting the present invention.

Claims (10)

1. The transfer welding mechanism for the movable rail is characterized by being used for transferring the movable rail from a hook welding mechanism to a shifting needle welding mechanism, wherein a hook is arranged at one end of a first surface of the movable rail, and a shifting needle is arranged at the other end of a second surface of the movable rail; the transfer welding mechanism includes:

the rotating assembly is used for rotating the other end of the movable rail to the position of one end of the movable rail;

the overturning assembly is used for overturning the second surface of the movable rail to the position of the first surface of the movable rail;

and the conveying assembly is used for conveying the movable rail to the hook welding mechanism, the rotating assembly, the overturning assembly and the shifting needle welding assembly in sequence.

2. The transfer welding mechanism of a movable rail of claim 1, wherein the first surface is adjacent to the second surface, the rotation angle of the rotating assembly is 180 degrees, and the flip angle of the flip assembly is 90 degrees.

3. The transfer welding mechanism of claim 1, wherein said rotating assembly comprises a carrier trough and a rotating structure, said carrier trough being rotatably coupled to a free end of said rotating structure, and said carrier trough being positioned below said conveyor assembly.

4. The transfer welding mechanism of claim 3, wherein said rotating structure comprises a ring gear, a rack and a rotating cylinder, a power output end of said rotating cylinder is connected to said rack, a tooth opening on said rack is engaged with a tooth opening on said ring gear, and said loading slot is fixed on a central shaft of said ring gear.

5. The transfer welding mechanism of movable rail according to claim 1, wherein said turnover assembly comprises a positioning groove, a moving groove and a turnover cylinder, said positioning groove is a rectangular trapezoid groove with an obtuse angle on one side and a right angle on the other side, said moving groove is a concave groove with both sides being right angles, said positioning groove intersects with said moving groove and is located under said conveying assembly, and a movable end of said turnover cylinder is connected with said moving groove.

6. The transfer welding mechanism of claim 5, wherein said positioning slot is further provided with a roller for reducing the friction during the turning, said roller being slidably connected to the right-angled edge of the notch of said positioning slot.

7. The transfer welding mechanism of movable rail of claim 1, wherein said conveying assembly comprises a transverse moving member, a longitudinal moving member and a material taking member, said longitudinal moving member is movably connected with said transverse moving member, said material taking member is fixed at the bottom of said longitudinal moving member for grabbing said movable rail.

8. The transfer welding mechanism of movable rail of claim 7, wherein said pick-up member comprises a plurality of spaced suction pads, said suction pads being disposed under said hook welding mechanism, said rotating assembly, said flipping assembly, and said setting pin welding mechanism, respectively.

9. A transfer welding method of a movable rail is characterized by comprising the following steps:

the movable rail is moved to the rotating assembly from the hook welding mechanism through the conveying assembly;

starting a rotating assembly to enable the other end of the movable rail to rotate to the position of one end of the movable rail;

the rotating movable rail is moved to the overturning assembly from the rotating assembly through the conveying assembly;

starting a turnover assembly to enable the second surface of the movable rail to be turned over to the position of the first surface of the movable rail;

the turnover assembly moves the turnover movable rail to the needle poking welding mechanism through the conveying assembly.

10. The transfer welding method of the movable rail according to claim 9, wherein a plurality of adsorption trays are provided on the conveying assembly, and the adsorption trays adsorb the movable rails sequentially arranged at the same time, so that the process of moving the hook welding mechanism to the rotating assembly, the process of moving the rotating assembly to the turnover assembly, and the process of moving the turnover assembly to the needle-setting welding mechanism are performed synchronously.

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