CN117506264A - Metal structure welding processing device for electric wave movement production - Google Patents

Abstract

The invention discloses a metal structure welding processing device for electric wave movement production, which relates to the technical field of electric wave movement production and processing and comprises a base, wherein a limit column is arranged at the upper part of the base, a disc seat is rotatably arranged outside the limit column, four welding grooves are arranged at the upper part of the disc seat in a ring-shaped array mode, the welding grooves extend to the outer edge of the disc seat, so that an electric wave movement chip just enters the welding grooves, a welding mechanism is arranged at the position, above the disc seat, of the outer part of the limit column, and a storage mechanism is arranged at one side of the upper end of the limit column. This metallic structure welding processing device is used in electric wave core production can be continuous carry out welding operation to the chip, makes it form the line production, and in the welding, can be automatic accomplish the last unloading work to the chip, goes up the unloading and realizes through a driving device and is synchronous, goes up the unloading work simultaneously and does not influence the normal welding work of other chips again.

Description

Metal structure welding processing device for electric wave movement production

Technical Field

The invention relates to the technical field of production and processing of electric wave cores, in particular to a metal structure welding and processing device for electric wave core production.

Background

The radio wave movement is a clock movement which can receive and automatically calibrate radio signals to ensure that the time of a watch is kept highly consistent with standard time, and is commonly applied to watches, particularly mechanical or quartz watches with a radio wave receiving function.

When the electric wave machine core is processed, welding processing operation is required to be performed on the metal chip inside the electric wave machine core, however, the chip size in the electric wave machine core is smaller, so that when the electric wave machine core is processed, a feeding and discharging machine and inconvenience are caused, and the welding operation is usually performed by adopting manual auxiliary feeding and discharging, so that a metal structure welding processing device for producing the electric wave machine core, which is convenient for feeding and discharging, is required to be developed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a metal structure welding processing device for the production of an electric wave machine core, which solves the problems of feeding and discharging machines and inconvenience of the feeding and discharging machines during the processing of chips in the current electric wave machine core.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a metal structure welding processingequipment for electric wave core production, includes the base, the upper portion of base is provided with spacing post, the outside rotation of spacing post is provided with the disc seat, the upper portion of disc seat is annular array's mode and is provided with four welding grooves, the welding groove extends to the outward flange department of disc seat for electric wave core chip just in time enters into the welding groove, the outside of spacing post is located the upper position department of disc seat and is provided with welding mechanism, upper end one side of spacing post is provided with storage mechanism, storage mechanism's bottom is provided with synchronous feeding and discharging mechanism, one side of base is provided with collecting assembly.

The storage mechanism comprises a storage barrel for storing the electric wave core chip and a fixing rod connected to one side of the upper end of the limiting column, one end of the fixing rod, which is far away from the limiting column, is connected with a hoop, the outer wall of the storage barrel is fixedly sleeved with the hoop, one side of the lower part of the storage barrel is provided with a discharge chute, the height of the discharge chute is equal to the thickness of the electric wave core chip, the electric wave core chip can just pass through the discharge chute, the inner size of the storage barrel is equal to the size of the electric wave core chip, and the discharge chute is attached to the outer edge of the disc seat.

The synchronous feeding and discharging mechanism comprises a mounting seat connected to the bottom of a storage barrel, a double-shaft servo motor is mounted at the lower end of the mounting seat, two output shafts of the double-shaft servo motor are respectively connected with a first screw rod and a second screw rod with mutually opposite external threads, a movable bar is screwed on the outer portion of the first screw rod through threads, a push rod is arranged on one side of the upper end of the movable bar, a through hole matched with the push rod is formed in one side of the storage barrel, which is far away from the discharge groove, the push rod can just penetrate through the through hole, the through hole corresponds to the position of the discharge groove, a nut sleeve is screwed on the outer portion of the second screw rod through threads, a connecting rod is hinged to the upper side of the nut sleeve, the synchronous feeding and discharging mechanism further comprises a movable sleeve which is longitudinally sleeved outside a limiting column, the movable sleeve is higher than the position of the second screw rod, a cross beam is arranged on one side of the movable sleeve, a top shaft is arranged on one side of the cross beam, which is far away from the movable sleeve, one side of the nut sleeve is hinged to one side of the movable sleeve, and an included angle formed between the top shaft and a circle center connecting line of the circular disc seat is 90 degrees.

Preferably, a strip-shaped groove communicated with the inside of the storage barrel is formed in one side, close to the fixed rod, of the storage barrel, and two ends of the strip-shaped groove extend to the discharge groove and the upper opening of the storage barrel respectively.

Preferably, a jacking groove corresponding to the jacking shaft is formed in the bottom of the welding groove, so that the jacking shaft just penetrates through the jacking groove.

Preferably, a gear ring is arranged at the middle position of the upper part of the disc seat, the gear ring is rotationally sleeved outside the limiting column, a driving servo motor is arranged at the upper position of the gear ring on one side of the limiting column, an output shaft of the driving servo motor is connected with a main gear, and the main gear is meshed with the gear ring.

Preferably, the welding mechanism comprises a movable seat longitudinally sleeved outside the limiting column, a welding gun is installed on the upper portion of one end of the movable seat away from the limiting column in a penetrating mode, a hydraulic cylinder is installed on one side, close to the welding gun, of the limiting column, and an output shaft of the hydraulic cylinder is connected with the bottom of the movable seat.

Preferably, a groove is formed in the bottom of the inner side of the welding groove, close to the jacking groove, an elastic steel sheet is obliquely arranged on the inner side of the groove, a rubber strip is arranged on the other side of the elastic steel sheet, and a metal chip of the electric wave movement is just contained between the rubber strip and the inner side of the welding groove.

Preferably, the collection subassembly is including setting up in the bottom plate of base one side, and the collection section of thick bamboo has been placed on the upper portion of bottom plate, and one side upper edge department that the disc seat was kept away from to the collection section of thick bamboo is provided with the baffle, the upper edge of collection section of thick bamboo flushes with the inboard bottom of welding groove, and the upper edge lateral wall laminating of collection section of thick bamboo is on the outer fringe of disc seat.

Preferably, the air pump is installed to the rear side of spacing post, and the output of air pump is connected with the trachea, and the one end that the air pump output shaft was kept away from to the trachea passes spacing post and corresponds with the position of a collection tube, and the trachea is located the upper position department of disc seat.

The invention provides a metal structure welding processing device for producing an electric wave movement, which has the following beneficial effects compared with the prior art:

1. this metallic structure welding processing device is used in electric wave core production can be continuous carry out welding operation to the chip, makes it form the line production, and in the welding, can be automatic accomplish the last unloading work to the chip, goes up the unloading and realizes through a driving device and is synchronous, goes up the unloading work simultaneously and does not influence the normal welding work of other chips again, has improved the chip welding work of electric wave core.

2. This metallic structure welding processingequipment is used in electric wave core production through the elasticity that utilizes the elastic steel sheet, after the material loading work of accomplishing the chip, the elastic steel sheet can guarantee the stability of chip, makes it when the welding, the difficult condition that takes place to shift to chip welded precision has been guaranteed.

Drawings

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

FIG. 2 is a schematic diagram of a storage mechanism according to the present invention;

FIG. 3 is a schematic structural diagram of a synchronous feeding and discharging mechanism of the invention;

FIG. 4 is a schematic view of the disk seat according to the present invention;

fig. 5 is a schematic view showing the internal structure of the welding groove of the present invention.

In the figure: 1. a base; 2. a limit column; 21. driving a servo motor; 22. a main gear; 23. an air pump; 24. an air pipe; 3. a disc seat; 31. a gear ring; 4. a welding groove; 41. a jacking groove; 42. a groove; 43. an elastic steel sheet; 44. a rubber strip; 5. a welding mechanism; 51. a movable seat; 52. a hydraulic cylinder; 53. a welding gun; 6. a storage mechanism; 61. a storage cylinder; 62. a discharge chute; 63. a bar-shaped groove; 64. a ferrule; 65. a fixed rod; 7. a synchronous feeding and discharging mechanism; 71. a mounting base; 72. a biaxial servo motor; 73. a first screw; 74. a second screw; 75. moving the bar; 76. a push rod; 77. a moving sleeve; 78. a cross beam; 79. a top shaft; 710. a nut sleeve; 711. a connecting rod; 8. a collection assembly; 81. a bottom plate; 82. a collection cylinder; 83. and a baffle.

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. 1-5, the present invention provides three technical solutions:

example 1

Referring to fig. 1, in the embodiment of the invention, a metal structure welding processing device for producing an electric wave movement comprises a base 1, wherein a limit post 2 is arranged at the upper part of the base 1, a disc seat 3 is rotatably arranged at the outer part of the limit post 2, four welding grooves 4 are arranged at the upper part of the disc seat 3 in a ring array mode, the welding grooves 4 extend to the outer edge of the disc seat 3, so that an electric wave movement chip just enters the welding grooves 4, a welding mechanism 5 is arranged at the position, above the disc seat 3, of the outer part of the limit post 2, a storage mechanism 6 is arranged at one side of the upper end of the limit post 2, a synchronous feeding and discharging mechanism 7 is arranged at the bottom of the storage mechanism 6, and a collecting assembly 8 is arranged at one side of the base 1.

Referring to fig. 2, in the embodiment of the invention, the material storage mechanism 6 includes a material storage barrel 61 for storing the electric wave core chip and a fixing rod 65 connected to one side of the upper end of the limit post 2, one end of the fixing rod 65 away from the limit post 2 is connected with a ferrule 64, the ferrule 64 is fixedly sleeved on the outer wall of the material storage barrel 61, a discharging groove 62 is arranged on one side below the material storage barrel 61, the height of the discharging groove 62 is equal to the thickness of the electric wave core chip, the electric wave core chip can just pass through the discharging groove 62, the internal size of the material storage barrel 61 is equal to the size of the electric wave core chip, and the discharging groove 62 is attached to the outer edge of the disc seat 3.

Referring to fig. 3, in the embodiment of the present invention, the synchronous feeding and discharging mechanism 7 includes a mounting seat 71 connected to the bottom of the storage barrel 61, a dual-shaft servo motor 72 is installed at the lower end of the mounting seat 71, two output shafts of the dual-shaft servo motor 72 are respectively connected with a first screw 73 and a second screw 74 with opposite external threads, a moving bar 75 is screwed on the outer side of the first screw 73, a push rod 76 is disposed on one side of the upper end of the moving bar 75, a through hole matched with the push rod 76 is disposed on one side of the storage barrel 61 far from the discharge chute 62, the push rod 76 can just penetrate through the through hole, the through hole corresponds to the position of the discharge chute 62, a nut sleeve 710 is screwed on the outer side of the second screw 74, a connecting rod 711 is hinged on the upper side of the nut sleeve 710, the synchronous feeding and discharging mechanism 7 further includes a moving sleeve 77 longitudinally sleeved on the outer side of the limiting post 2, one side of the moving sleeve 77 is higher than the position of the second screw 74, a cross beam 78 is disposed on one side of the moving sleeve 77, a top shaft 79 is disposed on one side of the end of the connecting rod 78 far from the moving sleeve 77, and one end of the connecting rod far from the nut sleeve is hinged between the top shaft 77 and a circle center of the circular disc 79 and a circle center 90 formed by the circle center 90 of the connecting angle formed between the top shaft 79 and the circular disc seat 79.

Referring to fig. 2, in the embodiment of the present invention, a bar-shaped groove 63 is disposed on one side of the storage barrel 61 near the fixing rod 65, and two ends of the bar-shaped groove 63 extend to the discharge groove 62 and the upper opening of the storage barrel 61, respectively, so that a metal chip can be conveniently placed in the storage barrel 61 through the bar-shaped groove 63.

Referring to fig. 4, in the embodiment of the present invention, a jacking groove 41 corresponding to the jacking shaft 79 is provided at the bottom of the welding groove 4, so that the jacking shaft 79 just passes through the jacking groove 41, when the pushing rod 76 pushes the metal chip into the welding groove 4, the jacking shaft 79 just moves into the jacking groove 41, and the metal chip in the welding groove 4 is jacked up, when one end of the pushing rod 76 is located in the through hole in the storage barrel 61, the jacking shaft 79 is located below the jacking groove 41.

Referring to fig. 1 and 4, in the embodiment of the present invention, a gear ring 31 is disposed at an upper middle position of a disc seat 3, the gear ring 31 is rotatably sleeved outside a limiting post 2, a driving servo motor 21 is mounted at a position above the gear ring 31 on one side of the limiting post 2, an output shaft of the driving servo motor 21 is connected with a main gear 22, the main gear 22 is meshed with the gear ring 31, and the disc seat 3 rotates 90 degrees when the driving servo motor 21 works.

Referring to fig. 1, in the embodiment of the invention, the welding mechanism 5 includes a movable seat 51 longitudinally slidably sleeved outside the limiting post 2, a welding gun 53 is installed on the upper portion of one end of the movable seat 51 far away from the limiting post 2, a hydraulic cylinder 52 is installed on one side of the limiting post 2 close to the welding gun 53, an output shaft of the hydraulic cylinder 52 is connected with the bottom of the movable seat 51, and the welding gun 53 forms an angle of 90 degrees with the connection line between the collecting cylinder 82, the storage cylinder 61 and the circle center of the disc seat 3.

The second embodiment is different from the first embodiment in that:

referring to fig. 5, in the embodiment of the present invention, a groove 42 is disposed at the bottom of the inner side of the welding groove 4 near the jacking groove 41, an elastic steel sheet 43 is disposed at the inner side of the groove 42 in an upward inclined manner, a rubber strip 44 is disposed at the other side of the elastic steel sheet 43 and extends out of the groove 42, a metal chip of the electric wave movement is just accommodated between the rubber strip 44 and the inner side of the welding groove 4, when the metal chip is pushed to the innermost side of the welding groove 4, the metal chip leaves the position of the elastic steel sheet 43, and the elastic steel sheet 43 is reset, so that the rubber strip 44 supports the metal chip, thereby positioning the metal chip.

Embodiment three differs from embodiment one in that:

referring to fig. 1, in the embodiment of the invention, the collecting assembly 8 includes a bottom plate 81 disposed at one side of the base 1, a collecting cylinder 82 is disposed at an upper edge of the bottom plate 81, a baffle 83 is disposed at an upper edge of one side of the collecting cylinder 82 away from the disc seat 3, an upper edge of the collecting cylinder 82 is flush with an inner bottom of the welding groove 4, and an upper edge sidewall of the collecting cylinder 82 is attached to an outer edge of the disc seat 3.

Referring to fig. 1, in the embodiment of the invention, an air pump 23 is installed at the rear side of the limiting column 2, an air pipe 24 is connected to the output end of the air pump 23, one end of the air pipe 24 away from the output shaft of the air pump 23 passes through the limiting column 2 and corresponds to the position of the collecting cylinder 82, and the air pipe 24 is located at the upper position of the disc seat 3.

Working principle: putting a metal chip of the electric wave movement into a storage barrel 61, wherein the lowest chip is positioned at a discharge chute 62, then driving a servo motor 21 to drive a main gear 22 to rotate, driving a gear ring 31 meshed with the main gear 22 to rotate, driving a disc seat 3 to rotate by the gear ring 31, enabling a welding chute 4 on the disc seat 3 to move to the position of the discharge chute 62, then driving a first screw 73 and a second screw 74 to rotate by a double-shaft servo motor 72, driving a moving bar 75 to move by the first screw 73, driving a push rod 76 to move by the moving bar 75, enabling the push rod 76 to push the lowest chip in the storage barrel 61 to the top, enabling the chip to be pushed into the innermost side of the welding chute 4, enabling the last chip in the storage barrel 61 to be pressed on the upper part of the push rod 76, enabling the last chip to fall down to the initial position after the chip is pushed out, and enabling the next chip to be fed;

when the chip passes through the elastic steel sheet 43, the elastic steel sheet 43 is pressed downwards, and when the chip leaves the elastic steel sheet 43, the elastic steel sheet 43 is reset under the elasticity of the elastic steel sheet 43, and the chip is abutted against the innermost side of the welding groove 4, so that the chip cannot be moved out, the chip is fixed, and the welding stability of the metal chip is ensured;

then the disc seat 3 continues to rotate, the fed chip moves to the position of the welding gun 53, the hydraulic cylinder 52 drives the moving seat 51 to move downwards, the moving seat 51 can enable the welding gun 53 to move to the chip, the welding gun 53 performs welding work on the chip, after welding is finished, the disc seat 3 rotates 90 degrees again, so that the next fed chip moves to the position of the welding gun 53 to perform welding work on the next chip, and the last welded chip moves to the position of the top shaft 79;

during the work of the double-shaft servo motor 72, the second screw 74 is driven to rotate, the second screw 74 drives the nut sleeve 710 to move, the nut sleeve 710 enables the connecting rod 711 to drive the moving sleeve 77 to move, the moving sleeve 77 drives the jacking shaft 79 on the cross beam 78 to move upwards, the jacking shaft 79 penetrates through the jacking groove 41 in the welding groove 4 to jack up the welded chip, the positioning work of the chip is relieved, after the jacking, the air pump 23 works, air is sprayed out of the air pipe 24, the air is sprayed to the jacked chip, the chip is blown to the position of the collecting cylinder 82, the chip falls into the collecting cylinder 82 under the blocking of the baffle 83, so that the blanking work is completed, then the disc seat 3 continues to rotate by 90 degrees, the welding groove 4 after the blanking moves to the position of the storing mechanism 6, the feeding work is continued, and the feeding work is carried out at the same time on the previous station, so that the circulation is formed.

And all that is not described in detail in this specification is well known to those skilled in the art.

Claims (8)

1. The utility model provides a metallic structure welding processing device is used in electric wave core production, includes base (1), its characterized in that: the upper portion of base (1) is provided with spacing post (2), the outside rotation of spacing post (2) is provided with disc seat (3), the upper portion of disc seat (3) is annular array's mode and is provided with four welding groove (4), welding groove (4) extend to the outward flange department of disc seat (3) for the electric wave core chip just in time enters into in welding groove (4), the outside of spacing post (2) is located the upper position department of disc seat (3) and is provided with welding mechanism (5), upper end one side of spacing post (2) is provided with storage mechanism (6), the bottom of storage mechanism (6) is provided with synchronous feeding and discharging mechanism (7), one side of base (1) is provided with collection subassembly (8);

the storage mechanism (6) comprises a storage barrel (61) for storing the electric wave movement chip and a fixed rod (65) connected to one side of the upper end of the limit column (2), one end, far away from the limit column (2), of the fixed rod (65) is connected with a hoop (64), the hoop (64) is fixedly sleeved on the outer wall of the storage barrel (61), a discharge chute (62) is arranged on one side below the storage barrel (61), the height of the discharge chute (62) is equal to the thickness of the electric wave movement chip, the electric wave movement chip can just pass through the discharge chute (62), the inner size of the storage barrel (61) is equal to the size of the electric wave movement chip, and the discharge chute (62) is attached to the outer edge of the disc seat (3);

the synchronous feeding and discharging mechanism (7) comprises a mounting seat (71) connected to the bottom of the storage barrel (61), a double-shaft servo motor (72) is mounted at the lower end of the mounting seat (71), two output shafts of the double-shaft servo motor (72) are respectively connected with a first screw (73) and a second screw (74) with mutually opposite external threads, a moving strip (75) is screwed outside the first screw (73) through threads, a push rod (76) is arranged at one side of the upper end of the moving strip (75), a through hole matched with the push rod (76) is arranged at one side of the storage barrel (61) far away from the discharge groove (62), the push rod (76) can just penetrate through the through hole, the through hole corresponds to the position of the discharge groove (62), a nut sleeve (710) is screwed outside the second screw (74), a connecting rod (711) is hinged at the upper side of the nut sleeve (710), the synchronous feeding and discharging mechanism (7) further comprises a moving sleeve (77) longitudinally sleeved outside the limiting post (2), the moving sleeve (77) is higher than the position of the second screw (74), one side of the moving sleeve (77) far away from the moving sleeve (77) is arranged at one side of the connecting rod (78) far away from the cross beam (77), an included angle formed between the connecting lines of the top shaft (79) and the circle center of the discharge chute (62) and the disc seat (3) is 90 degrees.

2. The welding and processing device for metal structures for producing radio wave cores according to claim 1, wherein: one side of the storage barrel (61) close to the fixed rod (65) is provided with a strip-shaped groove (63) communicated with the inside of the storage barrel, and two ends of the strip-shaped groove (63) extend to the discharge groove (62) and the upper opening of the storage barrel (61) respectively.

3. The welding and processing device for metal structures for producing radio wave cores according to claim 1, wherein: the bottom of the welding groove (4) is provided with a jacking groove (41) corresponding to the jacking shaft (79), so that the jacking shaft (79) just penetrates through the jacking groove (41).

4. The welding and processing device for metal structures for producing radio wave cores according to claim 1, wherein: the upper middle position department of disc seat (3) is provided with gear circle (31), and the outside of spacing post (2) is located to gear circle (31) rotation cover, drive servo motor (21) are installed to one side of spacing post (2) in the top position department of gear circle (31), and the output shaft of drive servo motor (21) has master gear (22), and master gear (22) meshes with gear circle (31) mutually.

5. The welding and processing device for metal structures for producing radio wave cores according to claim 1, wherein: the welding mechanism (5) comprises a movable seat (51) longitudinally sleeved outside the limiting column (2), a welding gun (53) is installed on the upper portion of one end, far away from the limiting column (2), of the movable seat (51), a hydraulic cylinder (52) is installed on one side, close to the welding gun (53), of the limiting column (2), and an output shaft of the hydraulic cylinder (52) is connected with the bottom of the movable seat (51).

6. A metal structure welding processing device for radio wave movement production according to claim 3, wherein: the welding device is characterized in that a groove (42) is formed in the bottom of the inner side of the welding groove (4) close to the jacking groove (41), an elastic steel sheet (43) is obliquely arranged on the inner side of the groove (42) upwards, a rubber strip (44) is arranged on the other side of the elastic steel sheet (43) extending out of the groove (42), and a metal chip of the electric wave movement is just contained between the rubber strip (44) and the inner side of the welding groove (4).

7. The welding and processing device for metal structures for producing radio wave cores according to claim 1, wherein: the collecting assembly (8) comprises a bottom plate (81) arranged on one side of the base (1), a collecting cylinder (82) is arranged on the upper portion of the bottom plate (81), a baffle (83) is arranged at the upper edge of one side, far away from the disc seat (3), of the collecting cylinder (82), the upper edge of the collecting cylinder (82) is flush with the bottom of the inner side of the welding groove (4), and the side wall of the upper edge of the collecting cylinder (82) is attached to the outer edge of the disc seat (3).

8. The welding and processing device for metal structures for producing radio wave cassette mechanisms according to claim 7, wherein: the air pump (23) is installed to the rear side of spacing post (2), and the output of air pump (23) is connected with trachea (24), and one end that air pump (23) output shaft was kept away from to trachea (24) passes spacing post (2) and corresponds with the position of collection tube (82), and trachea (24) are located the upper position department of disc seat (3).