CN215295931U - 5G ultrathin soaking plate secondary degassing and tail sealing device - Google Patents

Abstract

The utility model relates to a soaking plate tail sealing removal technical field, in particular to a 5G ultra-thin soaking plate secondary degassing tail sealing device, which comprises a heating plate tail sealing mechanism bottom plate mounting bracket, wherein the bottom of the heating plate tail sealing mechanism bottom plate mounting bracket is placed on the ground through a plurality of support rods, each support rod bottom is provided with a reinforcing plate, a multi-station laser welding assembly for welding a clamping rod and a soaking plate, a tail sealing mechanism for cutting the clamping rod and a transplanting jacking assembly for driving the soaking plate to ascend are sequentially arranged on the heating plate tail sealing mechanism bottom plate mounting bracket from top to bottom, the top of the heating plate tail sealing mechanism bottom plate mounting bracket is fixedly connected with a material base for assisting the movement of the multi-station laser welding assembly through bolts, the utility model discloses a device can carry out integrated production on different processes of tail sealing of the soaking plate, and simultaneously carry out multi-station production, the manpower and material resources are reduced, and the production efficiency of the equipment is improved.

Description

5G ultrathin soaking plate secondary degassing and tail sealing device

Technical Field

The utility model relates to a soaking plate removes to seal tail technical field particularly, relates to ultra-thin soaking plate secondary degassing of 5G seals tail device.

Background

The inside treater of cell-phone can have the condition that generates heat in work, install the soaking plate for this cell-phone usually and carry out the heat conduction, thereby reach high-efficient radiating effect, be used for process flow's reason in the workshop in the time of producing the soaking plate, the heating panel top is for there being the push rod, the effect of push rod is the convenient soaking plate of transport, for this reason the soaking plate need carry out the secondary in the workshop and seal the tail, cut unnecessary kelly, weld level unnecessary deckle edge through the bonding tool, it needs to use a plurality of process flow to seal the tail because of the secondary removes, need personnel to transport the soaking plate to different equipment and process for this reason, this kind of processing method wastes time and energy, influence the inside production rate in workshop, for this reason design one can the multistation and with the equipment of process flow integration.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides the ultra-thin soaking plate secondary degasification of 5G seals the tail device, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

5G ultra-thin vapor chamber secondary degasification tail-sealing device, including hot plate tail-sealing mechanism bottom plate mounting support, hot plate tail-sealing mechanism bottom plate mounting support bottom is placed subaerial through a plurality of bracing pieces, every the bracing piece bottom all is equipped with the reinforcing plate, from the top down sets gradually the multistation laser welding subassembly that is used for welding kelly and vapor chamber on the hot plate tail-sealing mechanism bottom plate mounting support, is used for cutting the tail-sealing mechanism of kelly, is used for driving the ascending transplantation jacking subassembly of vapor chamber, hot plate tail-sealing mechanism bottom plate mounting support top is used for assisting the material base that multistation laser welding subassembly removed through bolt fixed connection.

Preferably, multistation laser welding subassembly includes servo motor, ball screw, bolt fixed connection servo motor is passed through to material base one end, servo motor stretches into material base one end and output shaft and passes through stepped coupling and connect ball screw, the last articulated ball screw cover that has of ball screw, ball screw sheathes in welded fastening has the mounting panel.

Preferably, the mounting plate is hinged to the material base, the top of one side of the mounting plate is fixedly connected with a third cylinder through a bolt, and an output shaft of the third cylinder is fixedly connected with the optical fiber laser welder.

As preferred, seal tail mechanism and include first ultra-thin cylinder, unsteady joint, L type even board, seal tail mechanism bottom plate and pass through bolt fixed connection and seal tail mechanism bottom plate installing support at the hot plate, seal tail mechanism bottom plate and be close to two first ultra-thin cylinders of hot plate seal tail mechanism bottom plate installing support one end fixed connection, the output shaft of two first ultra-thin cylinders all links the board through unsteady joint connection L type.

Preferably, the bottom of the L-shaped connecting plate is fixedly connected with interchangeable sliding blocks through spring pulling plates, the interchangeable sliding blocks are hinged to interchangeable sliding rails arranged on two sides of the upper surface of a bottom plate of the tail sealing mechanism, the L-shaped connecting plate is fixedly connected with a second ultrathin cylinder, an output shaft of the second ultrathin cylinder is fixedly connected with a scissors table, and one side, far away from the second ultrathin cylinder, of the scissors table is fixedly connected with a cutter used for cutting a clamping rod.

As preferred, transplant jacking subassembly and include heating copper, locating plate, stainless steel mini cylinder, the mini cylinder of stainless steel passes through bolt fixed mounting and seals tail mechanism bottom plate installing support at the hot plate, the output shaft fixed connection hot plate of the mini cylinder of stainless steel seals tail mechanism bottom plate, hot plate seal tail mechanism bottom plate top is fixed with the soaking plate through the heating copper.

Preferably, the vapor chamber is integrally provided with a clamping rod, the upper surface of the heating plate tail sealing mechanism bottom plate is fixedly provided with a double-shaft type precision sliding table cylinder, an output shaft of the double-shaft type precision sliding table cylinder is fixedly connected with the sliding table cylinder tail sealing mechanism bottom plate, and the top of the sliding table cylinder tail sealing mechanism bottom plate is fixedly connected with a positioning plate for clamping the clamping rod.

Compared with the prior art, the utility model discloses following beneficial effect has:

the bottom plate of the heating plate tail sealing mechanism is pushed to move upwards to the tail sealing mechanism by the stainless steel mini cylinder at the lower end, then two L-shaped connecting plates can be pushed by controlling two first ultrathin cylinders, two sides of the L-shaped connecting plates slide in the interchangeable slide rail through the interchangeable slide block to enable the equipment to stably run, the second ultrathin cylinder is driven to move by driving the L-shaped connecting plates, then the cutter is driven to cut the clamping rod by high-speed driving of the second ultrathin cylinder, after the cutting is finished, the third cylinder at the upper end drives the optical fiber laser welder to move downwards to weld the clamping rod to remove burrs due to the fragile structure of the clamping rod, the servo motor can be operated when a station needs to be transferred, and the ball screw sleeve at the upper end is driven to move by the rotation of the servo motor so as to achieve the effect of moving the optical fiber laser welder, the integrated production can be carried out on the different processes of the tail sealing of the soaking plate by the equipment, and the multi-station production is carried out simultaneously, so that the manpower and material resources are reduced, and the production efficiency of the equipment is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the secondary degassing and end-sealing device of the 5G ultra-thin soaking plate of the present invention;

FIG. 2 is a schematic view of a tail sealing mechanism of the 5G ultra-thin soaking plate secondary degassing and tail sealing device of the utility model;

FIG. 3 is a schematic structural view of a multi-station laser welding of the 5G ultra-thin vapor chamber secondary degassing and end-sealing device of the present invention;

fig. 4 is the structure schematic diagram of the transplantation jacking component of the 5G ultra-thin soaking plate secondary degassing and tail sealing device.

In the figure: 1. a heating plate tail sealing mechanism bottom plate mounting bracket; 2. a support bar; 3. a reinforcing plate; 4. a timber base; 5. performing multi-station laser welding on the assembly; 501. a servo motor; 502. a stepped coupling; 503. a ball screw; 504. a ball screw housing; 505. mounting a plate; 506. a third cylinder; 507. an optical fiber laser welder; 6. a tail sealing mechanism; 601. a first ultra-thin cylinder; 602. a floating joint; 603. an L-shaped connecting plate; 604. a second ultra-thin cylinder; 605. a scissor table; 606. a cutter; 607. a tail sealing mechanism bottom plate; 608. interchangeable slide rails; 609. a spring pulling plate; 610. interchangeable sliders; 7. transplanting a jacking assembly; 701. heating the copper plate; 702. a vapor chamber; 703. positioning a plate; 704. a sliding table cylinder tail sealing mechanism bottom plate; 705. a biaxial type precision slide table cylinder; 706. a heating plate tail sealing mechanism bottom plate; 707. a stainless steel mini cylinder; 708. and (5) clamping the rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

As shown in fig. 1-4, the ultra-thin vapor chamber secondary degassing of 5G seals the tail device, including hot plate seal tail mechanism bottom plate installing support 1, hot plate seal tail mechanism bottom plate installing support 1 bottom is placed subaerial through a plurality of bracing pieces 2, 2 bottoms of every bracing piece all are equipped with reinforcing plate 3, hot plate seal tail mechanism bottom plate installing support 1 is gone up from the top down and has set gradually the multistation laser welding subassembly 5 that is used for welding kelly 708 and vapor chamber 702, a seal tail mechanism 6 that is used for cutting kelly 708, a transplantation jacking subassembly 7 that is used for driving vapor chamber 702 to rise, hot plate seal tail mechanism bottom plate installing support 1 top is used for assisting the material base 4 that multistation laser welding subassembly 5 removed through bolt fixed connection.

According to the technical scheme, firstly, a soaking plate 702 is fixed on two heating copper plates 701, then a double-shaft type precision sliding table air cylinder 705 is started to drive a sliding table air cylinder tail sealing mechanism bottom plate 704 to fix a clamping rod 708 on the soaking plate 702 on the heating copper plates 701 through an upper end positioning plate 703, so that the subsequent processing flow can stably run, a heating plate tail sealing mechanism bottom plate 706 is pushed to move upwards to a tail sealing mechanism 6 through a stainless steel mini air cylinder 707 at the lower end, then two L-shaped connecting plates 603 can be pushed by controlling two first ultrathin air cylinders 601, two sides of the L-shaped connecting plates 603 slide in an interchangeable sliding rail 608 through an interchangeable sliding block 610, so that the equipment stably runs, a second ultrathin air cylinder 604 is driven to move by driving the L-shaped connecting plates 603, then a cutter 606 is driven to cut the clamping rod 708 through the high-speed drive of the second ultrathin air cylinder 604, because the structure of card pole 708 is fragile, after the cutting is accomplished, thereby drive optic fibre laser welding ware 507 downstream through the third cylinder 506 of upper end and weld card pole 708 and get rid of the deckle edge, can make servo motor 501 operate when needing to shift the station, thereby the rotation through connecting servo motor 501 and then drive the ball screw cover 504 of upper end and remove the effect that reaches removal optic fibre laser welding ware 507.

It should be noted that the multi-station laser welding assembly 5 includes a servo motor 501 and a ball screw 503, one end of the material base 4 is fixedly connected with the servo motor 501 through a bolt, the servo motor 501 extends into one end of the material base 4 and an output shaft is connected with the ball screw 503 through a stepped coupling 502, a ball screw sleeve 504 is hinged on the ball screw 503, a mounting plate 505 is welded and fixed on the ball screw sleeve 504, the soaking plate 702 is fixed on two heating copper plates 701, then a biaxial precision sliding table cylinder 705 is started, the sliding table cylinder end sealing mechanism bottom plate 704 is driven to fix a clamping rod 708 on the soaking plate 702 through an upper end positioning plate 703 on the heating copper plate 701, so that the subsequent processing flow can stably run, and the heating plate end sealing mechanism bottom plate 706 is pushed to move upwards to the end sealing mechanism 6 through a stainless steel mini cylinder 707 at the lower end.

In the embodiment, a mounting plate 505 is hinged on a material base 4, the top of one side of the mounting plate 505 is fixedly connected with a third cylinder 506 through a bolt, an output shaft of the third cylinder 506 is fixedly connected with an optical fiber laser welding device 507, a tail sealing mechanism 6 comprises a first ultrathin cylinder 601, a floating joint 602, an L-shaped connecting plate 603 and a tail sealing mechanism bottom plate 607, the tail sealing mechanism bottom plate 607 is fixedly connected with a heating plate tail sealing mechanism bottom plate mounting bracket 1 through a bolt, one end of the tail sealing mechanism bottom plate 607 close to the heating plate tail sealing mechanism bottom plate mounting bracket 1 is fixedly connected with two first ultrathin cylinders 601, the output shafts of the two first ultrathin cylinders 601 are connected with the L-shaped connecting plate 603 through the floating joint 602, then the two L-shaped connecting plates 603 can be pushed through controlling the two first ultrathin cylinders 601, two sides of the L-shaped connecting plate 603 slide in an interchangeability slide rail 608 through an interchangeability slide block 610, the stable operation of messenger's equipment has thereby driven the ultra-thin cylinder 604 of second and has removed through driving the even board 603 of L type, then drives through the high-speed drive of the ultra-thin cylinder 604 of second and drives cutter 606 and cut kelly 708.

Wherein, the bottoms of the two L-shaped connecting plates 603 are fixedly connected with an interchangeable sliding block 610 through a spring pulling plate 609, the two interchangeable sliding blocks 610 are hinged on interchangeable sliding rails 608 arranged at two sides of the upper surface of a tail sealing mechanism bottom plate 607, the two L-shaped connecting plates 603 are jointly and fixedly connected with a second ultrathin cylinder 604, an output shaft of the second ultrathin cylinder 604 is fixedly connected with a scissors table 605, one side of the scissors table 605 far away from the second ultrathin cylinder 604 is fixedly connected with a cutter 606 for cutting a clamping rod 708, the transplanting jacking component 7 comprises a heating copper plate 701, a positioning plate 703 and a stainless steel mini cylinder 707, the stainless steel mini cylinder 707 is fixedly arranged on a heating plate tail sealing mechanism bottom plate mounting bracket 1 through bolts, the output shaft of the stainless steel mini cylinder 707 is fixedly connected with a heating plate tail sealing mechanism bottom plate 706, a soaking plate 702 is fixed at the top of the heating plate tail sealing mechanism bottom plate 706 through the heating copper plate 701, then the cutter 606 is driven by the high speed of the second ultrathin cylinder 604 to cut the clamping rod 708, because the clamping rod 708 is fragile in structure, after the cutting is completed, the third air cylinder 506 at the upper end drives the optical fiber laser welding device 507 to move downwards to weld the clamping rod 708, so that burrs are removed.

It can be understood, in this application, the integration is equipped with kelly 708 on the soaking plate 702, fixed surface installs two axle type precision slide table cylinder 705 on the hot plate seal tail mechanism bottom plate 706, two axle type precision slide table cylinder 705 output shaft fixed connection slide table cylinder seal tail mechanism bottom plate 704, slide table cylinder seal tail mechanism bottom plate 704 top fixed connection is used for chucking kelly 708's locating plate 703, thereby the ball screw cover 504 through connecting servo motor 501 rotates and then drives the upper end removes the effect that reaches removal fiber laser welding ware 507.

The working principle of the 5G ultrathin soaking plate secondary degassing and tail sealing device is as follows: firstly fixing a soaking plate 702 on two heating copper plates 701, then starting a double-shaft type precision sliding table air cylinder 705 to drive a sliding table air cylinder tail sealing mechanism bottom plate 704 to fix a clamping rod 708 on the soaking plate 702 through an upper end positioning plate 703 to ensure that the subsequent processing flow can stably run, pushing a heating plate tail sealing mechanism bottom plate 706 to move upwards to a tail sealing mechanism 6 through a stainless steel mini-air cylinder 707 at the lower end, then pushing two L-shaped connecting plates 603 through controlling two first ultrathin air cylinders 601, wherein two sides of the L-shaped connecting plates 603 slide in an interchangeability slide rail 608 through an interchangeability slide block 610 to ensure that equipment stably runs, driving the L-shaped connecting plates 603 to drive a second ultrathin air cylinder 604 to move, then driving a cutter 606 to cut the clamping rod 708 through the high-speed driving of the second ultrathin air cylinder 604, and because the clamping rod 708 has a fragile structure, after the cutting is accomplished, thereby drive fiber laser welding ware 507 downstream through the third cylinder 506 of upper end and weld joint clamping bar 708 and get rid of deckle edge, can make servo motor 501 operate when needing to shift the station, thereby the rotation through connecting servo motor 501 and then drive the ball screw cover 504 of upper end and remove the effect that reaches removal fiber laser welding ware 507.

The specific types of the first ultrathin cylinder 601, the second ultrathin cylinder 604, the third cylinder 506 and the double-shaft type precision sliding table cylinder 705 are SDA-02.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1.5G ultra-thin soaking plate secondary degasification seals tail device, seals tail mechanism bottom plate installing support (1) including the hot plate, its characterized in that: the hot plate seals tail mechanism bottom plate mounting support (1) bottom and places subaerial, every through a plurality of bracing pieces (2) bracing piece (2) bottom all is equipped with reinforcing plate (3), from the top down sets gradually multistation laser welding subassembly (5) that are used for welding kelly (708) and vapor chamber (702), seals tail mechanism (6) that are used for cutting kelly (708), is used for driving vapor chamber (702) ascending transplantation jacking subassembly (7) on hot plate seals tail mechanism bottom plate mounting support (1), hot plate seals tail mechanism bottom plate mounting support (1) top and is used for assisting material base (4) that multistation laser welding subassembly (5) removed through bolt fixed connection.

2. The 5G ultrathin soaking plate secondary degassing and tail sealing device according to claim 1, characterized in that: multistation laser welding subassembly (5) are including servo motor (501), ball screw (503), bolt fixed connection servo motor (501) are passed through to material base (4) one end, servo motor (501) stretch into material base (4) one end and output shaft and pass through stepped shaft coupling (502) and connect ball screw (503), it has ball screw cover (504) to articulate on ball screw (503), welded fastening has mounting panel (505) on ball screw cover (504).

3. The 5G ultrathin soaking plate secondary degassing and tail sealing device according to claim 2, characterized in that: the mounting plate (505) articulates on material base (4), bolt fixed connection third cylinder (506) is passed through at mounting plate (505) one side top, the output shaft fixed connection optic fibre laser welding ware (507) of third cylinder (506).

4. The 5G ultrathin soaking plate secondary degassing and tail sealing device according to claim 1, characterized in that: seal tail mechanism (6) and link board (603), seal tail mechanism bottom plate (607) including first ultra-thin cylinder (601), unsteady joint (602), L type, seal tail mechanism bottom plate (607) seals tail mechanism bottom plate installing support (1) at the hot plate through bolt fixed connection, seal tail mechanism bottom plate (607) and be close to two first ultra-thin cylinders (601) of hot plate seal tail mechanism bottom plate installing support (1) one end fixed connection, the output shaft of two first ultra-thin cylinders (601) all connects L type and links board (603) through unsteady joint (602).

5. The 5G ultra-thin soaking plate secondary degassing and tail sealing device according to claim 4, characterized in that: the bottom of each L-shaped connecting plate (603) is fixedly connected with an interchangeability sliding block (610) through a spring pulling plate (609), the interchangeability sliding blocks (610) are hinged to interchangeability sliding rails (608) arranged on two sides of the upper surface of a tail sealing mechanism bottom plate (607), the L-shaped connecting plates (603) are jointly and fixedly connected with a second ultrathin cylinder (604), an output shaft of the second ultrathin cylinder (604) is fixedly connected with a shear table (605), and one side, far away from the second ultrathin cylinder (604), of the shear table (605) is fixedly connected with a cutter (606) used for cutting a clamping rod (708).

6. The 5G ultrathin soaking plate secondary degassing and tail sealing device according to claim 1, characterized in that: transplant jacking subassembly (7) including heating copper (701), locating plate (703), stainless steel mini cylinder (707) seal tail mechanism bottom plate installing support (1) at the hot plate through bolt fixed mounting, output shaft fixed connection hot plate seal tail mechanism bottom plate (706) of stainless steel mini cylinder (707), hot plate seal tail mechanism bottom plate (706) top is fixed with soaking board (702) through heating copper (701).

7. The 5G ultra-thin soaking plate secondary degassing and tail sealing device according to claim 6, characterized in that: the integrated card pole (708) that is equipped with on soaking board (702), fixed surface installs two axle type precision slide table cylinder (705) on hot plate seal tail mechanism bottom plate (706), two axle type precision slide table cylinder (705) output shaft fixed connection slide table cylinder seal tail mechanism bottom plate (704), slide table cylinder seal tail mechanism bottom plate (704) top fixed connection is used for chucking locating plate (703) of card pole (708).

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