CN108838518B

CN108838518B - Laser closing device with specific diaphragm structure

Info

Publication number: CN108838518B
Application number: CN201810761392.1A
Authority: CN
Inventors: 袁美华
Original assignee: Taizhou Radium Rising Photoelectric Technology Co ltd
Current assignee: Shanghai Paipin Photoelectric Technology Co ltd
Priority date: 2018-07-12
Filing date: 2018-07-12
Publication date: 2020-10-23
Anticipated expiration: 2038-07-12
Also published as: CN108838518B8; CN108838518A

Abstract

The invention discloses a laser sealing device with a specific membrane structure, based on the prior art, the device adopts manual control mechanical transmission, analyzes actual flow and conditions according to a remote intelligent detection end, can form a sealing membrane under the action of laser heating under the action of air pressure and materials, thereby having the effect of sealing a pipeline, drives a rotating mechanism through a control supporting device, can drive a matching mechanism and an air pressure pressing material device to lift under the action of a lifting device and a transmission mechanism, can solidify the materials and a sealing heated ring under the action of a laser heating device, thereby forming the membrane, and when the device needs to be conducted, the air pressure is fed in for back pumping, and the sealing membrane can be automatically broken under the influence of the air pressure, thereby realizing bidirectional control, and improving the practicability and convenience of the device.

Description

Laser closing device with specific diaphragm structure

Technical Field

The invention relates to the field of laser sealing, in particular to a laser sealing device with a specific membrane structure.

Background

The most important high and new technology which is the fastest and widely applied technology is the photoelectric technology, and one of the basic technologies is the laser technology, the laser is applied to the aspects of medicine, building measurement, storage and the like, the pipeline is closed under the condition that the air pressure and materials are matched through laser heating, and the cavity is filled through the access channel by the expected gas and the expected internal pressure. Finally, the area surrounding the inlet channel is locally heated by the aid of the laser, the substrate material is locally liquefied and the inlet channel is hermetically sealed during solidification, but gas and internal pressure cannot be solidified and conducted according to actual conditions, the prior art adopts the gas and air pressure under the condition of laser heating to form solidification on the material, but the solidification cannot be carried out according to the actual conditions and conduction cannot be realized, and the bidirectional use function is omitted, so that the whole device can be continuously carried out only through manual disassembly after being used up, the use procedure is complicated, and the practicability and convenience of the device are reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the laser sealing device with the specific diaphragm structure comprises a flow monitoring meter, a connecting pipeline, a mounting bolt, a control sealing device and a fixing plate, wherein the bottom end of the flow monitoring meter is vertically and fixedly mounted inside the connecting pipeline, one end of the connecting pipeline is fixedly connected to one end of the fixing plate in a welding mode, the connecting pipeline is in transition fit with the control sealing device through the fixing plate, the fixing plate is meshed and connected with the mounting bolt through threads, one end of the control sealing device is fixedly connected to the fixing plate, the control sealing device comprises a control supporting device, a rotating mechanism, a lifting device, a transmission mechanism, a matching mechanism, an air pressure material manufacturing device and a laser heating device, the inner surface of the upper end of the control supporting device is fixedly connected together in an electric welding mode, the control supporting device is in interference fit with the lifting device through the rotating mechanism, one end of the lifting device is mechanically connected with the top end of the transmission mechanism, the transmission mechanism is in transition fit with the air pressure material making device through the matching mechanism, the air pressure material making device is in fit connection with the laser heating device, and the laser heating device base is fixedly installed on the inner surface of the bottom end of the control supporting device in a welding mode.

As a further optimization of this technical scheme, control strutting arrangement include rotary control axle, control collar circle, control gear train, control groove axle, groove axle mount pad, support shell, rotary control axle's bottom adopt the mode fixed connection of electric welding in the top of the control gear train that is located the top, be located the below the one end of control gear train adopts the one end of welded mode and control groove axle to install together, the perpendicular activity of the other end of control groove axle inlay in the inside of groove axle mount pad, the base of groove axle mount pad and the internal surface on support shell top weld mutually, rotary mechanism top and the recess laminating cooperation of control groove axle, support shell's internal surface adopt welded mode and elevating gear fixed connection, cooperation mechanism be located the internal surface of support shell middle section.

As a further optimization of the technical scheme, the rotating mechanism comprises a grooved shaft connecting rod, a mounting ring, a fixed rail rod, a mounting rod, a built-in threaded rotating disk, a double-cone gear column and a threaded wheel disk, the bottom end of the grooved shaft connecting rod is mutually connected with the outer surface of the mounting ring in a bonding mode, the inner surface of the mounting ring is mutually attached to the outer surface of the fixed rail rod, one end of the mounting rod is movably embedded into the outer surface of the mounting ring, the other end of the mounting rod is movably embedded on the built-in thread rotating disk, the built-in thread rotating disk is meshed with a gear at one end of the double-cone gear column through internal threads, the internal thread rotary disc is in transition fit with the thread wheel disc through the double-cone gear column, the thread wheel disc is matched with the other end of the double-cone gear column through threads, and the thread wheel disc is in transition connection with the lifting device.

As the further optimization of this technical scheme, elevating gear include the installation area, installation pivot, drum, wire winding, installation wire seat, lift line board, lift frid, lifting slide, the one end of installation area laminate each other with the surface of installation pivot, the bottom and the drum of installation pivot splice mutually, the top fixed mounting of drum in the bottom of drum, lift line board on through welded mode fixedly connected with installation wire seat, the installation wire seat pass through wire winding and drum transition fit together, a side of lift frid splice mutually with lifting slide's surface, lift frid and drive mechanism's one end slide and laminate.

As a further optimization of the technical scheme, the transmission mechanism comprises a convex column transmission rod, a right-angle transmission rod, a mandril, a ratchet wheel disc, a ratchet mandril, a transmission wheel disc and a transmission belt, wherein the convex column transmission rod is in transition fit with the mandril through the right-angle transmission rod, the right-angle transmission rod is fixedly connected with the mandril through a gluing mode, the ratchet wheel disc is nested with the ratchet mandril, the outer surface of the inner part of the transmission wheel disc is mutually attached with the transmission belt, and the transmission belt is connected with the matching mechanism in an attaching mode.

As the further optimization of this technical scheme, cooperation mechanism include screw thread driving dish, screw thread fit dish, cooperation pivot, tapered gear group, the solid fixed ring of screw thread post, screw thread ring, screw thread base, screw thread driving dish pass through screw thread fit dish and cooperation pivot transition fit, tapered gear group pass through the solid fixed ring of screw thread post and screw thread post interference fit, the screw thread ring pass through the inside intermeshing of screw thread and screw thread base, the screw thread ring be connected with the one end that material device was made to atmospheric pressure.

As a further optimization of the technical scheme, the air pressure material manufacturing device comprises a threaded ring mounting seat, an action rod, a sealing sleeve, a piston, an air pressure pipe body, a material film forming air pressure hole and a sealing heated ring, the threaded ring mounting seat is in transition fit with the sealing sleeve through the action rod, the piston is mutually attached to the inner surface of the air pressure pipe body in an attaching mode, the material film forming air pressure hole is nested with the sealing heated ring, and the sealing heated ring is in fit connection with the laser heating device.

As a further optimization of the technical scheme, the laser heating device comprises a far-end control panel, a laser braking box, a connecting line kit, a laser ring, an angle connecting pipe and a laser heating ring, wherein the far-end control panel is in transition fit with the connecting line kit through the laser braking box, one end of the laser is bonded with one end of the laser ring, and the laser ring is in interference fit with the laser heating ring through the angle connecting pipe.

Advantageous effects

The laser sealing device with the specific membrane structure can seal and conduct the whole flow by controlling the sealing device, more accurately control, control the rotation of the rotating control shaft by judging the flow detection meter and the actual condition, drive the rotation of the internal thread rotating disc by the control gear set, the control groove shaft and the connection rod of the groove shaft through the mounting ring and the mounting rod, drive the wire coil and the mounting rotating shaft to rotate by the driving of the thread wheel disc and the mounting belt, so that the lifting wire plate, the lifting groove plate and the lifting slide block start to do lifting motion under the action of the winding shaft, drive the matching of the groove in the lifting groove plate and the convex column driving rod, and drive the ratchet wheel plate to start to rotate under the matching of the right-angle driving rod, the ejector rod and the ratchet wheel ejector rod, thereby under the effect of drive belt and screw-thread fit dish, rotation through the tapered gear train, the rotation of screw thread post has been driven through the meshing relation down, under the effect through screw thread three-piece suit, can go up and down the extrusion to the piston, thereby the atmospheric pressure change of atmospheric pressure body has been driven, act on the material film-forming atmospheric pressure hole, it is nested mutually with sealed heat ring, can form sealed diaphragm afterwards, and control laser heating device's operation through the remote control end, thereby laser irradiation is on laser heating ring, can make wholly can be to pipeline confined effect under atmospheric pressure and material cooperation.

Based on the prior art, the invention adopts manual control mechanical transmission, analyzes the actual flow and the actual condition according to a remote intelligent detection end, can form a sealing membrane under the action of laser heating under the action of air pressure and materials, thereby having the effect of sealing a pipeline, drives a rotating mechanism through a control supporting device, can drive a matching mechanism and an air pressure to lift a material pressing device under the action of a lifting device and a transmission mechanism, can solidify the materials and a sealing heated ring under the action of the laser heating device, thereby forming a membrane, and can realize bidirectional control by air pressure reverse pumping when needing to be conducted, and the sealing membrane can be automatically broken under the influence of the air pressure, thereby improving the practicability and the convenience of the device.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a laser sealing device with a specific membrane structure according to the present invention;

FIG. 2 is a schematic cross-sectional view of a control seal according to the present invention;

FIG. 3 is a schematic view of a control sealing device according to the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 2;

FIG. 5 is a schematic view of a partial cross-sectional structure of a control sealing device according to the present invention;

fig. 6 is a schematic view of a part of a cross-sectional structure of the control sealing device of the present invention.

In the figure: the device comprises a flow monitoring meter-1, a connecting pipeline-2, a mounting bolt-3, a control sealing device-4, a fixing plate-5, a control supporting device-401, a rotating mechanism-402, a lifting device-403, a transmission mechanism-404, a matching mechanism-405, a pneumatic material making device-406, a laser heating device-407, a rotating control shaft-4011, a control shaft collar-4012, a control gear set-4013, a control grooved shaft-4014, a grooved shaft mounting seat-4015, a support housing-4016, a grooved shaft connecting rod-4021, a mounting ring-4022, a fixed rail rod-4023, a mounting rod-4024, an internal threaded rotating disk-4025, a gear column-4026, a threaded wheel disk-4027, a mounting belt-4031, a mounting rotating shaft-4032, a gear column-4026, a threaded wheel disk-4027, a, Wire coil-4033, wire winding-4034, mounting wire seat-4035, lifting wire plate-4036, lifting groove plate-4037, lifting slider-4038, convex column transmission rod-4041, right-angle transmission rod-4042, mandril-4043, ratchet disc-4044, ratchet mandril-4045, transmission wheel disc-4046, transmission belt-4047, thread transmission disc-4051, thread matching disc-4052, matching rotating shaft-4053, conical gear set-4054, thread column fixing ring-4055, thread column-4056, thread ring-4057, thread base-4058, thread ring mounting seat-4061, action rod-4062, sealing kit-4063, piston-4064, pneumatic tube-4065, material film forming pneumatic hole-4066, sealing heated ring-4067, far-end control plate-4071, far-4071, and, The laser braking box-4072, the connecting wire suite-4073, the laser-4074, the laser ring-4075, the angle connecting pipe-4076 and the laser heating ring-4077.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1 to 6, the present invention provides a laser sealing device with a specific diaphragm structure, which includes a flow monitoring meter 1, a connecting pipe 2, a mounting bolt 3, a control sealing device 4 and a fixing plate 5, wherein the bottom end of the flow monitoring meter 1 is vertically and fixedly mounted inside the connecting pipe 2, one end of the connecting pipe 2 is fixedly connected to one end of the fixing plate 5 by welding, the connecting pipe 2 is transitionally matched with the control sealing device 4 through the fixing plate 5, the fixing plate 5 is engaged and connected with the mounting bolt 3 through a thread, one end of the control sealing device 4 is fixedly connected to the fixing plate 5, the control sealing device 4 includes a control support device 401, a rotation mechanism 402, a lifting device 403, a transmission mechanism 404, a pressure plate 5, and a pressure plate 3, and the pressure plate is fixed to the control sealing device 4 The device comprises a matching mechanism 405, a pneumatic material manufacturing device 406 and a laser heating device 407, wherein the inner surface of the upper end of the control supporting device 401 is fixedly connected together in an electric welding mode, the control supporting device 401 is in interference fit with a lifting device 403 through a rotating mechanism 402, one end of the lifting device 403 is mechanically connected with the top end of a transmission mechanism 404, the transmission mechanism 404 is in transition fit with the pneumatic material manufacturing device 406 through the matching mechanism 405, the pneumatic material manufacturing device 406 is in fit connection with the laser heating device 407, the base of the laser heating device 407 is fixedly installed on the inner surface of the bottom end of the control supporting device 401 in a welding mode, the control supporting device 401 comprises a rotating control shaft 4011, a control shaft collar 4012, a control gear set 4013, a control groove shaft 4014, a groove shaft installation seat 4015 and a supporting shell 4016, the bottom of rotatory control shaft 4011 adopt the mode fixed connection of electric welding in the top of the control gear set 4013 who is located the top, the one end that is located the below control gear set 4013 adopts the welded mode to install together with the one end of control groove axle 4014, the perpendicular activity of the other end of control groove axle 4014 inlay in the inside of groove axle mount pad 4015, the base of groove axle mount pad 4015 and the internal surface that supports the shell 4016 top weld, rotary mechanism 402 top and the recess laminating cooperation of control groove axle 4014, the internal surface that supports the shell 4016 adopt the welded mode and elevating gear 403 fixed connection, cooperation mechanism 405 be located the internal surface that supports the shell 4016 middle section, rotary mechanism 402 include groove axle connecting rod 4021, collar 4022, fixed rail pole 4023, installation pole 4024, built-in screw thread 402rotary disk 5, double bevel gear post 4026, The bottom end of the grooved shaft connecting rod 4021 is connected with the outer surface of the mounting ring 4022 in an adhesion mode, the inner surface of the mounting ring 4022 is attached to the outer surface of the fixed rail 4023, one end of the mounting rod 4024 is movably embedded into the outer surface of the mounting ring 4022, the other end of the mounting rod 4024 is movably embedded into the built-in threaded rotating disc 4025, the built-in threaded rotating disc 4025 is meshed with a gear at one end of the double-cone gear column 4026 through internal threads, the built-in threaded rotating disc 4025 is in transition fit with the threaded disc 4027 through the double-cone gear column 4026, the threaded disc 4027 is matched with the other end of the double-cone gear column 4026 through threads, the threaded disc 4027 is in transition connection with the lifting device 403, and the lifting device 403 comprises a mounting belt 4031, a mounting rotating shaft 2, a wire coil 4033, a winding 4, a mounting wire seat 4035, a 4035, Lifting wire board 4036, lifting groove plate 4037, lifting slider 4038, the one end of installation area 4031 laminate each other with the surface of installation pivot 4032, the bottom of installation pivot 4032 glue with drum 4033 mutually, the top fixed mounting in drum 4033 of drum 4033 in the bottom, lifting wire board 4036 on through welded mode fixedly connected with installation wire seat 4035, installation wire seat 4035 pass through wire winding 4034 and drum 4033 transition fit together, one side of lifting groove plate 4037 glue with lifting slider 4038's surface mutually, lifting groove plate 4037 laminate with the one end of drive mechanism 404 is slided, drive mechanism 404 include projection transfer bar 4041, right angle drive pole 4042, ejector pin 4043, ratchet disc 4044, ratchet ejector pin 4045, drive wheel disc 4046, drive belt 4047, projection transfer bar 4041 pass through right angle drive pole 4042 and ejector pin 4043 transition fit together, the right-angle transmission rod 4042 and the push rod 4043 are fixedly connected together in a gluing mode, the ratchet wheel disk 4044 and the ratchet push rod 4045 are nested, the outer surface of the inner part of the transmission wheel disk 4046 is mutually attached to a transmission belt 4047, the transmission belt 4047 is connected with the matching mechanism 405 in an attaching mode, the matching mechanism 405 comprises a thread transmission disk 4051, a thread matching disk 4052, a matching rotating shaft 4053, a conical gear set 4054, a thread column fixing ring 4055, a thread column 4056, a thread circular ring 4057 and a thread base 4058, the thread transmission disk 4051 is in transition fit with the matching rotating shaft 4053 through the thread matching disk 4052, the conical gear set 4054 is in interference fit with the thread column 4056 through the thread column fixing ring 4055, the thread circular ring 4057 is mutually engaged with the inner part of the thread base 4058 through threads, the thread circular ring 4057 is connected with one end of the air pressure material manufacturing device 406, the pneumatic material manufacturing device 406 comprises a threaded ring mounting seat 4061, an action rod 4062, a sealing sleeve 4063, a piston 4064, a pneumatic tube 4065, a material film-forming pneumatic hole 4066 and a sealing heated ring 4067, the threaded ring mounting seat 4061 is in transition fit with the sealing sleeve 4063 through the action rod 4062, the piston 4064 is attached to the inner surface of the pneumatic tube 4065 in an attaching manner, the material film-forming pneumatic hole 4066 is nested with the sealing heated ring 4067, the sealing heated ring 4067 is in fit connection with the laser heating device 407, the laser heating device 407 comprises a distal control board 4071, a laser brake box 4072, a connecting wire sleeve 4073, a laser 4074, a laser ring 4075, an angle connecting pipe 4076 and a laser heating ring 4077, the distal control board 4071 is in transition fit with the sleeve 4073 through the laser brake box 72, one end of the laser 4074 is glued to one end of the laser 4075, the laser ring 4075 is in interference fit with the laser heating ring 4077 through an angle connecting pipe 4076.

The principle of the invention is as follows: the whole flow can be sealed and conducted by controlling the control sealing device 4, the control sealing device is more accurately controlled, the rotation control shaft 4011 is rotationally controlled by judging the flow detection table 1 and actual conditions, the built-in threaded rotating disk 4025 is driven to rotate by the control gear set 4013, the control groove shaft 4014 and the groove shaft connecting rod 4021 through the mounting ring 4022 and the mounting rod 4024, the wire coil 4033 and the mounting rotating shaft 4032 start to rotate under the driving of the threaded wheel disc 4027 and the mounting belt 4031, and the lifting wire plate 4036, the lifting groove plate 4037 and the lifting slide 4038 start to perform lifting motion under the action of the winding shaft of the winding 4034, so that the matching of the groove in the lifting groove plate 4037 and the convex column transmission rod 40341 is driven, and the ratchet wheel disc 4044 can be driven to rotate under the matching of the right-angle transmission rod 4042, the push rod 4043 and the ratchet wheel 4045, thereby under the effect of drive belt 4047 and screw-thread fit dish 4052, through the rotation of tapered gear group 4054, the rotation of screw post 4056 has been driven through the meshing relation down, under the effect through the screw thread three-piece suit, can go up and down the extrusion effect to piston 4064, thereby the atmospheric pressure that has driven atmospheric pressure body 4065 changes, act on material film forming atmospheric pressure hole 4066, it is nested mutually with sealed heated ring 4067, can form sealed diaphragm afterwards, and control laser heating device 407's operation through the remote control end, thereby laser irradiation is on laser heating ring 4077, can make whole can be to pipeline confined effect under atmospheric pressure and material cooperation.

The invention relates to a cylindrical threaded fastener matched with a nut, in particular to a fastener which consists of a head part and a screw rod, needs to be matched with the nut and is used for fastening and connecting two parts with through holes. This form of connection is known as a bolted connection. If the nut is unscrewed from the bolt, the two parts can be separated, so that the bolt connection belongs to detachable connection.

The invention solves the problems that the solidification of the material is formed by adopting gas and air pressure under the condition of laser heating, but the solidification can not be realized according to the actual condition and the conduction can not be realized, the function of bidirectional use is not provided, the integral device can only be continuously carried out by manual disassembly after being used up, the use procedure is complicated, and the practicability and the convenience of the device are reduced. Under laser heating device, can receive the hot ring to solidify to material and sealed to form the diaphragm, and when needs switched on, advance the air pressure and take out, thereby because under the atmospheric pressure influence, the seal membrane will automatic breakage realize two-way control, improved the practicality and the convenience of device.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. Laser closing means with specific diaphragm structure, its structure includes flow monitoring table (1), connecting tube (2), construction bolt (3), control sealing device (4), fixed plate (5), the perpendicular fixed mounting in the inside of connecting tube (2) in bottom of flow monitoring table (1), the one end of connecting tube (2) adopt welded mode fixed connection in the one end of fixed plate (5), connecting tube (2) pass through fixed plate (5) and control sealing device (4) transition fit together, fixed plate (5) link together through screw thread and construction bolt (3) meshing, the one end fixed connection of control sealing device (4) in fixed plate (5), its characterized in that:

the control sealing device (4) comprises a control supporting device (401), a rotating mechanism (402), a lifting device (403), a transmission mechanism (404), a matching mechanism (405), an air pressure material making device (406) and a laser heating device (407), the inner surfaces of the upper ends of the control supporting devices (401) are fixedly connected together in an electric welding mode, the control supporting device (401) is in interference fit with the lifting device (403) through the rotating mechanism (402), one end of the lifting device (403) is mechanically connected with the top end of the transmission mechanism (404), the transmission mechanism (404) is in transition fit with the air pressure material making device (406) through a matching mechanism (405), the air pressure material making device (406) is matched and connected with the laser heating device (407), the base of the laser heating device (407) is fixedly arranged on the inner surface of the bottom end of the control supporting device (401) in a welding mode;

the matching mechanism (405) comprises a threaded transmission disc (4051), a threaded matching disc (4052), a matching rotating shaft (4053), a conical gear set (4054), a threaded column fixing ring (4055), a threaded column (4056), a threaded ring (4057) and a threaded base (4058), the threaded transmission disc (4051) is in transition fit with the matching rotating shaft (4053) through the threaded matching disc (4052), the conical gear set (4054) is in interference fit with the threaded column (4056) through the threaded column fixing ring (4055), the threaded ring (4057) is meshed with the inner portion of the threaded base (4058) through threads, and the threaded ring (4057) is connected with one end of the air pressure material making device (406);

the pneumatic material making device (406) comprises a threaded circular ring mounting seat (4061), an action rod (4062), a sealing sleeve piece (4063), a piston (4064), a pneumatic tube body (4065), a material film-forming pneumatic hole (4066) and a sealing heated ring (4067), wherein the threaded circular ring mounting seat (4061) is in transition fit with the sealing sleeve piece (4063) through the action rod (4062), the piston (4064) is attached to the inner surface of the pneumatic tube body (4065) in an attaching mode, the material film-forming pneumatic hole (4066) and the sealing heated ring (4067) are nested, and the sealing heated ring (4067) is in fit connection with the laser heating device (407).

2. The laser sealing device with specific diaphragm structure as claimed in claim 1, wherein: control strutting arrangement (401) including rotatory control shaft (4011), control collar (4012), control gear train (4013), control groove axle (4014), groove axle mount pad (4015), support shell (4016), the bottom of rotatory control shaft (4011) adopt the mode fixed connection that welds in the top of control gear train (4013) that is located the top, be located the below the one end of control gear train (4013) adopts the welded mode to install together with the one end of control groove axle (4014), the perpendicular activity of the other end of control groove axle (4014) inlay in the inside of groove axle mount pad (4015), the base of groove axle mount pad (4015) weld with the internal surface at support shell (4016) top, rotary mechanism (402) top and the recess laminating cooperation of control groove axle (4014), the internal surface of support shell (4016) adopt welded mode and elevating gear (403) fixed connection, the matching mechanism (405) is positioned on the inner surface of the middle section of the support shell (4016).

3. The laser sealing device with specific diaphragm structure as claimed in claim 2, wherein: the rotating mechanism (402) comprises a grooved shaft connecting rod (4021), an installation ring (4022), a fixed rail rod (4023), an installation rod (4024), a built-in threaded rotating disk (4025), a double-cone gear column (4026) and a threaded wheel disk (4027), wherein the bottom end of the grooved shaft connecting rod (4021) is connected with the outer surface of the installation ring (4022) in a bonding mode, the inner surface of the installation ring (4022) is attached to the outer surface of the fixed rail rod (4023), one end of the installation rod (4024) is movably embedded into the outer surface of the installation ring (4022), the other end of the installation rod (4024) is movably embedded into the built-in threaded rotating disk (4025), the built-in threaded rotating disk (4025) is meshed with a gear at one end of the double-cone gear column (4026) through internal threads, the built-in threaded rotating disk (4025) is in transition fit with the threaded wheel disk (4027) through the double-cone gear column (4026), the thread wheel disc (4027) is matched with the other end of the double-bevel gear column (4026) through threads, and the thread wheel disc (4027) is in transitional connection with the lifting device (403).

4. The laser closing device with specific diaphragm structure as claimed in claim 1, 2 or 3, wherein: the lifting device (403) comprises a mounting belt (4031), a mounting rotating shaft (4032), a wire coil (4033), a winding wire (4034), a mounting wire seat (4035), a lifting wire plate (4036), a lifting groove plate (4037) and a lifting slide block (4038), one end of the mounting belt (4031) is mutually attached to the outer surface of the mounting rotating shaft (4032), the bottom end of the installation rotating shaft (4032) is glued with the wire coil (4033), the top end of the wire coil (4033) is fixedly installed at the bottom end of the wire coil (4033), the lifting wire plate (4036) is fixedly connected with a mounting wire seat (4035) in a welding way, the wire mounting seat (4035) is transitionally matched with the wire coil (4033) through a winding wire (4034), one side surface of the lifting groove plate (4037) is glued with the outer surface of the lifting slide block (4038), the lifting groove plate (4037) is in sliding fit with one end of the transmission mechanism (404).

5. The laser sealing device with specific diaphragm structure as claimed in claim 4, wherein: the transmission mechanism (404) comprises a convex column transmission rod (4041), a right-angle transmission rod (4042), a mandril (4043), a ratchet wheel disc (4044), a ratchet wheel mandril (4045), a transmission wheel disc (4046) and a transmission belt (4047), wherein the convex column transmission rod (4041) is in transition fit with the mandril (4043) through the right-angle transmission rod (4042), the right-angle transmission rod (4042) and the mandril (4043) are fixedly connected together in a gluing mode, the ratchet wheel disc (4044) is nested with the ratchet wheel mandril (4045), the outer surface of the inner part of the transmission wheel disc (4046) is mutually attached to the transmission belt (4047), and the transmission belt (4047) is connected with the matching mechanism (405) in an attaching mode.

6. The laser sealing device with specific diaphragm structure as claimed in claim 1, wherein: laser heating device (407) include distal end control panel (4071), laser braking case (4072), connecting wire external member (4073), laser instrument (4074), laser ring (4075), angle connecting pipe (4076), laser heating ring (4077), distal end control panel (4071) pass through laser braking case (4072) and connecting wire external member (4073) transition fit, the one end of laser instrument (4074) glue mutually with the one end of laser ring (4075), laser ring (4075) pass through angle connecting pipe (4076) and laser heating ring (4077) interference fit.