CN107658207A - Carbon fiber infrared heating fluorescent tube, production equipment and its technique of a kind of exhaust-pipe-free - Google Patents
Carbon fiber infrared heating fluorescent tube, production equipment and its technique of a kind of exhaust-pipe-free Download PDFInfo
- Publication number
- CN107658207A CN107658207A CN201710959495.4A CN201710959495A CN107658207A CN 107658207 A CN107658207 A CN 107658207A CN 201710959495 A CN201710959495 A CN 201710959495A CN 107658207 A CN107658207 A CN 107658207A
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- Prior art keywords
- glass tube
- carbon fiber
- fluorescent tube
- clamp
- infrared heating
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01K—ELECTRIC INCANDESCENT LAMPS
- H01K1/00—Details
- H01K1/02—Incandescent bodies
- H01K1/04—Incandescent bodies characterised by the material thereof
- H01K1/06—Carbon bodies
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01K—ELECTRIC INCANDESCENT LAMPS
- H01K1/00—Details
- H01K1/28—Envelopes; Vessels
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01K—ELECTRIC INCANDESCENT LAMPS
- H01K1/00—Details
- H01K1/36—Seals between parts of vessel, e.g. between stem and envelope
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01K—ELECTRIC INCANDESCENT LAMPS
- H01K1/00—Details
- H01K1/42—Means forming part of the lamp for the purpose of providing electrical connection, or support for, the lamp
- H01K1/44—Means forming part of the lamp for the purpose of providing electrical connection, or support for, the lamp directly applied to, or forming part of, the vessel
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01K—ELECTRIC INCANDESCENT LAMPS
- H01K3/00—Apparatus or processes adapted to the manufacture, installing, removal, or maintenance of incandescent lamps or parts thereof
- H01K3/12—Joining of mount or stem to vessel; Joining parts of the vessel, e.g. by butt sealing
- H01K3/14—Machines therefor
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Resistance Heating (AREA)
Abstract
The present invention discloses carbon fiber infrared heating fluorescent tube, production equipment and its technique of a kind of exhaust-pipe-free, wherein, the fluorescent tube includes glass envelope and the carbon fiber exothermic wire in the shell, the heating wire both ends are provided with fixing terminal, the fixing terminal is provided with pole, the lamp tube ends are provided with lamp base, are connected between the pole and the lamp base by molybdenum sheet.Compared with prior art, the advantages of a kind of carbon fiber infrared of exhaust-pipe-free of the invention heats fluorescent tube, production equipment and its technique, and the fluorescent tube has aesthetic feeling and is not easy to shatter;The production equipment and process has the advantages of processing technology is simple.
Description
Technical field
The present invention relates to quartz ampoule packaging by hot pressing technical field, adds more particularly, to a kind of carbon fiber infrared of exhaust-pipe-free
Thermolamp pipe, production equipment and its technique.
Background technology
When carbon fiber exothermic wire is used for heating lamp tube, in order that power of lamp tube is as far as possible low, and it is oversize to be not desired to fluorescent tube, then and one
As more heating wires twisted into one spiral in fluorescent tube or after braiding put into again in fluorescent tube, but because carbon fiber exothermic wire compares
Softness, the carbon fiber exothermic wire after spiral easily cross fixing terminal and go to lamp tube ends, influence the quality of fluorescent tube, in addition carbon
Fiber infrared heating fluorescent tube, be to being exhausted, due to current manufacture craft, in the market in encapsulation in pipe
Carbon fiber infrared heating fluorescent tube is both provided with a blast pipe on quartz glass tube, and carbon fiber infrared heating fluorescent tube carbon fiber is red
External heat fluorescent tube carbon fiber infrared heating fluorescent tube influences the attractive in appearance of fluorescent tube;In addition, in the sintering position of blast pipe and quartz glass tube
Place is put, due to the stress of glass in itself, causes shock strength at sintering low, in use, is easy in transport or all due to shake
Move and split.
In current manufacture craft, carbon fiber infrared heating fluorescent tube is all by either simplex bit manipulation, that is, completes a work
Need that quartz glass tube to be processed manually is carried into next process processing after sequence, the continuity of process is poor, causes both-end
Fluorescent tube is required for carrying out exhaust of warming oneself by a fire to fluorescent tube before every end clamp so that production technology is complex, and artificial input is big, production capacity
It is low.
The content of the invention
The invention aims to solve the problems of the prior art, propose that a kind of carbon fiber infrared of exhaust-pipe-free adds
Thermolamp pipe, production equipment and its technique, the advantages of fluorescent tube has aesthetic feeling and is not easy to shatter;The production equipment and process has
The advantages of processing technology is simple.
The technical solution adopted by the present invention is as follows:
A kind of carbon fiber infrared heating fluorescent tube of exhaust-pipe-free, the fluorescent tube include glass envelope and in the shells
Carbon fiber exothermic wire, the heating wire both ends are provided with fixing terminal, and a pole, the fluorescent tube two are connected with the fixing terminal
End is provided with lamp base, is electrically connected between the pole and the lamp base by molybdenum sheet.
Further, the shell is provided with concave inward structure in the opening position of the corresponding fixing terminal.
Further, the fluorescent tube also includes fast interface, and the fast interface is electrically connected by power line and the lamp base
Connect.
Further, silica gel is arranged with outside the power line and knits line, and outside the power line of described shell one end
It is arranged with high temperature resistant porcelain head the shell is knitted into line with the silica gel and separates.
Further, the molybdenum sheet is pressed from both sides the flat Boards wall formed after the scorification of shell both ends, together with what is be connected with molybdenum sheet
Lamp base one end and pole one end are fixed in clamping plate.
A kind of production equipment for being used to process carbon fiber infrared heating fluorescent tube, the production equipment include rotating disk and uniformly divided
Clamping device of the cloth on the rotating disk, the clamping device are used to install glass tube and carbon fiber exothermic wire to be processed, institute
The periphery for stating rotating disk is circumferentially sequentially provided with:
Apparatus for baking, the apparatus for baking are used for the glass tube heating and are exhausted;
The glass tube wherein one end is carried out clamp by the first clipp-seal device, first clipp-seal device;
The glass tube wherein one end is carried out dent processing by the first dent device, the first dent device;
Turned around device, and the device that turns around is exchanged the both ends of the glass tube;
The glass tube wherein other end is carried out dent processing by the second dent device, the second dent device;
The glass tube wherein other end is carried out clamp by the second clipp-seal device, second clipp-seal device;
Cooling device, the cooling device integrally cool down the glass tube.
Further, the rotating disk periphery also includes lifting device successively, and the lifting device is used for the glass
Pipe is promoted to the height of setting;Tailing device is removed, it is described to go tailing device to truncate described second of clamp end of glass tube
Material processing;The lifting device and tailing device is gone to follow successively after cooling device.
Further, burning interface arrangement is also included, it is described to burn the glass tube of the interface arrangement to second of clamp end
End is sintered smooth, and so as to be made fluorescent tube, the burning interface arrangement is followed after tailing device is removed.
Further, in addition to the first detection means and second detection device, first detection means are located at the baking
The previous station of roasting device, first detection means are used to detect whether the clamping device feeding is installed in place;Described second
Detection means is turned around between device and the second dent device located at described, and the second detection device is exchanged for detection
Whether material is installed in place.
Further, in addition to feeding device and blanking device, the feeding device are used for the clamping device feeding;
The blanking device is used for from the clamping device blanking.
Further, the apparatus for baking is provided with Flame device moving up and down, and the Flame device can be from described
Glass tube is baked to the other end from one end.
Further, first clipp-seal device includes the second Flame device and clamping, and second Flame device is used for
The position that glass tube described in scorification is set, the clamping are used for clamp glass tube by the position after the second Flame device scorification
Put, so as to form clamp structure.
Further, the described first dent device includes the 3rd Flame device and dent pin, and the 3rd Flame device is used
In the position for burning the soft glass tube setting, the dent pin is used to clamp the position that glass tube was burnt by the 3rd Flame device
Put, so as to form concave inward structure, the second dent device is identical with the described first dent apparatus structure.
Further, second clipp-seal device includes the 4th Flame device and the second clamping, is set in second clamping
There is folder knife, the 4th Flame device is used for the position that glass tube described in scorification is set, and second clamping is used for clamp glass
Pipe is by the position after the 4th Flame device scorification, so as to form the second clamp structure, folder cutter holder pressure second folder
Seal structure outer end makes to form recessed cutter groove structure.
Further, the cooling device is air cooling equipment.
Further, it is described to go what tailing device included that one or two is oppositely arranged to beat mechanism, it is described to beat mechanism
For beaing the end of the glass tube.
Further, the burning interface arrangement includes the 5th Flame device, and the 5th Flame device is described for being aligned
The end of glass tube is sintered.
Further, the clamping device includes clamper, core folder and the core being detachably arranged on core folder,
The clamper includes the first chuck and the second chuck that mutually clamp, the core folder include the first intermediate plate mutually clamped and
Second intermediate plate, the clamper and the core folder upper-lower position are set, the core removably by the first intermediate plate and
The second intermediate plate clamping.
Further, the clamping device also includes the first mounting post, the second mounting post and installing plate, first installation
Post and second mounting post on the installing plate and stretch out the upside of the installing plate, and first chuck is articulated with institute
State in the first mounting post, second chuck is articulated with second mounting post, between first chuck and the second chuck
Form interval and the interval reduces when first chuck and second chuck are to contract.
Further, the core is quadrangular, and its top surface is provided with lamp base mounting hole, fluorescent tube mounting groove and exhaust outlet.
Further, the side of the core is provided with limited block, and the limited block is with being arranged on the inside of first intermediate plate
Stopper slot is corresponding.
A kind of technique for the carbon fiber infrared heating fluorescent tube for processing exhaust-pipe-free, comprises the following steps:
1)Carbon fiber exothermic wire, fixing terminal, lamp base and molybdenum sheet are connected as one in advance, are placed in glass envelope, will
Glass tube and the carbon fiber exothermic wire connected are fixed on clamping device;
2)To step 1)In the glass tube that fixes toasted, be exhausted simultaneously, remove impurity in pipe;
3)First end clamp:After first end to the molten condition of Flame device heatable glass tube, using clamping by glass tube
First end clamp, makes the lamp base and molybdenum sheet for fixing glass tube first end, and the first end mouth of pipe of the glass tube is set down;
4)First end is dent:With, to after molten condition, utilization is dent at the default recess of Flame device heatable glass tube first end
Pin is moved inward so as to produce the concave inward structure of glass tube first end;
5)Turn around:The good first end of clamp and the second end position of non-clamp are exchanged;
6)Second end is dent:With, to after molten condition, utilization is dent at the default recess in the end of Flame device heatable glass tube second
Pin is moved inward so as to produce the concave inward structure at the end of glass tube second;
7)Second end clamp:After the second end to the molten condition of Flame device heatable glass tube, using clamping by glass tube
Second end clamp, make to fix glass tube two-end buld holder and molybdenum sheet, meanwhile, using pressing from both sides clamp of the knife at the second end of glass tube
Cutter groove structure is pressed from both sides out in structure;
8)Remove tailing:The afterbody for tapping the second end of glass tube using mechanism is beaten, make the afterbody at the second end of glass tube along institute
State and dropped at cutter groove structure;
9)Sinter mouth:It is sintered using Flame device alignment cutter groove structure;
10)Finished product is made:Glass tube is removed from clamping device, a kind of carbon fiber infrared heating fluorescent tube of exhaust-pipe-free is made.
The beneficial effects of the invention are as follows:
A kind of carbon fiber infrared of exhaust-pipe-free of the present invention, which heats fluorescent tube, production equipment and its technique, the fluorescent tube, has aesthetic feeling
And the advantages of being not easy to shatter;The production equipment and process has the advantages of processing technology is simple.
The preferred embodiments of the invention and its advantage, embodiment will be combined and be further described.
Brief description of the drawings
Accompanying drawing be for providing a further understanding of the present invention, and a part for constitution instruction, it is and following specific
Embodiment is used to explain the present invention together, but should not be construed as limiting the invention.In the accompanying drawings,
Fig. 1:A kind of front view of the carbon fiber infrared heating fluorescent tube of exhaust-pipe-free of the embodiment of the present invention one;
Fig. 2:A kind of top view for being used to process the production equipment of carbon fiber infrared heating fluorescent tube of the embodiment of the present invention two;
Fig. 3:The stereogram in the one of direction of the second clipp-seal device of the embodiment of the present invention two;
Fig. 4:The stereogram in the second clipp-seal device other in which direction of the embodiment of the present invention two;
Fig. 5:The stereogram for going to the one of direction of tailing device of the embodiment of the present invention two;
Fig. 6:The stereogram for going to tailing device other in which direction of the embodiment of the present invention two;
Fig. 7:The stereogram of the clamping device of the embodiment of the present invention two;
Fig. 8:The stereogram of the core of the embodiment of the present invention two.
Each component names and its label
1st, shell;2nd, carbon fiber exothermic wire;3rd, fixing terminal;4th, pole;5th, molybdenum sheet;6th, lamp base;7th, high temperature resistant porcelain head;8th, silica gel
Knit line;9th, fast interface;10th, concave inward structure;11st, clamping plate;13rd, clamping device;15th, apparatus for baking;16th, the first clamp fills
Put;17th, the first dent device;19th, rotating disk;22nd, the second dent device;23rd, the second clipp-seal device;25th, lifting device;26th, go
Tailing device;27th, interface arrangement is burnt;231st, the 4th Flame device;232nd, the second clamping;233rd, knife is pressed from both sides;261st, mechanism is beaten;
262nd, fixed plate;34th, installing plate;35th, core;350th, lamp base mounting hole;351 glass tube mounting grooves;352nd, steam vent;353rd, limit
Position block;311st, the first chuck;312nd, the second chuck;321st, first intermediate plate;322nd, second intermediate plate;331st, the first mounting post;332、
Second mounting post.
Embodiment
The embodiment of the present invention is described in detail below in conjunction with accompanying drawing.It should be appreciated that this place is retouched
The embodiment stated is merely to illustrate and explain the present invention, and is not intended to limit the invention.
Embodiment one
It refer to shown in Fig. 1, embodiments of the invention disclose a kind of carbon fiber infrared heating fluorescent tube of exhaust-pipe-free, the fluorescent tube
Carbon fiber exothermic wire 2 including glass envelope 1 and in the shell 1, the both ends of heating wire 2 are provided with fixing terminal 3,
A pole 4 is connected with the fixing terminal 3, the lamp tube ends are provided with lamp base 6, lead between the pole 4 and the lamp base 6
Cross molybdenum sheet 5 to electrically connect, it is preferred that the pole 4 is molybdenum rod.
The shell 1 is provided with concave inward structure 10 in the opening position of the corresponding fixing terminal 3, and concave inward structure 10 is used to hinder
Carbon fiber exothermic wire 2 crosses fixing terminal 3 and goes to the end of shell 1.
The fluorescent tube also includes fast interface 9, and the fast interface 9 is electrically connected by power line with the lamp base 6.
Silica gel is arranged with outside the power line and knits line 8, and is arranged with outside the power line of close described one end of shell 1 resistance to
The shell 1 is knitted line 8 with the silica gel and separated by high temperature porcelain head 7.High temperature resistant porcelain head 7 knits silica gel between line 8 and the shell 1
Separate and be not directly contacted with, making carbon fiber infrared heating fluorescent tube, the high temperature of the shell 1 does not interfere with silica gel and knitted at work
Line 8, so as to improve the security that silica gel is knitted the service life of line 8 and used.
The molybdenum sheet 5 is burnt by the both ends of shell 1 to be melted the clamping plate 11 that rear clamp forms and fixes, together with the lamp base one being connected with molybdenum sheet
End and pole one end are all melted sealing and are scheduled in clamping plate 11.
Embodiment two
It refer to shown in Fig. 2, the present embodiment discloses a kind of production equipment for being used to process carbon fiber infrared heating fluorescent tube, the life
Production equipment includes rotating disk 19 and the clamping device 13 being evenly distributed on the rotating disk 19, and the clamping device is to be added for installing
The glass tube and carbon fiber exothermic wire of work, specifically, the clamping device 13 include clamper, core folder and core, glass
Pipe is fixed on clamper, is in advance connected as one carbon fiber exothermic wire, fixing terminal, pole, molybdenum sheet and lamp base, is placed in
In glass tube, lamp base is clamped by core and fixed, the direction rotated along the rotating disk 19 is sequentially provided with:
Feeding device(It is not shown), it is to be understood that feeding device can be mechanical device or artificial replacement machinery
Device completes feeding.In the present embodiment, by the way that manually the lamp base of one end is fixedly clamped by core, and sealed by the core
The firmly mouth of pipe, the core has to be connected with a blast pipe, on the core of clamping device on other end lamp base, and by gripper lamp
Pipe;First detection means(It is not shown), first detection means is for detecting whether feeding is installed in place;
Apparatus for baking 15, the apparatus for baking 15 are used for the glass tube heating, meanwhile, it is exhausted, removes the water in pipe
The foreign gases such as vapour;
First clipp-seal device 16, first clipp-seal device 16 are pressed from both sides after the glass tube wherein one end is carried out into baked wheaten cake melting
Envelope, while protection is exhausted by the other end;
First dent device 17, the first dent device 17 enter the glass tube wherein one end close to the position of fixing terminal
Dent processing after row is burnt;
Turn around device(It is not shown), the device that turns around exchanged the both ends of the glass tube;
Second detection device(It is not shown), the second detection device exchanges whether feeding is installed in place for detection;
Second dent device 22, the second dent device 22 is by the glass tube wherein other end close to the position of fixing terminal
Dent processing after being burnt;
Second clipp-seal device 23, second clipp-seal device 23 carry out the glass tube wherein other end close to the position of molybdenum sheet
Clamp, while nitrogen charging gas shielded is carried out by this one end, after clamp, the glass tailing for being connected exhaust outlet is left at this end;
Cooling device(It is not shown), the cooling device integrally cools the glass tube;
Lifting device 25, the lifting device 25 are used for the height that glass tube is promoted to setting, core are disengaged it from, under being easy to
One step goes tailing to operate;
Tailing device 26 is removed, it is described to go tailing device 26 to carry out beaing removal to the tailing after described second of clamp of glass tube;
Interface arrangement 27 is burnt, the glass tube end that the burning interface arrangement 27 is beaten after removing to glass tailing is sintered flat
It is whole, to prevent being hurt by sharp glass, so as to which fluorescent tube be made;
Blanking device(It is not shown), the blanking device from the rotating disk 19 for removing the fluorescent tube, it is preferred that passes through people
Work unclamps core and clamper, removes fluorescent tube.
It should be noted that in some embodiments, the feeding device and the blanking device can be same
On station, by one man operation;The device that turns around, can be by manual operation, i.e. make clamper and core folder in u-turn
Open, core is taken out, while unclamp core, the good one end lamp base of clamp is released from core, will then be connected to blast pipe
Core be clamped in core folder on, be not difficult to know, may be otherwise by machinery realization exchange.
Such as Fig. 7,8, the clamper includes the first chuck 311 and the second chuck 312, and the core folder includes first intermediate plate
321 and second intermediate plate 322, in addition to the first mounting post 331, the second mounting post 332 and installing plate 34, first mounting post
331 and second mounting post 332 on the installing plate 34 and stretch out the upside of the installing plate 34, first installation
It is separated by a distance between post 331 and second mounting post 332.
The core 35 by the first intermediate plate 321 and second intermediate plate 322 clamp and the first intermediate plate 321 with it is described
Second intermediate plate 322 is flared out taking out on core folder described in Shi Kecong, shape between the chuck 312 of the first chuck 311 and second
At interval and the interval reduces when first chuck 311 and second chuck 312 are to contract.
Preferably, the core 35 is quadrangular, and the top surface of the core 35 is provided with fluorescent tube mounting groove 351 and lamp base is installed
Hole 350, the top surface of the core 35 are additionally provided with exhaust outlet 352, and limited block 353 is provided with the side of core 35, described spacing
Block 353 and the stopper slot for being arranged on the inner side of core folder first intermediate plate 321(It is not shown)Match.
The apparatus for baking 15 is provided with Flame device moving up and down, and the Flame device can be from the glass tube one
End is baked to the other end, makes temperature increase in pipe, is easy to the discharge of foreign gas in shell, it is preferred that in baking process, also
Can be by blast pipe to carrying out nitrogen charging gas disposal in lamp.
First clipp-seal device 16 includes the second Flame device and clamping, and second Flame device is to glass tube one end
Surrounding carries out baked wheaten cake melting, the glass that the clamping is used for after clamp scorification, so as to form clamping plate in glass tube one end.
The first dent device 17 includes the 3rd Flame device and dent pin, and the 3rd Flame device is used for glass
One end carries out baked wheaten cake melting close to the both sides of terminal position, and the dent pin is used to clamp glass tube by the 3rd Flame device
The position burnt, so as to form concave inward structure, the second dent device is identical with the described first dent structure of device 17.
Such as Fig. 3, Fig. 4, second clipp-seal device 23 includes the 4th Flame device 231 and the second clamping 232, and described
232 are provided with folder knife 233 in two clampings, and the 4th Flame device 231 is carried out to the glass tube other end close to molybdenum sheet position surrounding
Melting is burnt, second clamping 232 is used to carry out clamp to the position of scorification, and so as to form clamping plate, the folder knife 233 is used for
Glass tube below the clamping plate recessed cutter groove structure formed below, cutter groove structure is the tailing of the glass tube, described
The setting of cutter groove structure, it is easy to tailing device to be removed glass tailing.
The cooling device(It is not shown)For air cooling equipment.It is described to go tailing device 26 to include one or two such as Fig. 5, Fig. 6
It is individual be oppositely arranged beat mechanism 261 and fixed plate 262, the fixed plate 262 is used to clamp the second clamp structure, described two
Mechanism 261 is beaten respectively by motor control, and successively tailing beat to from left to right, so as to which the tailing is along cutter groove knot
Block and drop at structure.
The burning interface arrangement 27 includes the 5th Flame device, and the 5th Flame device is used to be directed at the glass tube
End carries out baking sintering.
Embodiment three
The present embodiment discloses a kind of technique for the carbon fiber infrared heating fluorescent tube for processing exhaust-pipe-free, comprises the following steps:
The first step, carbon fiber exothermic wire, fixing terminal, pole, molybdenum sheet and lamp base are placed in glass to connect as one in advance
In pipe shell, glass tube is fixed on clamper, the lamp base and glass tube opening of one end insert the lamp base installation of core respectively
It is fixed in hole and fluorescent tube mounting groove, while the core blocks the glass tube opening;The lamp base of the other end inserts another core
In the lamp base mounting hole of mould, and the glass tube at this end is set down, and a certain distance, about 1cm are separated between the core at this end..
Second step, to step 1)In the glass tube that fixes toasted, while by blocking the core of glass tube one end
Exhaust outlet be exhausted, remove pipe in impurity.
3rd step, first end clamp:After first end surrounding to molten condition with Flame device scorification glass tube, folder is utilized
The first end clamp of glass tube is made the lamp base and molybdenum sheet for fixing glass tube first end, the first end pipe of the glass tube by mould
Mouth down is set.
4th step, first end are dent:With Flame device scorification glass tube first end close to the both sides of terminal position to melting
After state, moved inward using dent pin so as to produce the concave inward structure of glass tube first end.
5th step, the good first end of clamp and the second end position of non-clamp are exchanged, it is preferred that by clamper and core
Folder is opened, and core is taken out, while unclamps core, and the good one end lamp base of clamp is released from core, then will the row of being connected to
The core of tracheae is clamped on core folder.
6th step, the second end are dent:With the second end of Flame device scorification glass tube close to the both sides of terminal position to melting
After state, moved inward using dent pin so as to produce the concave inward structure at the end of glass tube second.
7th step, the second end clamp:With the second end of Flame device scorification glass tube close to molybdenum sheet position surrounding to molten
After melting state, using clamping and the second end clamp by glass tube, make to fix glass tube two-end buld holder and molybdenum sheet, meanwhile,
Using the folder knife being close to below clamping cutter groove structure is pressed from both sides out below the second end clamping plate of glass tube.
8th step, removes tailing:The afterbody for tapping the second end of glass tube using mechanism is beaten, makes the second end of glass tube
Afterbody drops along the cutter groove structure.
9th step, sinter mouth:Baking sintering is carried out using Flame device alignment cutter groove structure.
Tenth step, is made finished product:Glass tube is removed from core, a kind of carbon fiber infrared heating lamp of exhaust-pipe-free is made
Pipe.
The fluorescent tube can be directly installed in utensil and use, can also be by connecting snap joint after, then used.
In summary, carbon fiber infrared heating fluorescent tube, production equipment and its technique of a kind of exhaust-pipe-free of the invention, should
The advantages of fluorescent tube has aesthetic feeling and is not easy to shatter;The production equipment and process has the advantages of processing technology is simple.
Without departing from the thought of the invention, the various different embodiments of the present invention are combined, all should
When being considered as present disclosure;In the range of the technology design of the present invention, a variety of simple modifications are carried out to technical scheme
And any combination of the thought without prejudice to the invention that different embodiments are carried out, all should protection scope of the present invention it
It is interior.
Claims (18)
1. the carbon fiber infrared heating fluorescent tube of a kind of exhaust-pipe-free, it is characterised in that the fluorescent tube includes glass envelope and set
Carbon fiber exothermic wire in the shell, the heating wire both ends are provided with fixing terminal, one are connected with the fixing terminal
Pole, the lamp tube ends are provided with lamp base, electrically connected between the pole and the lamp base by molybdenum sheet.
2. the carbon fiber infrared heating fluorescent tube of exhaust-pipe-free according to claim 1, it is characterised in that the shell is right
The opening position of the fixing terminal is answered to be provided with concave inward structure.
3. the carbon fiber infrared heating fluorescent tube of exhaust-pipe-free according to claim 1, it is characterised in that the fluorescent tube also wraps
Fast interface is included, the fast interface is electrically connected by power line with the lamp base.
4. the carbon fiber infrared heating fluorescent tube of exhaust-pipe-free according to claim 3, it is characterised in that outside the power line
It is arranged with silica gel and knits line, and high temperature resistant porcelain head is arranged with by the shell and institute outside the power line of described shell one end
State silica gel and knit line and separate.
5. the carbon fiber infrared heating fluorescent tube of exhaust-pipe-free according to claim 1, it is characterised in that the molybdenum sheet is outer
The flat Boards wall formed is pressed from both sides after the scorification of shell both ends, clamping plate is fixed on together with the lamp base one end and pole one end being connected with molybdenum sheet
It is interior.
6. a kind of production equipment for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that the production equipment includes turning
Disk and the clamping device being evenly distributed on the rotating disk, the clamping device are used to install glass tube and carbon fiber to be processed
Heating wire, the periphery of the rotating disk are circumferentially sequentially provided with:
Apparatus for baking, the apparatus for baking are used for the glass tube heating and are exhausted;
The glass tube wherein one end is carried out clamp by the first clipp-seal device, first clipp-seal device;
The glass tube wherein one end is carried out dent processing by the first dent device, the first dent device;
Turned around device, and the device that turns around is exchanged the both ends of the glass tube;
The glass tube wherein other end is carried out dent processing by the second dent device, the second dent device;
The glass tube wherein other end is carried out clamp by the second clipp-seal device, second clipp-seal device;
Cooling device, the cooling device integrally cool down the glass tube.
7. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that described
Rotating disk periphery also includes lifting device successively, and the lifting device is used for the height that the glass tube is promoted to setting;Go
Tailing device, it is described to go tailing device to carry out tailing to described second of clamp end of glass tube to handle;The lifting device and
Tailing device is gone to follow successively after cooling device.
8. the production equipment according to claim 7 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that also wrap
Included burning interface arrangement, the burning interface arrangement glass tube end at second of clamp end is sintered it is smooth, so as to
Fluorescent tube is made, the burning interface arrangement is followed after tailing device is removed.
9. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that also wrap
Including the first detection means and second detection device, first detection means is located at the previous station of the apparatus for baking, and described
One detection means is used to detect whether the clamping device feeding is installed in place;The second detection device turns around to fill located at described
Put between the described second dent device, the second detection device exchanges whether feeding is installed in place for detection.
10. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that also
Including feeding device and blanking device, the feeding device is used for the clamping device feeding;The blanking device be used for from
The clamping device blanking.
11. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that institute
State apparatus for baking and be provided with Flame device moving up and down, the Flame device can be baked to another from described glass tube one end
End.
12. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that institute
Stating the first clipp-seal device includes the second Flame device and clamping, and second Flame device is used for what glass tube described in scorification was set
Position, the clamping is used for clamp glass tube by the position after the second Flame device scorification, so as to form clamp structure.
13. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that institute
Stating the first dent device includes the 3rd Flame device and dent pin, and the 3rd Flame device is used to burn the soft glass tube setting
Position, the dent pin be used for clamp the position that glass tube was burnt by the 3rd Flame device, so as to form concave inward structure,
The second dent device is identical with the described first dent apparatus structure.
14. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that institute
Stating the second clipp-seal device includes the 4th Flame device and the second clamping, and second clamping is provided with folder knife, the 4th duration and degree of heating
Device is used for the position that glass tube described in scorification is set, and second clamping is used for clamp glass tube by the 4th Flame device
Position after scorification, so as to form the second clamp structure, the folder cutter holder press the second clamp structure outer end make to be formed it is recessed
Cutter groove structure.
15. the production equipment according to claim 6 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that institute
It is air cooling equipment to state cooling device.
16. the production equipment according to claim 7 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that institute
State tailing device and beat mechanism including what one or two was oppositely arranged, the mechanism of beaing is used to beat the glass tube
End.
17. the production equipment according to claim 8 for being used to process carbon fiber infrared heating fluorescent tube, it is characterised in that institute
Stating burning interface arrangement includes the 5th Flame device, and the end that the 5th Flame device is used to be aligned the glass tube is burnt
Knot.
18. a kind of technique for the carbon fiber infrared heating fluorescent tube for processing exhaust-pipe-free, it is characterised in that comprise the following steps:
1)Carbon fiber exothermic wire, fixing terminal, lamp base and molybdenum sheet are connected as one in advance, are placed in glass envelope, will
Glass tube and the carbon fiber exothermic wire connected are fixed on clamping device;
2)To step 1)In the glass tube that fixes toasted, be exhausted simultaneously, remove impurity in pipe;
3)First end clamp:After first end to the molten condition of Flame device heatable glass tube, using clamping by glass tube
First end clamp, makes the lamp base and molybdenum sheet for fixing glass tube first end, and the first end mouth of pipe of the glass tube is set down;
4)First end is dent:With, to after molten condition, utilization is dent at the default recess of Flame device heatable glass tube first end
Pin is moved inward so as to produce the concave inward structure of glass tube first end;
5)Turn around:The good first end of clamp and the second end position of non-clamp are exchanged;
6)Second end is dent:With, to after molten condition, utilization is dent at the default recess in the end of Flame device heatable glass tube second
Pin is moved inward so as to produce the concave inward structure at the end of glass tube second;
7)Second end clamp:After the second end to the molten condition of Flame device heatable glass tube, using clamping by glass tube
Second end clamp, make to fix glass tube two-end buld holder and molybdenum sheet, meanwhile, using pressing from both sides clamp of the knife at the second end of glass tube
Cutter groove structure is pressed from both sides out in structure;
8)Remove tailing:The afterbody for tapping the second end of glass tube using mechanism is beaten, make the afterbody at the second end of glass tube along institute
State and dropped at cutter groove structure;
9)Sinter mouth:It is sintered using Flame device alignment cutter groove structure;
10)Finished product is made:Glass tube is removed from clamping device, a kind of carbon fiber infrared heating fluorescent tube of exhaust-pipe-free is made.
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CN201710959495.4A CN107658207A (en) | 2017-10-16 | 2017-10-16 | Carbon fiber infrared heating fluorescent tube, production equipment and its technique of a kind of exhaust-pipe-free |
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CN201710959495.4A CN107658207A (en) | 2017-10-16 | 2017-10-16 | Carbon fiber infrared heating fluorescent tube, production equipment and its technique of a kind of exhaust-pipe-free |
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