CN103302373B - Isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder - Google Patents
Isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder Download PDFInfo
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- CN103302373B CN103302373B CN201310201340.6A CN201310201340A CN103302373B CN 103302373 B CN103302373 B CN 103302373B CN 201310201340 A CN201310201340 A CN 201310201340A CN 103302373 B CN103302373 B CN 103302373B
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Abstract
The invention discloses isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder.Isolated twin-jet nozzle device, comprise holder and the first jet assembly that connects with holder and second nozzle assembly, first jet assembly is provided with first jet, and second nozzle assembly is provided with second nozzle; Also comprise the barrier assembly be located between first jet and second nozzle, and be connected in the slide assemblies between holder and second nozzle assembly; Slide assemblies comprise the stiff end fixed with holder and with the movable end for fixing second nozzle assembly.The present invention, by slide assemblies, can be adjusted to suitable height to reach best atomize, allow in running order nozzle protrude from another one nozzle when spray nozzle works; Utilize this slide assemblies to drive the action of barrier assembly to provide protection for second nozzle simultaneously.
Description
Technical field
The present invention relates to a kind of spray nozzle device, more particularly refer to isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder, barrier assembly is adopted between two nozzles, and a nozzle have employed slide assemblies, making the nozzle of two kinds of materials when sharing a support platform, not having reciprocal influence.
Background technology
Integral type selects the scaling powder nozzle of weldering and tin stove to share an XYZ platform.The scaling powder of scaling powder nozzle ejection has inflammable characteristic mostly, and tin stove is high temperature heat source, and scaling powder nozzle, to the close together of tin stove, if do not have good safeguard procedures, has risk on fire.For the sake of security, the spacing comparatively large (if the equipment of pillarhouse is between the two apart from reaching more than 150mm) of current selection weldering scaling powder nozzle distance tin stove nozzle, cause the area of XYZ platform (also can be referred to as support platform) excessive, be unfavorable for the spraying procedure of scolding tin or scaling powder.
Therefore, be necessary to develop a kind of new spray nozzle device.
Summary of the invention
The object of the invention is to the defect overcoming prior art, a kind of isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder are provided.
For achieving the above object, the present invention is by the following technical solutions:
Isolated twin-jet nozzle device, comprise holder and the first jet assembly that connects with holder and second nozzle assembly, first jet assembly is provided with first jet, and second nozzle assembly is provided with second nozzle; Also comprise the barrier assembly be located between first jet and second nozzle, and be connected in the slide assemblies between holder and second nozzle assembly; Slide assemblies comprise the stiff end fixed with holder and with the movable end for fixing second nozzle assembly.
Its further technical scheme is: described barrier assembly comprises the fixing division board be fixedly connected with holder and the Morable isolation plate be actively coupled with fixing division board; Described Morable isolation plate connects with the movable end of slide assemblies.
Its further technical scheme is: described fixing division board connects for rotating with being actively coupled of Morable isolation plate, and the inner of described fixing division board outer end and Morable isolation plate consists of to rotate the hinge be provided with and connects.
Its further technical scheme is: the stage casing of described Morable isolation plate side or be provided with coupling bar between outer end and the movable end of slide assemblies, and the two ends of described coupling bar connect with Morable isolation plate, movable end hinge respectively.
Its further technical scheme is: described hinge is arranged with torsion spring; Described Morable isolation plate pressure is contacted with the movable end of slide assemblies; The outer end of described movable end is provided with the roller that pressure is contacted with Morable isolation plate.
Its further technical scheme is: described fixing division board and being actively coupled of Morable isolation plate are slidably connected for nested, and described Morable isolation plate and the movable end of slide assemblies are fixedly connected.
Its further technical scheme is: described fixing division board and Morable isolation plate are the trough plate dug both sides; Described second nozzle assembly is placed in the vallecular cavity of trough plate.
Its further technical scheme is: described slide assemblies comprises the cylinder being provided with guide rod, described stiff end is the cylinder block be fixedly connected with holder, described movable end comprises the guide rod seat be fixedly connected with guide rod, cylinder piston rod, and the installation support bar be fixedly connected with guide rod seat.
For the twin-jet nozzle device of tin stove and scaling powder, it is characterized in that the isolated twin-jet nozzle device comprised described in any one of claim 1 to 8, described first jet assembly is tin furnace module, and described first jet is tin stove nozzle; Described second nozzle assembly is scaling powder atomizing assembly, and described second nozzle is scaling powder nozzle.
Its further technical scheme is: described scaling powder nozzle comprises jet flow type scaling powder nozzle and atomizing type scaling powder nozzle; Described mount pad is also provided with fixed side.
The present invention's beneficial effect is compared with prior art: the present invention, by slide assemblies, can be adjusted to suitable height to reach best atomize, allow in running order nozzle protrude from another one nozzle when spray nozzle works; Utilize this slide assemblies to drive the action of barrier assembly to provide protection for second nozzle simultaneously.In the twin-jet nozzle device for tin stove and scaling powder, the spacing between scaling powder nozzle and tin stove nozzle can foreshorten to about 100mm, and compared with same category of device, the stroke of platform can shorten about 100mm, and the appearance and size of equipment complete machine also can reduce accordingly.Owing to adding barrier assembly, strengthen the safeguard protection of two nozzles widely, when tin stove nozzle operation, other scaling powder nozzle retreats, and covered by Morable isolation plate completely, the tin stove nozzle of high temperature in working order time can not inflammable scaling powder nozzle be impacted; And when scaling powder nozzle operation, released forward by slide assemblies and higher than other tin stove nozzle, also Morable isolation plate holded up simultaneously, tin stove nozzle and scaling powder nozzle are separated completely.The isolated twin-jet nozzle device of the present invention not only may be used for, in the nozzle arrangements of tin stove and scaling powder, also may be used in the nozzle arrangements of other material.
Below in conjunction with the drawings and specific embodiments, the invention will be further described.
Accompanying drawing explanation
Fig. 1 is the structural representation (second nozzle assembly is in fallback state) of the present invention's isolated twin-jet nozzle device specific embodiment;
Fig. 2 is the structural representation (second nozzle assembly is in the state of stretching out) of the present invention's isolated twin-jet nozzle device specific embodiment;
Fig. 3 is the structural representation (second nozzle assembly is in fallback state) of another specific embodiment of the isolated twin-jet nozzle device of the present invention;
Fig. 4 is the structural representation (second nozzle assembly is in the state of stretching out) of another specific embodiment of the isolated twin-jet nozzle device of the present invention;
Fig. 5 is the present invention for the three-dimensional structure diagram (scaling powder nozzle assembly is in fallback state) of the twin-jet nozzle device of tin stove and scaling powder;
Fig. 6 is the present invention for the three-dimensional structure diagram (scaling powder nozzle assembly is in the state of stretching out) of the twin-jet nozzle device of tin stove and scaling powder.
Reference numeral
10 first jet assembly 10A tin furnace modules
11 first jet 11A tin stove nozzles
20 second nozzle assembly 20A scaling powder atomizing assemblies
21 second nozzle 211 jet flow type scaling powder nozzles
212 atomizing type scaling powder nozzle 21A scaling powder nozzles
30 holder 30A holders
31 fixed side 40 barrier assemblies
41 fixing division board 42 Morable isolation plates
42A Morable isolation plate 421 chute
43 hinge 50 slide assemblies
51 stiff end 52 movable ends
59 cylinder 591 cylinder block
592 guide rod 593 cylinder piston rods
594 guide rod seats 595 install support bar
59A cylinder 60 coupling bar
596 install gusset piece 58 gate shafts
Detailed description of the invention
In order to more fully understand technology contents of the present invention, below in conjunction with specific embodiment technical scheme of the present invention being introduced further and illustrating, but being not limited to this.
As shown in Figure 1-2, the isolated twin-jet nozzle device of the present invention, comprise holder 30 and the first jet assembly 10 that connects with holder 30 and second nozzle assembly 20, first jet assembly 10 is provided with first jet 11, and second nozzle assembly 20 is provided with second nozzle 21; Also comprise the barrier assembly 40 be located between first jet 11 and second nozzle 21, and be connected in the slide assemblies 50 between holder 30 and second nozzle assembly 20; Slide assemblies 50 comprise the stiff end 51 fixing with holder 30 and with the movable end 52 for fixing second nozzle assembly 20.Barrier assembly 40 comprises the fixing division board 41 be fixedly connected with holder 30 and the Morable isolation plate 42 be actively coupled with fixing division board 41; Morable isolation plate 42 connects with the movable end 52 of slide assemblies 50.Wherein, fixing division board 41 is with Morable isolation plate 42 trough plate dug both sides; Second nozzle assembly 20 is placed in the vallecular cavity of trough plate, makes trough plate form the protection of three to second nozzle assembly.
In the present embodiment, slide assemblies 50 comprises the cylinder 59 being provided with guide rod 592, stiff end 51 is the cylinder block 591 be fixedly connected with holder 30, movable end 52 comprises the guide rod seat 594 be fixedly connected with guide rod 592, cylinder piston rod 593 (as shown in Figure 3, Figure 4), and the installation support bar 595 be fixedly connected with guide rod seat 594.Fixing division board 41 connects for rotating with being actively coupled of Morable isolation plate 42, and the inner (lower end namely in figure) fixing division board 41 outer end (upper end namely in figure) and Morable isolation plate 42 consists of to rotate the hinge 43 be provided with and connects.Be provided with coupling bar 60 between the stage casing of Morable isolation plate 42 side or the movable end 52 of outer end and slide assemblies 50, the two ends of coupling bar 60 connect with Morable isolation plate 42, movable end 52 hinge respectively.
In another specific embodiment shown in Fig. 3-4, be provided with chute 421 at the side of Morable isolation plate 42A, the upper end (i.e. the upper end of movable end) of support bar 595 be installed and be provided with gate shafts 58 through being slidably connected in chute 421 and with chute 421.Replace the connection of the coupling bar in a upper embodiment with coordinating between gate shafts 58 with chute 421, be characterized in that structure is simple, production cost is low.
In other embodiment, torsion spring can be arranged with on hinge; Morable isolation plate pressure is contacted with the movable end of slide assemblies; The outer end of movable end is provided with the roller that pressure is contacted with Morable isolation plate.Morable isolation plate is under the active force of torsion spring, and pressure is contacted with the side of slide assemblies movable end all the time, and when slide assemblies retreats, Morable isolation plate, under the effect of torsion spring, rotates the outer end to slide assemblies movable end, is covered by slide assemblies movable end.When slide assemblies stretches out forward, Morable isolation plate withstands by the roller of the outer end side of movable end, makes Morable isolation plate be in vertical state, now, although second nozzle protrudes from first jet, Morable isolation plate is in vertical state and is separated completely by two nozzles.
In other embodiment, fixing division board and being actively coupled of Morable isolation plate also can be nested being slidably connected, and the movable end of Morable isolation plate and slide assemblies is fixedly connected.
In other embodiment, slide assemblies also can be the common cylinder of slide unit cylinder, the accurate slide unit cylinder of siding track type or guiding mechanism, also can adopt oil cylinder, also can adopt by motor-driven ball leading screw driving secondary.
As seen in figs. 5-6, the present invention for the specific embodiment of the twin-jet nozzle device of tin stove and scaling powder, differently shown in itself and Fig. 1-2 be, first jet assembly is that tin furnace module 10A (is provided with heating element heater, make the tin in stove be in liquid state always, be in the condition of high temperature, easily inflammable scaling powder nozzle had an impact), first jet is tin stove nozzle 11A; Second nozzle assembly is scaling powder atomizing assembly 20A, and second nozzle is scaling powder nozzle 21A.In order to may be used for the spraying of two kinds of scaling powders, being provided with two scaling powder nozzles at scaling powder atomizing assembly, being respectively jet flow type scaling powder nozzle 211 and atomizing type scaling powder nozzle 212; Holder 30A is also provided with fixed side 31, for installing cylinder 59A.The spacing of scaling powder nozzle and tin stove nozzle (i.e. tin stove nozzle) can be reduced at the twin-jet nozzle device of guide rod seat the present embodiment, the stroke (platform is at least PCB design maximum size in the direction in which+2 times of scaling powder nozzles to tin stove nozzle spacing in the direction in which at the stroke in a direction) of motion platform (namely XYZ platform, is also called support platform) can also be shortened widely.Wherein, support bar 595 is installed with have employed between guide rod seat 594 and gusset piece 596 is installed carries out transition and connect.
In other embodiment, first jet assembly, second nozzle assembly and holder can need according to different uses to make corresponding adjustment.
In other embodiment, also the sliding groove structure shown in Fig. 3-4 can be used in the twin-jet nozzle device of tin stove and scaling powder.
In other embodiment, also the structure being arranged with torsion spring on hinge can be used in the twin-jet nozzle device of tin stove and scaling powder.
In other embodiment, also the nested of employing that be actively coupled of fixing division board and Morable isolation plate can be slidably connected, in the twin-jet nozzle device of tin stove and scaling powder.
In sum, the present invention, by slide assemblies, can be adjusted to suitable height to reach best atomize, allow in running order nozzle protrude from another one nozzle when spray nozzle (i.e. scaling powder nozzle) works; Utilize this slide assemblies to drive the action of barrier assembly to provide protection for second nozzle simultaneously.In the twin-jet nozzle device for tin stove and scaling powder, the spacing between scaling powder nozzle and tin stove nozzle can foreshorten to about 100mm, and compared with same category of device, the stroke of platform can shorten about 100mm, and the appearance and size of equipment complete machine also can reduce accordingly.Owing to adding barrier assembly, strengthen the safeguard protection of two nozzles widely, when tin stove nozzle operation, other scaling powder nozzle retreats, and covered by Morable isolation plate completely, the tin stove nozzle of high temperature in working order time can not inflammable scaling powder nozzle be impacted; And when scaling powder nozzle operation, released forward by slide assemblies and higher than other tin stove nozzle, also Morable isolation plate holded up simultaneously, tin stove nozzle and scaling powder nozzle are separated completely.The isolated twin-jet nozzle device of the present invention not only may be used for, in the nozzle arrangements of tin stove and scaling powder, also may be used in the nozzle arrangements of other material; Second nozzle is wherein used for easy affected material spray, the flammable materials of such as scaling powder and so on.
Above-mentionedly only further illustrate technology contents of the present invention with embodiment, so that reader is easier to understand, but does not represent embodiments of the present invention and be only limitted to this, any technology done according to the present invention extends or recreation, all by protection of the present invention.Protection scope of the present invention is as the criterion with claims.
Claims (7)
1. isolated twin-jet nozzle device, comprise holder and the first jet assembly that connects with holder and second nozzle assembly, described first jet assembly is provided with first jet, and described second nozzle assembly is provided with second nozzle; Characterized by further comprising the barrier assembly be located between first jet and second nozzle, and be connected in the slide assemblies between holder and second nozzle assembly; Described slide assemblies comprise the stiff end fixed with holder and with the movable end for fixing second nozzle assembly; Described barrier assembly comprises the fixing division board be fixedly connected with holder and the Morable isolation plate be actively coupled with fixing division board; Described Morable isolation plate connects with the movable end of slide assemblies; Described fixing division board and Morable isolation plate are the trough plate dug both sides; Described second nozzle assembly is placed in the vallecular cavity of trough plate; Described slide assemblies comprises the cylinder being provided with guide rod, and described stiff end is the cylinder block be fixedly connected with holder, and described movable end comprises the guide rod seat be fixedly connected with guide rod, cylinder piston rod, and the installation support bar be fixedly connected with guide rod seat.
2. isolated twin-jet nozzle device according to claim 1, it is characterized in that described fixing division board connects for rotating with being actively coupled of Morable isolation plate, the inner of described fixing division board outer end and Morable isolation plate consists of to rotate the hinge be provided with and connects.
3. isolated twin-jet nozzle device according to claim 2, it is characterized in that the stage casing of described Morable isolation plate side or be provided with coupling bar between outer end and the movable end of slide assemblies, the two ends of described coupling bar connect with Morable isolation plate, movable end hinge respectively.
4. isolated twin-jet nozzle device according to claim 2, is characterized in that described hinge is arranged with torsion spring; Described Morable isolation plate pressure is contacted with the movable end of slide assemblies; The outer end of described movable end is provided with the roller that pressure is contacted with Morable isolation plate.
5. isolated twin-jet nozzle device according to claim 2, is characterized in that the side of described Morable isolation plate is provided with chute, and the upper end of described movable end is provided with the gate shafts through connecting in chute and with slide.
6., for the twin-jet nozzle device of tin stove and scaling powder, it is characterized in that the isolated twin-jet nozzle device comprised described in any one of claim 1 to 5, described first jet assembly is tin furnace module, and described first jet is tin stove nozzle; Described second nozzle assembly is scaling powder atomizing assembly, and described second nozzle is scaling powder nozzle.
7. the twin-jet nozzle device for tin stove and scaling powder according to claim 6, is characterized in that described scaling powder nozzle comprises jet flow type scaling powder nozzle and atomizing type scaling powder nozzle; Described holder is also provided with fixed side.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310201340.6A CN103302373B (en) | 2013-05-27 | 2013-05-27 | Isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310201340.6A CN103302373B (en) | 2013-05-27 | 2013-05-27 | Isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder |
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| Publication Number | Publication Date |
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| CN103302373A CN103302373A (en) | 2013-09-18 |
| CN103302373B true CN103302373B (en) | 2015-08-19 |
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| CN201310201340.6A Active CN103302373B (en) | 2013-05-27 | 2013-05-27 | Isolated twin-jet nozzle device and the twin-jet nozzle device for tin stove and scaling powder |
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| CN (1) | CN103302373B (en) |
Families Citing this family (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105312177B (en) * | 2015-11-08 | 2019-05-03 | 苏州辰正太阳能设备有限公司 | A kind of scaling powder automatic spraying system |
| CN106216135A (en) * | 2016-08-31 | 2016-12-14 | 湖南法泽尔动力再制造有限公司 | A kind of intelligence spraying prosthetic appliance |
| CN106684017B (en) * | 2016-11-18 | 2019-11-08 | 深圳微纳增材技术有限公司 | A kind of preparation of BGA Package tin ball and plant ball integrated apparatus |
| CN107363369B (en) * | 2017-08-31 | 2020-08-18 | 阜阳扬宇充电设备有限公司 | Special tin stove nozzle structure is made to power template |
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| CN102151931A (en) * | 2011-03-22 | 2011-08-17 | 苏州工业园区新明亚电子科技有限公司 | Tin-soaking processing device |
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| JP2003188517A (en) * | 2001-12-18 | 2003-07-04 | Senju Metal Ind Co Ltd | Method and apparatus for partially soldering printed board |
| DE102006036773A1 (en) * | 2006-08-07 | 2008-02-14 | Seho Systemtechnik Gmbh | Device for the controlled displacement of a spray nozzle to individual spray points, in particular for spraying flux in Schwalllötanlagen |
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| CN102248244A (en) * | 2010-07-29 | 2011-11-23 | 深圳科安达电子科技股份有限公司 | Fully-automatic tin soldering machine |
| CN201940716U (en) * | 2010-12-03 | 2011-08-24 | 西安中科麦特电子技术设备有限公司 | Energy-saving crest welder |
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| CN103302373A (en) | 2013-09-18 |
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