CN205944129U - Bridging device's scaling powder coating device - Google Patents

Abstract

The utility model discloses a bridging device's scaling powder coating device. The utility model discloses a bridging device's scaling powder coating device's characterized in that, include: scaling powder coating portion is to busbar coating scaling powder, and the scaling powder dryer part, set up as that the busbar that supplies through scaling powder coating portion passes through in succession to carry out the drying to coating in the scaling powder of busbar.

Description

The solder coater on electric of lap device

Technical field

This utility model is related to a kind of scaling powder (flux) coating unit of lap device (tabbing apparatus), In more detail, it is related to a kind of solder coater on electric of lap device scaling powder being coated on bus.

Background technology

At present, the mankind mainly obtain most energy, this fossil and nuclear energy from oil, coal, nuclear energy, natural gas etc. The energy is predicted will be exhausted in the near future.Therefore, countries in the world step up to research and develop reproducible new forms of energy, the wherein sun Can generate electricity because electricity can be obtained what sunshiny place in office, and be different from other generation modes, completely nuisanceless, because This is more exposed to pay close attention to.

In order to carry out solar electrical energy generation, need to convert the solar into the semiconductor element of electric energy, it is referred to as solar energy Battery.Generally, the maximum voltage of about 0.5V only can only be produced by unit solaode, accordingly, it would be desirable to by unit solar energy Battery connects to use in a series arrangement.So unit solaode is connected and carry out modular module and be referred to as solar energy Battery module.

The manufacture process of solar module can be divided into battery testing (cell test) operation, overlap joint (tabbing) work Sequence, coating (lay-up) operation, lamination (lamination) operation, module testing operation.

First, in battery testing operation, after the solar battery cell with various electrical characteristics is tested, enter Row is distinguished, and is classified with the battery unit with similar electrical characteristic, and second, in overlap joint operation, using bus (conductive strip) is attached in a series arrangement to multiple battery units.3rd, in coating operation, one will be linked to be Row battery cell arrangement be desirable shape after, be laminated low ferrum safety glass, ethylene-vinyl acetate copolymer (EVA, Ethylene vinyl acetate), backboard (back sheet) etc., the 4th, in lamination, to through overcoat operation The part with the shape of solar module carries out vacuum compacting at high temperature, thus making it have durability and waterproof Property.Finally, in module testing operation, the solar module completing is made whether with the test of normal work.

Here, just using bus for the overlap joint operation that multiple battery units are attached, it is as solar-electricity Most crucial operation in the manufacturing process of pond module, if bus and battery unit do not have normal engagement, solaode The overall performance of module and quality can reduce.If gross examination of skeletal muscle overlap joint operation, multiple conductions that spool (reel) is supplied So that a sidepiece of wire bar is installed on battery unit in lodge mode, in the other side of bus again after bar is cut off Secondary installation laminated cell, while being so repeated, are exposed in high-temperature atmosphere.Under high-temperature atmosphere, bus Welding (soldering), in battery unit, makes multiple battery units be electrically connected by bus.

Background technology of the present utility model is disclosed in Korean registered patent gazette the 10-1058399th.

Utility model content

(technical problem to be solved)

The purpose of this utility model is to provide a kind of solder coater on electric of lap device, can be uniform to bus Ground coating scaling powder.

(solving the means of technical problem)

This utility model provides a kind of solder coater on electric of lap device it is characterised in that including：Scaling powder coats Portion, covers scaling powder to conductive bar painting；And scaling powder drying section, it is configured to allow for the described conduction by described scaling powder painting part Bar continues through, and the scaling powder being coated on described bus is dried.

Moreover it is preferred that described scaling powder painting part includes：Scaling powder ejection section, sprays scaling powder to described bus； And scaling powder recoverer, reclaim the remaining scaling powder being not coated with being overlying on described bus after the injection of described scaling powder ejection section.

Moreover it is preferred that described scaling powder ejection section includes：Coating housing, internally forms and passes through for described bus Coating spatial portion；And scaling powder injection apparatus, to the described bus injection scaling powder passing through described coating spatial portion.

Moreover it is preferred that described coating housing includes：Coating box body portion, is formed with the entrance entering for described bus Mouth and the outlet of the described bus discharge for use by described coating spatial portion, and be connected with mode of communicating in bottom Described scaling powder recoverer；And lid portion, configured in the way of covering the top of opening of described coating box body portion, and arrange There are described scaling powder injection apparatus.

Moreover it is preferred that described scaling powder ejection section also includes lowering or hoisting gear, described lowering or hoisting gear sprays to described scaling powder Injection device is lifted.

Moreover it is preferred that described scaling powder recoverer includes：Scaling powder catcher, is arranged at described scaling powder ejection section Bottom, and collect the remaining scaling powder being not coated with being overlying on described bus；Reclaim scaling powder tank, storage is collected from described scaling powder The scaling powder that device is discharged；And circulation supply equipment, to the described inside reclaiming scaling powder tank of described scaling powder ejection section supply Scaling powder.

Moreover it is preferred that described scaling powder painting part also includes coating control unit, help described in described coating control unit control Solder flux ejection section or the work of described scaling powder recoverer, when described bus is mobile, sprays scaling powder, do not move in bus When dynamic, do not spray scaling powder.

Moreover it is preferred that described scaling powder drying section includes：Housing is dried, is internally formed with and leads to for described bus The dry place portion crossed；And flowing forms device, in the described air-flow being internally formed design temperature that housing is dried.

Moreover it is preferred that the described housing that is dried includes：Box body portion is dried, is formed with and inlet port is dried and outlet is dried, The described inlet port that is dried supplies described bus to enter, and described outlet described bus for use by described dry place portion is dried Discharge；And vortex forming portion, it is formed in the way of inwardly projecting and described box body portion is dried, to be formed in dry place portion Vortex.

Moreover it is preferred that described flowing forms device including：Warm-air supply device, is set to be dried the one of housing with described Sidepiece connects, and supplies the air of design temperature to described dry place portion；And hot blast displacer, it is set to dry with described The other side connection of dry housing, and to the outside air discharged in described dry place portion.

Moreover it is preferred that described scaling powder drying section also includes heat-insulated safety guard, described heat-insulated safety guard is arranged at described The outside of housing is dried, and and described formation air layer is dried between housing.

Moreover it is preferred that the solder coater on electric of described lap device also includes first guide part, described first Guide part is arranged on the mobile route of described bus, and guides described bus to described scaling powder painting part side.

Moreover it is preferred that described first guide part includes：First guide part, to the guiding of described scaling powder painting part side Described bus detached with described scaling powder painting part；And second guide part, it is arranged at described scaling powder painting part, and to Horizontal direction guides the movement of the described bus by described first guide part.

Moreover it is preferred that the solder coater on electric of described lap device also includes Article 2 guide part, described Article 2 Guide part is arranged at from the mobile route of the described bus that described scaling powder drying section is discharged, and guides with described first Portion guides the movement of described bus together to horizontal direction.

(technique effect of utility model)

According to the solder coater on electric of lap device of the present utility model, bus pass sequentially through scaling powder painting part and Scaling powder drying section, enables to scaling powder coating and drying is continuously realized throughout whole length, and is covering to conductive bar painting After scaling powder, before completing to be dried, any external force is not acted on to gib block such that it is able to whole surface to bus It is evenly coated with scaling powder, the scaling powder being prevented from being coated on bus is rubbed off.

Brief description

Fig. 1 is the block diagram of the solder coater on electric of lap device briefly showing an embodiment of the present utility model.

Fig. 2 is that the scaling powder of the solder coater on electric of lap device briefly showing an embodiment of the present utility model applies Cover portion and first (strip) guides the axonometric chart in (guide) portion.

Fig. 3 is that the scaling powder of the solder coater on electric of lap device briefly showing an embodiment of the present utility model is done The axonometric chart in dry portion.

Fig. 4 is the axonometric chart in the section of line VI -- VI intercepting being showing along Fig. 3.

Fig. 5 is the sectional view of the line VI -- VI intercepting along Fig. 3.

Description of reference numerals

2：Bus, 10：Scaling powder painting part, 11：Scaling powder ejection section, 12：Coating housing, 12a：Coating spatial portion, 13：Scaling powder injection apparatus, 13a：Scaling powder supplying tank, 14：Lowering or hoisting gear, 15：Scaling powder recoverer, 16：Scaling powder is collected Device, 16a：Filter, 17：Recovery scaling powder tank, 18：Circulation supply equipment, 19：Coating control unit, 20：Scaling powder drying section, 21：Housing, 21a are dried：Dry place portion, 22：Flowing formation device, 23：Heat-insulated safety guard, 24：Sensor-disposed portion, 25： Temperature sensor, 30：Article first, guide part, 31：First guide part, 32：Second guide part, 40：Article 2 guide part, 121：Apply Cover box body portion, 122：Inlet port, 123：Outlet, 124：Lid portion, 211：Box body portion is dried, 212：Inlet port is dried, 213： Outlet is dried, 214：Vortex forming portion, 221：Warm-air supply device, 222：Hot blast displacer, 311：First guide rod, 312：Guiding Hole portion, 313：First height adjusting part, 321：Second guide rod, 322：Guiding groove section, 323：Come off and prevent rod, 324：Second height Adjustment portion.

Specific embodiment

Hereinafter, referring to the drawings, an embodiment of the solder coater on electric of lap device of the present utility model is said Bright.In the process, size of the thickness of the line shown by figure or element etc. perhaps to explanation on definition and Convenience and exaggerate and illustrate.

Additionally, term described later allows for the function in this utility model and defines, it is according to user, fortune user Intention or convention difference and may be different.Therefore, the definition to this term should be with the full content of this specification as base Plinth is determining.

Fig. 1 is the block diagram of the solder coater on electric of lap device briefly showing an embodiment of the present utility model, Fig. 2 It is the scaling powder painting part and first of the solder coater on electric of lap device briefly showing an embodiment of the present utility model The axonometric chart of bar guide part, Fig. 3 is the solder coater on electric of the lap device briefly showing an embodiment of the present utility model Scaling powder drying section axonometric chart, Fig. 4 be showing along Fig. 3 line VI -- VI intercept section axonometric chart, Fig. 5 be along The sectional view that the line VI -- VI of Fig. 3 intercepts.

Referring to figs. 1 to Fig. 3, the solder coater on electric of the lap device of an embodiment of the present utility model includes scaling powder Painting part 10, scaling powder drying section 20, first guide part 30, Article 2 guide part 40.

Scaling powder (flux) is coated on by internal bus 2 scaling powder painting part 10.Scaling powder drying section 20 with So that be arranged at the front of scaling powder painting part 10 by way of the bus 2 of scaling powder painting part 10 continues through, and right The scaling powder being coated on bus 2 is dried.Here, front refers to the moving direction identical direction with bus 2.

Article first, guide part 30 is arranged on the mobile route that bus 2 enters before scaling powder painting part 10, to helping weldering Agent painting part 10 side guides bus 2.Article 2 guide part 40 is arranged at the shifting of the bus 2 discharged from scaling powder drying section 20 On dynamic path, guide the movement of bus 2 together with first guide part 30 in the horizontal direction.

Due in the inside of scaling powder painting part 10, the inside of scaling powder drying section 20, scaling powder painting part 10 and help weldering Between agent drying section 20, it is not provided with any device bus 2 being guided or contacting with bus 2, hence in so that Bus 2 be equivalent at two that first guide part 30 is with Article 2 guide part 40 with the state contacting realize its movement.By This, to after bus 2 coating scaling powder, till completing to be dried, will not act on any external force to bus 2, thus can Whole surface to bus 2 is evenly coated with scaling powder, and the scaling powder being prevented from being coated on bus 2 is rubbed off.

If pulling bus 2 from the front of scaling powder drying section 20, bus 2 is with by first article of guide part 30 and the Article two, the state of guide part 40 level guiding, continues through scaling powder painting part 10 and scaling powder drying section 20 successively, helps simultaneously Solder flux coating and drying are continuously realized throughout whole length.

With reference to Fig. 1 and Fig. 2, the scaling powder painting part 10 of an embodiment of the present utility model include scaling powder ejection section 11, Scaling powder recoverer 15, coating control unit 19.

Scaling powder ejection section 11 is to spray the device of scaling powder to bus 2.With reference to Fig. 2, an enforcement of the present utility model The scaling powder ejection section 11 of example includes coating housing (housing) 12, scaling powder injection apparatus 13, lowering or hoisting gear 14.

Coating housing 12 is internally formed the coating spatial portion 12a being available for that bus 2 passes through.Coating housing 12 have except For bus 2 turnover inlet port 122 and outlet 123 outside remainder airtight box body (box) shape so that prevent from The liquid scaling powder that scaling powder injection apparatus 13 are penetrated to bus 2 side spray in coating space 12a leaks to outside.With reference to Fig. 2, The coating housing 12 of an embodiment of the present utility model includes coating box body portion 121 and lid portion 124.

Coating box body portion 121 has the open cassette shapes in top, on the basis of the moving direction of bus 2, at rear Portion is formed with the inlet port 122 entering for bus 2, bus 2 row of portion 12a between front part is formed with for use by coating hole The outlet 123 going out.The bottom of coating box body 121 connects fluxing agent recoverer 15 with mode of communicating.

Lid portion 124 by cover coating box body portion 121 opening top in the way of arrange, thus with coating box body portion 121 form portion 12a between coating hole together.The lid portion 124 of an embodiment of the present utility model has the box body shape of lower open Shape, internally arranges fluxing agent injection apparatus 13.Additionally, be set to can above-below direction by lowering or hoisting gear 14 in lid portion 124 Mobile.

Lid portion 124 has the cassette shapes of lower open, and shape in the way of width ratio coating box body portion 121 is little Become, even if making lid portion 124 move up and down, simply the side surface part of the side surface part in lid portion 124 and coating box body portion 121 weighs each other The difference of conjunction degree, can be stably formed and maintain the coating spatial portion 12a being prevented from the hermetic type that scaling powder spills.

Although figure 2 illustrates the state that coating box body portion 121 is left in lid portion 124 completely, this is in order to lid The state in portion 124 is checked, or scaling powder is coated on the state of bus 2 confirms.Help weldering to bus 2 coating The operation of agent is to carry out under following state：Lid portion 124 moves further downward than the situation shown in Fig. 2, with coating box body Portion 121 contacts.

Scaling powder injection apparatus 13 are as the device spraying scaling powder to the bus 2 passing through coating spatial portion 12a, tool The nozzle of standby injection scaling powder, and it is arranged at the inside in lid portion 124.Scaling powder injection apparatus 13 receive by scaling powder recoverer The scaling powder of 15 recovery, or receive scaling powder from the scaling powder supplying tank 13a with the relatively independent setting of scaling powder recoverer 15 Supplement, thus being sprayed by nozzle.

Nozzle is configured with multiple, so as to along horizontal direction along the bearing of trend of bus 2 and orientation The multiple bus 2 being arranged side by side are overall uniform and fully coat scaling powder,.By using lowering or hoisting gear 14 to lid portion 124 are lifted, and the distance between the nozzle being arranged at scaling powder injection apparatus 13 and bus 2 can be stretched, simultaneously right Carry out increase and decrease from the coated area of the scaling powder of nozzle injection to adjust.

For example, if moved up lid portion 124 by lowering or hoisting gear 14, scaling powder injection apparatus 13 are together upwards Mobile, the distance between nozzle and bus 2 expands further simultaneously, can be throughout expanding further from the scaling powder of nozzle injection Scope injection, be coated on bus 2.If lid portion 124 is moved down by lowering or hoisting gear 14, scaling powder injection dress Put 13 to move downwardly together, the distance between nozzle and bus 2 reduces further simultaneously, can be all over from the scaling powder of nozzle injection And further reduce scope injection, be coated on bus 2.

Lowering or hoisting gear 14 is the device that lid portion 124 or scaling powder injection apparatus 13 are lifted.Of the present utility model Although the lowering or hoisting gear 14 of an embodiment has the construction arranging cylinder (cylinder) with standing manner, this utility model Lowering or hoisting gear 14 be not limited to this if it is possible to lifting cover body 124 or scaling powder injection apparatus 13, then be not limited to Specific construction and shape.

Scaling powder injection apparatus 13 are located at the upside of bus 2, and scaling powder injection apparatus 13 are towards bus 2 Jet with downward flow direction Scaling powder.Reach the top of bus 2 from the scaling powder of scaling powder injection apparatus 13 injection, be coated on bus 2, cover conductive Behind the top of bar 2, remaining scaling powder, along under the downward effluent in surface of bus 2, reaches the bottom of bus 2, throughout conduction The entire surface of bar 2 realizes its coating.

It is the dress that remaining scaling powder is reclaimed and resupplies to scaling powder injection apparatus 13 with regard to scaling powder recoverer 15 Put, described remnants scaling powder is uncoated after the scaling powder injection apparatus 13 of scaling powder ejection section 11 are penetrated to bus 2 side spray Scaling powder in bus 2.Referring to figs. 1 to Fig. 2, the scaling powder recoverer 15 of an embodiment of the present utility model includes scaling powder Catcher 16, recovery scaling powder tank 17, circulation supply equipment 18.

Scaling powder catcher 16 is not coated with the part of the remaining scaling powder being overlying on bus 2 as collecting, and has and can receive The shape of the container of the scaling powder of liquid, and it is set to be communicated in coating box body portion 121 bottom of scaling powder ejection section 11.From helping A part for the scaling powder of solder flux injection apparatus 13 injection is coated on the surface of bus 2, and remainder is to scaling powder catcher 16 naturally flow into, and described scaling powder catcher 16 is set to be communicated in coating box body portion 121 bottom of coating housing 12.

The bottom of scaling powder catcher 16 is provided with discharge unit, and described discharge unit is used for the outside to scaling powder catcher 16 Discharge scaling powder.The bottom of scaling powder catcher 16 has the shape more more reducing to downside width, so as to being easily achieved Discharged by the scaling powder of discharge unit.Being internally provided with of scaling powder catcher 16 is filtered to the foreign body containing in scaling powder (filtering) filter (filter) 16a.To scaling powder catcher 16 flow into remaining scaling powder by filter Filtered while 16a, pass through discharge unit afterwards and flow into reclaiming scaling powder tank 17.

Reclaiming scaling powder tank 17 is the device that the scaling powder discharged from scaling powder catcher 16 is stored.Collect to helping The scaling powder of the liquid of collecting flux device 16 is flowed into by discharge unit and stores to recovery scaling powder tank 17.Of the present utility model one The recovery scaling powder tank 17 of embodiment has the construction of the downside being arranged at scaling powder catcher 16, so as in action of gravity Under receive the supply of scaling powder from scaling powder catcher 16, but it is also possible to using such other driving such as pump (pump) Device (actuator), freely configures.

The scaling powder reclaiming within scaling powder tank 17 is supplied by circulation supply equipment 18 to scaling powder ejection section 11.Circulation supplies Include to device 18：Scaling powder supply line 18a, extends to the scaling powder spray of scaling powder ejection section 11 from recovery scaling powder tank 17 Injection device 13；Pump 18b, is arranged in scaling powder supply line 18a.Pump 18b forces to form court in scaling powder supply line 18a Stream to the scaling powder of scaling powder injection apparatus 13.Quantity delivered to scaling powder is provided with scaling powder supply line 18a enter The valve (valve) that row is adjusted.

Coating control unit 19 controls scaling powder ejection section 11 or the work of scaling powder recoverer 15 as follows：Move in bus 2 When dynamic, spray scaling powder, when bus 2 does not move, do not spray scaling powder, in other words, be only in bus 2 and be moved through Scaling powder is sprayed from scaling powder injection apparatus 13 when in journey.

In more detail, the other sensor that coating control unit 19 is detected from the movement to bus 2 receives letter Cease, or the control device being controlled from the movement to bus 2 receives and bus 2 mobile related information, thus To being arranged at scaling powder ejection section 11 and the valve of scaling powder recoverer 15 or the work of pump is controlled.

Using coating control unit 19, only in the case that bus 2 is mobile, scaling powder is sprayed, thus, it is possible to It is coated on the mode of the amount zero difference of scaling powder of bus 2, by scaling powder throughout bus when bus 2 is mobile and when stopping 2 whole length uniformly coats, and omits the unnecessary work of scaling powder injection apparatus 13, circulation supply equipment 18 etc., So as to scaling powder painting part 10 is more efficiently used.

With reference to Fig. 1 and Fig. 3 to Fig. 5, the scaling powder drying section 20 of an embodiment of the present utility model include being dried housing 21, Flowing forms device 22, heat-insulated safety guard 23.

It is internally formed the dry place portion 21a passing through for bus 2 housing 21 is dried.Be dried housing 21 have except The airtight cassette shapes of remainder outside inlet port 212 being dried and outlet 213 being dried, the described inlet port 212 that is dried supplies Bus 2 enters, and the described outlet 213 that is dried is discharged for bus 2.With reference to Fig. 4 and Fig. 5, an embodiment of the present utility model The housing 21 that is dried include being dried box body portion 211 and vortex forming portion 214.

Box body portion 211 is dried there are the cassette shapes that upper and lower can be separated from one another, the moving direction with bus 2 is Benchmark, is formed with rear portion and entrance portion 212 is dried for what bus 2 entered, be formed with for use by dry place in front part What the bus 2 of portion 21a was discharged is dried outlet 213.The upper and lower that box body portion 211 is dried is mutually hinged, if will do Turning on one's side out upwards in the top of dry box body portion 211, then can be to the inside of box body portion 211, the i.e. inside of dry place portion 21a is dried Easily confirmed and checked.

Bus 2 stops the circulation of setting time, scaling powder ejection section after repeating forwards to move setting displacement 11 have the width corresponding with the moving displacement of bus 2.The box body portion 211 that is dried of an embodiment of the present utility model has The width corresponding with the multiple (for example, twice) of the width of scaling powder ejection section 11.Here, width refers to bus 2 On the basis of direct of travel, fore-and-aft direction width.

Thereby, it is possible to circulating repetition that is mobile in bus 2 and stopping multiple period, bus 2 is made to be fully exposed to In dry place portion 21a, can be exposed to same time in dry place portion 21a throughout the whole length of bus 2, thus Scaling powder drying process can uniformly and stably be executed throughout the whole length of bus 2.

Vortex forming portion 214 is formed, so that in dry place portion on box body portion 211 is dried in the way of inwardly projecting Form vortex as shown in Figure 5 in 21a.Dry place portion 21a is internally formed vortex, so that dry place portion 21a Internal hot blast is contacted with the surface of bus 2 from multiple directions, therefore, it is possible to improve scaling powder drying efficiency further.

Although the vortex forming portion 214 of an embodiment of the present utility model has being constructed as below：Multiple plate member are arranged It is to extend along the direction at a right angle with the direct of travel of bus 2, but vortex forming portion 214 of the present utility model not limits Due to this, as long as vortex can be internally formed in dry place portion 21a, it is not limited to specifically construct and shape.

Flowing forms the device that device 22 is in the air-flow being internally formed design temperature that housing 21 is dried.With reference to Fig. 1 and Fig. 3 to Fig. 5, the flowing of an embodiment of the present utility model forms device 22 and includes warm-air supply device 221 and hot blast displacer 222.

Warm-air supply device 221 has and forms wind higher than room temperature, the i.e. fan heater of hot blast, is set to and dry place portion 21a connects.Warm-air supply device 221 is connected to and in housing 21 be dried an outlet 213 close sidepiece is dried, and in other words connects It is connected to the front part that housing 21 is dried, the air of the design temperature being formed by fan heater is supplied to dry place portion 21a.

Hot blast displacer 222 is to the outside device discharged by the air in dry place portion 21a, possesses blowing fan etc., It is arranged to be communicated in the other side close with inlet port 212 is dried that housing 21 is dried, the rear portion that housing 21 is dried.From Warm-air supply device 221 flows to dry place portion 21a leaked-in air along the direction contrary with the moving direction of bus 2, Finally discharge to hot blast displacer 222 side.

With more remote apart from hot blast displacer 222, the temperature of hot blast is gradually lowered, as described above, along with bus 2 Moving direction contrary direction guiding hot wind flow, hence into dry place portion 21a bus 2 first with relatively low temperature After the air of degree contacts, gradually contact with the air of higher temperature.Under effect as described above, using design temperature Hot blast, can more stably and effectively be dried scaling powder.

For the safety of operation, heat-insulated safety guard 23 is arranged at the outside that housing 21 is dried with separate mode.Housing is dried 21 due to internal hot blast with the temperature overheating higher than room temperature, by heat-insulated safety guard 23 is arranged at outside it, Neng Goufang Stop operating personnel or other equipment etc. and housing 21 directly contact is dried.Additionally, heat-insulated safety guard 23 and being dried between housing 21 It is formed with air layer, realize to the heat insulating function being dried outside housing 21.Thereby, it is possible to reduce the heat loss of hot blast further Rate.

If forming, with heat-insulated safety guard 23, the sensor-disposed portion that temperature sensor 25 can be arranged housing 21 is dried 24, then using temperature sensor 25, real-time detection is carried out to the temperature being dried within housing 21, warm-air supply device 221 can be controlled Work.The pars intermedia insertion that the sensor-disposed portion 24 of an embodiment of the present utility model is formed as housing 21 is dried is dried The form of the hole portion of housing 21 and heat-insulated safety guard 23.Can be by the test section of temperature sensor 25 by sensor-disposed portion 24 Introduce to the inside that housing 21 is dried, temperature sensor 25 stably can be assembled to and being positioned housing 21 on is dried put.

With reference to Fig. 2, first guide part 30 of an embodiment of the present utility model includes the first guide part 31 and second leads To portion 32.

Bus 2 detached with scaling powder painting part 10 is guided by the first guide part 31 to scaling powder painting part 10 side.More For in detail, from multiple bus 2 of many places supply separated from one another while by the first guide part 31, in a water It is arranged side by side on horizontal line.First guide part 31 of an embodiment of the present utility model includes the first guide rod (guide bar) 311 Hes First height adjusting part 313.

First guide rod 311 is formed along the horizontal direction at a right angle with the moving direction of bus 2 and extends, and is formed with confession Multiple guiding hole portions 312 that multiple bus 2 can pass through respectively.First height adjusting part 313 is as the height to the first guide rod 311 Spend the part being adjusted, the construction of guide rail (rail) is formed as on the supporting station of supporting the first guide rod 311.First guide rod 311 can enter line slip to adjust its height with the first height adjusting part 313.

Second guide part 32 as will by inside from the bus 2 of the first guide part 31 to scaling powder painting part 10 guiding Part, be arranged at coating box body portion 121 inlet port 122 side.Second guide part 32 and Article 2 guide part 40 (with reference to Fig. 3) On identical horizontal line.Thus, positioned at bus 2 part between the second guide part 32 and Article 2 guide part 40 with shape The state of one-tenth level passes through scaling powder painting part 10 and scaling powder drying section 20.Second guiding of an embodiment of the present utility model Portion 32 includes the second guide rod (guide bar) 321, coming off prevents excellent 323, second height adjusting part 324.

It is formed with multiple guiding groove sections 322 on the top of the second guide rod 321.Guiding groove section 322 is formed as what top opened Bus 2 can be easily incorporated into guiding groove section 322 by open top by shape.Second height adjusting part 324 is as right The part that the height of the second guide rod 321 is adjusted, is formed on the second guide rod 321 with groove (slot) shape.Second guide rod 321 can To adjust its height with the second height adjusting part 324 sliding.

Come off the top preventing rod 323 to be incorporated into the second guide rod 321, to prevent bus 2 from the opening of groove portion 322 Top comes off.Come off and prevent rod 323 to have extend in the horizontal direction bar-shaped, in the way of being hung on multiple guiding groove sections 322 In conjunction with thus preventing the multiple bus 2 being introduced to each guiding groove section 322 from moving up together.

If Article 2 guide part 40 can be to be arranged at the mobile route of the bus 2 discharged from scaling powder drying section 20 On state, as described above by the movement of bus 2 to horizontal direction guiding, then be not limited to specifically construct and shape Shape, and identical construction can be suitable for the first guide part 31 or the second guide part 32, therefore description is omitted.

According to the solder coater on electric with lap device of the present utility model configured as described above, bus 2 according to Secondary by scaling powder painting part 10 with scaling powder drying section 20, enable to scaling powder coating and drying be continuous throughout whole length Realize, and to after bus 2 coating scaling powder, before completing to be dried, any external force do not acted on to bus 2, So as to be evenly coated with scaling powder to the whole surface of bus 2, the scaling powder being prevented from being coated on bus 2 is wiped Fall.

It will be appreciated that although this utility model embodiment shown referring to the drawings is illustrated, this is example Property, the personnel in this technology art with usual knowledge can carry out various deformation and other equivalent enforcements according to this Example.Thus, technical protection scope of the present utility model should be determined by claims.

Claims (14)

1. a kind of solder coater on electric of lap device is it is characterised in that include：

Scaling powder painting part, covers scaling powder to conductive bar painting；And

Scaling powder drying section, is configured to allow for continuing through by the described bus of described scaling powder painting part, and to being coated on The scaling powder of described bus is dried.

2. lap device according to claim 1 solder coater on electric it is characterised in that

Described scaling powder painting part includes：

Scaling powder ejection section, sprays scaling powder to described bus；And

Scaling powder recoverer, reclaims the remaining scaling powder being not coated with being overlying on described bus after the injection of described scaling powder ejection section.

3. lap device according to claim 2 solder coater on electric it is characterised in that

Described scaling powder ejection section includes：

Coating housing, internally forms the coating spatial portion passing through for described bus；And

Scaling powder injection apparatus, to the described bus injection scaling powder passing through described coating spatial portion.

4. lap device according to claim 3 solder coater on electric it is characterised in that

Described coating housing includes：

Coating box body portion, is formed with for the inlet port of described bus entrance and leads for use by described in described coating spatial portion The outlet that electric bar is discharged, and in bottom, described scaling powder recoverer is connected with mode of communicating；And

Lid portion, is configured in the way of covering the top of opening of described coating box body portion, and is provided with described scaling powder injection Device.

5. the lap device according to claim 3 or 4 solder coater on electric it is characterised in that

Described scaling powder ejection section also includes lowering or hoisting gear, and described lowering or hoisting gear lifts to described scaling powder injection apparatus.

6. lap device according to claim 2 solder coater on electric it is characterised in that

Described scaling powder recoverer includes：

Scaling powder catcher, is arranged at the bottom of described scaling powder ejection section, and collects the remnants being not coated with being overlying on described bus Scaling powder；

Reclaim scaling powder tank, the scaling powder that storage is discharged from described scaling powder catcher；And

Circulation supply equipment, to the scaling powder of the described inside reclaiming scaling powder tank of described scaling powder ejection section supply.

7. lap device according to claim 2 solder coater on electric it is characterised in that

Described scaling powder painting part also includes coating control unit, and described coating control unit controls described scaling powder ejection section or described The work of scaling powder recoverer, when described bus is mobile, sprays scaling powder, when bus does not move, does not spray and help weldering Agent.

8. lap device according to claim 1 solder coater on electric it is characterised in that

Described scaling powder drying section includes：

Housing is dried, is internally formed with the dry place portion passing through for described bus；And

Flowing forms device, in the described air-flow being internally formed design temperature that housing is dried.

9. lap device according to claim 8 solder coater on electric it is characterised in that

The described housing that is dried includes：

Box body portion is dried, is formed with and inlet port is dried and outlet is dried, the described inlet port that is dried supplies described bus to enter, institute State described bus discharge outlet being dried for use by described dry place portion；And

Vortex forming portion, be formed in the way of inwardly projecting described box body portion is dried so that dry place portion formed vortex.

10. lap device according to claim 9 solder coater on electric it is characterised in that

Described flowing forms device and includes：

Warm-air supply device, is set to connect with the described sidepiece that housing is dried, and supplies setting to described dry place portion The air of temperature；And

Hot blast displacer, is set to connect with described the other side that housing is dried, and discharges described dry place to outside Air in portion.

The solder coater on electric of 11. lap devices according to claim 8 it is characterised in that

Described scaling powder drying section also includes heat-insulated safety guard, and described heat-insulated safety guard is arranged at the described outside that housing is dried, And and described formation air layer is dried between housing.

The solder coater on electric of 12. lap devices according to claim 1 it is characterised in that

The solder coater on electric of described lap device also includes first guide part, and described first guide part is arranged at described On the mobile route of bus, and guide described bus to described scaling powder painting part side.

The solder coater on electric of 13. lap devices according to claim 12 it is characterised in that

Described first guide part includes：

First guide part, guides described bus detached with described scaling powder painting part to described scaling powder painting part side；With And

Second guide part, is arranged at described scaling powder painting part, and the institute by described first guide part to horizontal direction guiding State the movement of bus.

The solder coater on electric of 14. lap devices according to claim 12 it is characterised in that

The solder coater on electric of described lap device also includes Article 2 guide part, and described Article 2 guide part is arranged at from institute State on the mobile route of described bus of scaling powder drying section discharge, and to horizontal direction together with described first guide part Guide the movement of described bus.