CN209484999U - Light wave drier is recycled in a kind of - Google Patents

Abstract

The utility model discloses light wave drier is recycled in one kind, pass through the circulation wind blower structure in the top of drying structure is arranged, after the heat extraction on drying structure top will be located at by interior circulation wind blower structure, product to be dried is blowed to directly down by interior circulation air hose, so that the heat positioned at drying structure top is directly acted on product to be dried, greatlys improve drying efficiency；By the way that multiple light wave drying structures are arranged in pipeline superstructure, it is removably seamlessly connected between two neighboring light wave drying structure, it not only can be set according to actual needs the dry trip of product to be dried, and it is seamlessly connected between adjacent light wave drying structure, heat realizes circulation in multiple light wave drying structures, guarantees the efficient utilization rate of heat；The structure setting of circulation light wave drier is reasonable in entire, meets requirement.

Description

Light wave drier is recycled in a kind of

Technical field

The utility model relates to ceramic drying equipments, more particularly to a kind of interior circulation light wave drier.

Background technique

Light wave drier is the product (such as ceramics) for being dried to needs is dried, wherein optical wave heating Pipe issues light wave and heat to needing dry product to be dried, and dry product is needed to be driven by pipeline in optical wave heating Conveying drying is carried out below pipe.But because optical wave heating pipe is positioned at the top for needing dry products, optical wave heating pipe It is to cause to reach the heat for needing dry products positioned at the top for needing dry products that the light and heat amount of sending, which has comparison a part of, Amount is insufficient, influences the drying effect for needing dry products, is not able to satisfy requirement.

Therefore, the existing technology needs to be improved and developed.

Summary of the invention

The purpose of this utility model is to provide light wave drier is recycled in one kind, it is intended to solve optical wave heating pipe and be located at need Above dry products, lead to the problem of reaching the shortage of heat for needing dry products, influencing drying effect.

The technical solution of the utility model is as follows: light wave drier is recycled in a kind of, wherein include:

For conveying the conveying cable architecture of product to be dried；

For treat dry products carry out light wave drying process drying structure, the drying structure include it is multiple for pair The withering optical wave heating pipe of product to be dried；Inner circulation structure, the interior circulation knot are provided on drying structure Structure includes circulating fan and circulation air hose, and circulating fan connects with circulation air hose, connects inside the circulating fan and drying structure It is logical, it is connected to inside circulation air hose and drying structure；

The drying structure is located at the top of conveying cable architecture.

The interior circulation light wave drier, wherein further include waste heat pipeline and waste heat fan, the waste heat fan with it is remaining Hot air outlet connection, waste heat fan are connect with waste heat pipeline one end, and the waste heat pipeline other end is connected to inside drying structure.

The interior circulation light wave drier, wherein the drying structure setting is multiple, connects between multiple drying structures It connects, is removably seamlessly connected between two neighboring drying structure；The multiple drying structure is respectively positioned on conveying cable architecture Top.

The interior circulation light wave drier, wherein further include being passed for incuding the temperature of optical wave heating pipe heating temperature Sensor controls the output power of optical wave heating pipe by the optical wave heating pipe heating temperature of temperature sensor senses.

The interior circulation light wave drier, wherein it further include the timer for calculating the optical wave heating pipe heating-up time, The timer is connect with optical wave heating pipe.

The interior circulation light wave drier, wherein have orienting reflex in the top coating of optical wave heating tube outer surface Inorganic coating.

The interior circulation light wave drier, wherein further include the cover board positioned at the top of optical wave heating pipe, in cover board Lower surface is provided with the specular layer that product to be dried is emitted directly toward for reflecting light and heat.

The interior circulation light wave drier, wherein the optical wave heating pipe ties up Weaving type banj using nano-sized carbon pricker, The nano-sized carbon pricker dimension Weaving type banj is made of pure carbon nano-fiber black matrix material.

The interior circulation light wave drier, wherein it is provided with access copper bar on optical wave heating pipe and picks out copper bar, institute It states access copper bar and picks out the end that the same side of optical wave heating pipe is arranged in copper bar.

The interior circulation light wave drier, wherein the side of fluorescent tube installation frame is provided with shield, the protection Cover covers the copper bar of optical wave heating tube end.

The utility model has the beneficial effects that the utility model recycles light wave drier by providing in one kind, by dry Interior circulation wind blower structure is arranged in the top of constipation structure, is extracted out by the heat that interior circulation wind blower structure will be located at drying structure top Afterwards, product to be dried is blowed to directly down by interior circulation air hose 412, directly act on the heat positioned at drying structure top Product to be dried, greatlys improve drying efficiency；By being arranged multiple light wave drying structures in pipeline superstructure, adjacent two It is removably seamlessly connected between a light wave drying structure, not only can be set according to actual needs the drying row of product to be dried Journey, and be seamlessly connected between adjacent light wave drying structure, heat realizes circulation in multiple light wave drying structures, guarantees heat Efficient utilization rate；The structure setting of circulation light wave drier is reasonable in entire, meets requirement.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of interior circulation light wave drier in the utility model.

Fig. 2 is the structural schematic diagram that cable architecture and drying structure are conveyed in the utility model.

Fig. 3 is the light wave flash dryer structural schematic diagram of another angle in the utility model.

Fig. 4 is the bottom view of light wave flash dryer in the utility model.

Fig. 5 is the side view of light wave flash dryer in the utility model.

Specific embodiment

To keep the purpose of this utility model, technical solution and advantage clearer, clear, develop simultaneously implementation referring to the drawings The utility model is further described in example.

As shown in Figures 1 to 5, a kind of interior circulation light wave drier, comprising:

The bracket for supporting total, is provided with Working gantry on bracket；

For conveying the conveying cable architecture of product to be dried, the pipeline structure setting is on Working gantry；

The drying structure of light wave drying process is carried out for treating dry products, the drying structure is arranged in Working gantry On；Inner circulation structure is provided on drying structure, the inner circulation structure includes circulating fan 411 and circulation air hose 412, is followed Ring blower 411 is connected with air hose 412 is recycled, and is connected to inside the circulating fan 411 and drying structure, is recycled air hose 412 and is done Dry inside configuration connection；

The drying structure is located at the top of conveying cable architecture.

By 411 structure of circulating fan in the top of drying structure is arranged, will be located at by interior 411 structure of circulating fan After the heat extraction on drying structure top, product to be dried is blowed to directly down by interior circulation air hose 412, makes to be located at dry knot The heat on structure top directly acts on product to be dried, greatlys improve drying efficiency

Specifically, the bracket includes two vertical stand, and Working gantry is arranged in two vertical stand, and Working gantry includes Delivery end and discharging delivery end are fed, the lower section of the charging delivery end of Working gantry is arranged in one of vertical stand, another The lower section of the discharging delivery end of Working gantry is arranged in vertical stand；The vertical stand includes that first level strut 101, first is vertical Strut 102 and the second vertical pole 103, described 101 one end of first level strut are connect with the bottom end of the first vertical pole 102, The top of first vertical pole 102 is connected to the bottom of Working gantry, 101 other end of first level strut and the second vertical pole 103 bottom end connection, the bottom end top of the second vertical pole 103 is connected to the bottom of Working gantry, the first level strut 101, vertical rectangular frame structure is collectively formed in the first vertical pole 102 and the second vertical pole 103 and Working gantry, full While sufficient support strength requires, as make entire support construction succinct as possible, reduces the weight of circulation light wave drier in entire.

Further, the bottom of first level strut 101 is provided at least one stabilizer blade 104 for being used to support bracket, By the way that stabilizer blade 104 is arranged in the bottom of bracket, avoiding bracket from directly touching the ground causes to wear, and extend entire bracket uses the longevity Life.

Preferably, in the setting of the bottom of each first level strut 101 there are two stabilizer blade 104, the stabilizer blade 104 is located at the The bottom at one horizontal strut, 101 both ends.

Specifically, the Working gantry includes first level connecting plate 111, first the 112, second horizontal company of vertical center web Fishplate bar 113 and the second vertical center web, the first level connecting plate 111, the first vertical center web 112, the second horizontal connection Plate 113 and the second vertical center web are sequentially connected end to end in turn, and form horizontal rectangular frame structure；The conveying cable architecture and drying Structure is arranged in rectangular frame structure.

Specifically, in order to avoid the damage of product to be dried conveyed in conveying cable architecture is directly fallen from conveying cable architecture It falls, bearing plate 121, the part position of pipeline structural bearing product to be dried is provided between conveying cable architecture and Working gantry In the top of bearing plate 121, bearing plate 121 is located at the top of Working gantry；In this way, when product to be dried damages during transportation It is bad, it can directly be fallen on bearing plate 121 from conveying cable architecture, product to be dried is avoided directly to fall to ground, it is convenient Cleaning, and the setting of bearing plate 121 is also beneficial to improve the bearing capacity of conveying cable architecture.

Further, in the upper surface of bearing plate 121, (upper surface, that is, bearing plate 121 of the bearing plate 121 is close to conveying The one side of cable architecture) it is provided with liner plate, the upper liner plate is insulation board layer, plays insulation effect.

Specifically, the conveying cable architecture can be realized using different structures according to actual needs:

Embodiment 1

The conveying cable architecture includes active wheel construction, driven wheel structure, connection active wheel construction and driven wheel structure Conveyor belt；The driving wheel structure is located at the conveying feed end of Working gantry, including active main shaft 211 and drive pulley 212, first mounting base is respectively set in the conveying feed end of first level connecting plate 111 and the second horizontal connecting plate 113, The both ends of the active main shaft 211 pass through bearing block respectively and are mounted in two the first mounting bases, and 212 sets of drive pulley in master It is rotated together on dynamic main shaft 211 with active main shaft 211；The driven wheel structure is located at the conveying discharge end of Working gantry, including Slave spindle 214 and driven pulley 215, in the conveying discharge end of first level connecting plate 111 and the second horizontal connecting plate 113 Second mounting base is respectively set, the both ends of the slave spindle 214 pass through bearing block respectively and are mounted on two second installations On seat, 215 sets of driven pulley are rotated together on slave spindle 214 with slave spindle 214；The conveyor belt is wound on actively Annular conveying is formed on belt pulley 212 and driven pulley 215, the active main shaft 211 is connect with driving device (such as motor)； Product to be dried, which is placed in conveyor belt, realizes conveying；The part that the conveyor belt is contacted with product to be dried, which is located at, accepts The top of plate 121.

Further, in order to meet the conveying of product to be dried, the setting of drive pulley 212 at least two is driven Belt pulley 215 and the quantity of conveyor belt setting are consistent with the quantity that drive pulley 212 is arranged；The drive pulley 212 Uniform intervals, which are covered, to be rotated together on active main shaft 211 with active main shaft 211, and 215 uniform intervals of driven pulley are covered driven Rotated together on main shaft 214 with slave spindle 214, each conveyor belt is corresponding be wound on a drive pulley 212 and one from Annular conveying is formed on dynamic belt pulley 215.

Further, because the size of different products to be dried is different, in order to adjust pipeline according to actual needs The distance between structure and drying structure, the conveying cable architecture further include the first DOCK LEVELER 216 and the second height adjustment Plate, first DOCK LEVELER 216 and the second DOCK LEVELER are parallel to each other with active main shaft 211, adjust in the first height The both ends of section plate 216 are respectively arranged with one and adjust through-hole through the first of the first DOCK LEVELER 216, in the second height adjustment The both ends of plate are respectively arranged with one and adjust through-hole through the second of the second DOCK LEVELER, in 111 He of first level connecting plate First lifting guide pillar 217 is respectively set in the conveying feed end of second horizontal connecting plate 113, in first level connecting plate 111 Second lifting guide pillar is respectively set with the conveying discharge end of the second horizontal connecting plate 113, one of them first adjusting through-hole Wherein on first lifting guide pillar 217, another the first adjusting through-hole covers on another the first lifting guide pillar 217 set, One of them second adjusts through-hole set wherein on second lifting guide pillar, another the second adjusting through-hole cover another the On two lifting guide pillars；It is provided with the first bearing groove 218 on the first DOCK LEVELER 216, is arranged on the second DOCK LEVELER There is the second bearing groove, the both ends of conveyor belt support slot 213 are stuck on the first bearing groove 218 and the second bearing groove, conveyor belt The part contacted with product to be dried is stuck in conveyor belt support slot 213；Cable architecture and drying structure are conveyed when needing to adjust The distance between when, move up and down the first DOCK LEVELER 216 along the first lifting guide pillar 217, make the second DOCK LEVELER edge Second lifting guide pillar moves up and down, so that the height at the both ends for the part that conveyor belt is contacted with product to be dried is adjusted, to adjust Section conveying the distance between cable architecture and drying structure, after distance is adjusted, by fixture nut by the first DOCK LEVELER 216 are fixed on the first lifting guide pillar 217, and the second DOCK LEVELER is fixed on the second lifting guide pillar by fixture nut.

Further, the horizontal position for adjusting the part that conveyor belt is contacted with product to be dried for convenience, first First level regulating tank 219 is provided on DOCK LEVELER 216, first bearing groove 218 is stuck in first level regulating tank 219 On be moved forward and backward along first level regulating tank 219, be provided with the second Level tune slot on the second DOCK LEVELER, described second Bearing groove is stuck on the second Level tune slot to be moved forward and backward along the second Level tune slot, will by fixture nut after adjusting First bearing groove 218 is fixed on first level regulating tank 219, and the second bearing groove is fixed on the second level by fixture nut On regulating tank.

Embodiment 2

The conveying cable architecture includes drive sprocket structure, driven sprocket structure, connection drive sprocket structure and driven chain The conveyor chain (being not drawn into figure) of wheel construction；The drive sprocket structure is located at the conveying feed end of Working gantry, including master Movable sprocket main shaft and drive sprocket are set respectively in the conveying feed end of first level connecting plate 111 and the second horizontal connecting plate 113 A third mounting base is set, the both ends of the drive sprocket main shaft pass through bearing block respectively and are mounted in two third mounting bases, Drive chain wheel case rotates together on drive sprocket main shaft with drive sprocket main shaft；The driven sprocket structure is located at Working gantry Conveying discharge end, including driven sprocket main shaft and driven sprocket, in first level connecting plate 111 and the second horizontal connecting plate The 4th mounting base is respectively set in 113 conveying discharge end, and the both ends of the driven sprocket main shaft are pacified by bearing block respectively In two the 4th mounting bases, driven chain wheel case is rotated together on driven sprocket main shaft with driven sprocket main shaft；It is described defeated It send chain to be wound on drive sprocket and driven sprocket and forms annular conveying, the drive sprocket main shaft and driving device (such as motor) Connection；Product to be dried, which is placed on conveyor chain, realizes conveying；The part position that the conveyor chain is contacted with product to be dried In the top of bearing plate 121.

Further, in order to meet the conveying of product to be dried, the drive sprocket setting at least two, driven sprocket and The quantity of conveyor chain setting is consistent with the quantity that drive sprocket is arranged；The drive sprocket uniform intervals are covered in drive sprocket master It is rotated together on axis with drive sprocket main shaft, driven sprocket uniform intervals cover on driven sprocket main shaft with driven sprocket main shaft one Rotation is played, corresponding be wound on a drive sprocket and a driven sprocket of each conveyor chain forms annular conveying.

Further, because the size of different products to be dried is different, in order to adjust pipeline according to actual needs The distance between structure and drying structure, the conveying cable architecture further include the first DOCK LEVELER 216 and the second height adjustment Plate, first DOCK LEVELER 216 and the second DOCK LEVELER are parallel to each other with drive sprocket main shaft, adjust in the first height The both ends of section plate 216 are respectively arranged with one and adjust through-hole through the first of the first DOCK LEVELER 216, in the second height adjustment The both ends of plate are respectively arranged with one and adjust through-hole through the second of the second DOCK LEVELER, in 111 He of first level connecting plate First lifting guide pillar 217 is respectively set in the conveying feed end of second horizontal connecting plate 113, in first level connecting plate 111 Second lifting guide pillar is respectively set with the conveying discharge end of the second horizontal connecting plate 113, one of them first adjusting through-hole Wherein on first lifting guide pillar 217, another the first adjusting through-hole covers on another the first lifting guide pillar 217 set, One of them second adjusts through-hole set wherein on second lifting guide pillar, another the second adjusting through-hole cover another the On two lifting guide pillars；It is provided with the first bearing groove 218 on the first DOCK LEVELER 216, is arranged on the second DOCK LEVELER There is the second bearing groove, the both ends of conveyor chain support slot 213 are stuck on the first bearing groove 218 and the second bearing groove, conveyor chain The part contacted with product to be dried is stuck in conveyor chain support slot 213；Cable architecture and drying structure are conveyed when needing to adjust The distance between when, move up and down the first DOCK LEVELER 216 along the first lifting guide pillar 217, make the second DOCK LEVELER edge Second lifting guide pillar moves up and down, so that the height at the both ends for the part that conveyor chain is contacted with product to be dried is adjusted, to adjust Section conveying the distance between cable architecture and drying structure, after distance is adjusted, by fixture nut by the first DOCK LEVELER 216 are fixed on the first lifting guide pillar 217, and the second DOCK LEVELER is fixed on the second lifting guide pillar by fixture nut.

Further, the horizontal position for adjusting the part that conveyor chain is contacted with product to be dried for convenience, first First level regulating tank 219 is provided on DOCK LEVELER 216, first bearing groove 218 is stuck in first level regulating tank 219 On be moved forward and backward along first level regulating tank 219, be provided with the second Level tune slot on the second DOCK LEVELER, described second Bearing groove is stuck on the second Level tune slot to be moved forward and backward along the second Level tune slot, will by fixture nut after adjusting First bearing groove 218 is fixed on first level regulating tank 219, and the second bearing groove is fixed on the second level by fixture nut On regulating tank.

Embodiment 3

The conveying cable architecture include the first conveying roller mounting plate being arranged on first level connecting plate 111, setting exist The second conveying roller mounting plate and multiple conveying rollers (being not drawn into figure) on second horizontal connecting plate 113, first conveying roller Mounting plate and first level connecting plate 111 are parallel to each other, and the second conveying roller mounting plate and the second horizontal connecting plate 113 are mutually equal Row, described conveying roller one end are mounted on the first conveying roller mounting plate by bearing, and the conveying roller other end is mounted on by bearing On second conveying roller mounting plate, conveying roller and driving device (such as motor) positioned at the conveying feed end end of conveying cable architecture connect It connects；Product to be dried, which is placed on multiple conveying rollers, realizes conveying；The conveying roller is located at the top of bearing plate 121.

Further, because the size of different products to be dried is different, in order to adjust pipeline according to actual needs The distance between structure and drying structure, the conveying cable architecture further include third height adjustable plate and the 4th DOCK LEVELER, The third height adjustable plate and the 4th DOCK LEVELER are parallel to each other with conveying roller, described first conveying roller mounting plate one end It is connect with third height adjustable plate, the first conveying roller mounting plate other end is connect with the 4th DOCK LEVELER, the second conveying roller peace Loading board one end is connect with third height adjustable plate, and the second conveying roller mounting plate other end is connect with the 4th DOCK LEVELER；? The both ends of three DOCK LEVELERs are respectively arranged with a third through third height adjustable plate and adjust through-hole, adjust in the 4th height The both ends of section plate are respectively arranged with one and adjust through-hole through the 4th of the 4th DOCK LEVELER, in first level connecting plate 111 A third lifting guide pillar is respectively set with the conveying feed end of the second horizontal connecting plate 113, in 111 He of first level connecting plate The 4th lifting guide pillar is respectively set in the conveying discharge end of second horizontal connecting plate 113, and one of third adjusts through-hole set Wherein on a third lifting guide pillar, another third adjusts through-hole and covers on another third lifting guide pillar, one of them 4th, which adjusts through-hole, covers on the 4th lifting guide pillar wherein, another the 4th adjusting through-hole is covered leads in another the 4th lifting On bar；When needing to adjust conveying the distance between cable architecture and drying structure, lead third height adjustable plate along third lifting Bar moves up and down, and moves up and down the 4th DOCK LEVELER along the 4th lifting guide pillar, to adjust conveyor chain and production to be dried The height at the both ends of the part of product contact conveys the distance between cable architecture and drying structure to adjust, after distance is adjusted, Third height adjustable plate is fixed on third lifting guide pillar by fixture nut, by fixture nut by the 4th DOCK LEVELER It is fixed on the 4th lifting guide pillar.

Specifically, the drying structure includes the first fluorescent tube horizontal mounting plate being arranged on first level connecting plate 111 311, the second fluorescent tube horizontal mounting plate 312 on the second horizontal connecting plate 113, the first fluorescent tube vertical mounting plate 313, are set Two fluorescent tube vertical mounting plates 314 and multiple optical wave heating pipes 315, the first fluorescent tube horizontal mounting plate 311, the first fluorescent tube are vertical Mounting plate 313, the second fluorescent tube horizontal mounting plate 312 and the second fluorescent tube vertical mounting plate 314 are sequentially connected end to end in turn, and form installation light The fluorescent tube installation frame of Wave heating pipe 315, one end of the optical wave heating pipe 315 are connected to the first fluorescent tube horizontal mounting plate 311 On, the other end of optical wave heating pipe 315 is connected on the second fluorescent tube horizontal mounting plate 312, and the optical wave heating pipe 315 passes through copper Row's connection power supply.

Further, drying structure is adjusted according to actual needs for convenience the distance between to product to be dried, the One fluorescent tube horizontal mounting plate 311 is provided with the first L shape adjustable plate 316, the first L shape adjustable plate close to one end of conveying charging A 316 wherein straight flange is connect with the first fluorescent tube adjustable plate, is provided with and is run through on another straight flange of the first L shape adjustable plate 316 The 5th adjust through-hole, one end of conveying discharging is provided with the 2nd L shape adjustable plate in the first fluorescent tube horizontal mounting plate 311 317, a wherein straight flange for the 2nd L shape adjustable plate 317 is connect with the first fluorescent tube adjustable plate, in the 2nd L shape adjustable plate 317 It is provided with the perforative 6th on another straight flange and adjusts through-hole, in the second fluorescent tube horizontal mounting plate 312 close to one end of conveying charging It is provided with the 3rd L shape adjustable plate, a wherein straight flange for the 3rd L shape adjustable plate is connect with the second fluorescent tube adjustable plate, in the 3rd L It is provided with the perforative 7th on another straight flange of shape adjustable plate and adjusts through-hole, in the second fluorescent tube horizontal mounting plate 312 close to conveying One end of discharging is provided with the 4th L shape adjustable plate, and a wherein straight flange for the 4th L shape adjustable plate and the second fluorescent tube adjustable plate connect It connects, the perforative 8th is provided on another straight flange of the 4th L shape adjustable plate and adjusts through-hole, in 111 He of first level connecting plate The 5th lifting guide pillar 318 is respectively set in the conveying feed end of second horizontal connecting plate 113, in first level connecting plate 111 The 6th lifting guide pillar is respectively set with the conveying discharge end of the second horizontal connecting plate 113, the 5th adjusts through-hole set wherein On one the 5th lifting guide pillar 318, the 7th adjusting through-hole covers on another the 5th lifting guide pillar 318, and the 6th adjusts through-hole set Wherein on the 6th lifting guide pillar, the 8th adjusting through-hole covers on another the 6th lifting guide pillar；When needs are adjusted to dry When the distance between dry product and drying structure, make the first L shape adjustable plate 316 and the 3rd L shape adjustable plate along the 5th lifting guide pillar 318 move up and down, and move up and down the 2nd L shape adjustable plate 317 and the 4th L shape adjustable plate along the 6th lifting guide pillar, and distance is adjusted After, the first L shape adjustable plate 316 and the 3rd L shape adjustable plate are fixed on the 5th lifting guide pillar 318 by fixture nut, The 2nd L shape adjustable plate 317 and the 4th L shape adjustable plate are fixed on the 6th lifting guide pillar by fixture nut.

Specifically, the quantity that the optical wave heating pipe 315 is arranged is set according to actual needs, and 21 optical wave heatings are such as arranged 315,42 optical wave heating pipes 315 of pipe.Preferably, under the premise of 315 general power of optical wave heating pipe is constant, by increasing light wave The quantity of heating tube 315 reduces heating vacancy, improves light wave efficiency, extend 315 longevity of optical wave heating pipe to increase heating surface (area) (HS Life；Such as, original 21 optical wave heating pipes 315 are changed to 42 optical wave heating pipes 315, the work function of every optical wave heating pipe 315 Rate is changed to 0.51KW by original 1KW, this, under the premise of general power is constant, by the quantity for increasing optical wave heating pipe 315 To increase heating surface (area) (HS, reduces and heat vacancy, raising light wave efficiency；By reducing the work of optical wave heating pipe 315, to extend light 315 service life of Wave heating pipe.

Further, the optical wave heating pipe 315 ties up Weaving type banj using nano-sized carbon pricker, and the nano-sized carbon pricker dimension is compiled It knits type banj to be made of pure carbon nano-fiber black matrix material, pure carbon nano-fiber black matrix material has the rapid, heat stagnation that heats up The advantages that small afterwards, can reach the temperature of setting in tens seconds, thus can shorten drying time, improve production efficiency；It produced Electric conversion efficiency is up to 98% or more in journey, and so as to save 2 ~ 3 times of the energy, heating cost is effectively reduced.

In order to avoid the operating temperature of optical wave heating pipe 315 is excessively high, the service life of optical wave heating pipe 315 is influenced, it is described Drying structure further includes for incuding the temperature sensor of 315 heating temperature of optical wave heating pipe (being not drawn into figure), the temperature Sensor is connect with optical wave heating pipe 315；When temperature sensor senses reach preset value to 315 heating temperature of optical wave heating pipe When, control optical wave heating pipe 315 keeps current operating temperature to work normally, and no longer needs to the work for improving optical wave heating pipe 315 Make temperature, guarantees that optical wave heating pipe 315 works at normal working temperature.

Further, the temperature sensor can use different temperature sensors, such as 4K type thermocouple.

Specifically, the position of the temperature sensor setting is set according to actual needs, as long as can incude optical wave heating 315 heating temperature of pipe, and the normal operation of interior circulation light wave drier is not interfered.

In order to avoid the operating temperature of optical wave heating pipe 315 is excessively high, the service life of optical wave heating pipe 315 is influenced, it is described Drying structure further includes the timer and optical wave heating pipe 315 for calculating the timer of heating-up time (being not drawn into figure) Connection；When optical wave heating pipe 315 starts to start work, timer starts timing, when timing reaches preset time, controls light Wave heating pipe 315 keeps current operating temperature to work normally, and no longer needs to the operating temperature for improving optical wave heating pipe 315, protects Card optical wave heating pipe 315 works at normal working temperature.

Because light wave and thermal energy that optical wave heating pipe 315 issues are dispersion transmittings around, in order to improve optical wave heating The heating efficiency of pipe 315 (is cylindrical fluorescent tube knot because of optical wave heating pipe 315 at the top of 315 outer surface of optical wave heating pipe Structure, after referring to that optical wave heating pipe 315 is mounted in fluorescent tube installation frame at the top of 315 outer surface of optical wave heating pipe, light wave The top half outer surface of heating tube 315) it is coated with the inorganic coating of orienting reflex；In this way, from the upper half of optical wave heating pipe 315 The light wave and thermal energy that partial outer face is launched are emitted directly toward product to be dried after being directed the reflection of inorganic reflective coating, into one Step improves drying efficiency.

Further, electric heating tube, the electric heating tube external power supply are additionally provided on fluorescent tube installation frame；By setting It sets electric heating tube cooperation optical wave heating pipe and treats dry products realization heating, further increase drying effect.

The light wave and thermal energy issued in order to avoid optical wave heating pipe 315 largely spreads and causes to waste in air, described dry Constipation structure further includes the cover board 319 being arranged on fluorescent tube installation frame, and the cover board 319 is located at the top of optical wave heating pipe 315； In this way, being equipped with bearing plate 121 below optical wave heating pipe 315 by the way that cover board 319 is arranged above optical wave heating pipe 315, only staying Conveying feed end and convey discharge end out and carry out the conveying of product to be dried, light wave that optical wave heating pipe 315 can be made to issue and Thermal energy is limited between cover board 319 and bearing plate 121, and the light wave and thermal energy for avoiding optical wave heating pipe 315 from issuing largely are diffused in In air, drying efficiency is effectively improved.

Further, the cover board 319 uses heat-preserving cover plate, and adiabator layer is provided in the heat-preserving cover plate (such as Sponge heat-insulating layer, foam heat-insulation layer)；In this way, insulation effect can be further functioned as, drying efficiency is improved.

Further, in the lower surface of cover board 319, (lower surface of the cover board 319 is that cover board 319 is mounted on fluorescent tube peace After framing up on frame, one side of the cover board 319 close to optical wave heating pipe 315) it is provided with specular layer, the light wave being partially communicated up It is emitted directly toward product to be dried after being specularly reflected layer transmitting with heat, further increases drying efficiency.

Preferably, the specular layer is made of polishing stainless steel material, and the heat resistance of polishing stainless steel is good, and And it can also play the role of emitting light wave and thermal energy.

Cover board 319 is opened for convenience, and 319 side of cover board and the side of fluorescent tube installation frame are hinged, are with pin shaft Rotation center overturns cover board 319, can internal structure be observed or be overhauled, easy to operate simple.

In order to facilitate overturning cover board 319, the another side of cover board 319 is provided with handle 324, handle 324 is held, with pin Axis is that rotation center opens cover board 319.

In order to open back stationary plate 319 in cover board 319, elastic opening is provided on 319 another side of cover board and is buckled, institute One end and 319 another side of cover board for stating cover plate support bar 320 are hinged, and fixed support slot is provided on fluorescent tube installation frame； When not needing to open cover board 319, using hinge joint as rotation center rotating plate support rod 320, make the another of cover plate support bar 320 One end is clasped by elastic opening button, when needing to open cover board 319, using hinge joint as rotation center rotating plate support rod 320, It is inserted into the other end of cover plate support bar 320 in fixed support slot, cover board 319 is realized and is supported.

Further, air outlet and air inlet through entire cover board 319 are provided on cover board 319, at air outlet It is provided with circulating fan 411, circulation air hose 412 is provided between the circulating fan 411 and air inlet；In this way, lid will be located at Heat between plate 319 and bearing plate 121 is recycled after being extracted out by exhaust fan and is blown on product to be dried, is further increased dry Dry efficiency.

Further, in order to facilitate wiring, it is provided with access copper bar on optical wave heating pipe 315 and picks out copper bar, it is described It accesses copper bar and picks out the same end that optical wave heating pipe 315 is arranged in copper bar；In this way, not only facilitating optical wave heating pipe 315 Wiring also facilitates the wiring of circulation light wave drier in entire.

Security risk is caused in order to avoid copper bar is exposed on optical wave heating pipe 315, is arranged in the side of fluorescent tube installation frame There is shield 321, the shield 321 covers the copper bar of 315 end of optical wave heating pipe, and staff is avoided to touch electrification Copper bar, occur safety accident.

Further, in order to avoid optical wave heating pipe 315 in no product to be dried also full power operation always, influence The service life of optical wave heating pipe 315, the interior circulation light wave drier further include the sensor for detecting product to be dried (being not drawn into figure), the sensor are located at the conveying feed end of interior circulation light wave drier, sensor and optical wave heating pipe 315 Connection；When sensor starts to sense that needing dry products delivers into interior circulation light wave drier, optical wave heating pipe is controlled 315 starting work, treat dry products and realize drying；When sensor sensing delivers into interior circulation light less than dry products are needed Wave drier and when continuing preset time, control optical wave heating pipe 315 stops working, and optical wave heating pipe 315 is avoided to expire function always Rate work, is conducive to extend the service life of optical wave heating pipe 315.

Specifically, the position of sensor setting is set according to actual needs, if can incude whether have it is to be dried Product delivers into interior circulation light wave drier, and does not interfere the normal operation of interior circulation light wave drier.

Specifically, the sensor can be realized using multiple sensors, such as proximity sensor, infrared sensor, etc. Deng.

Because ceramic batch, which needs to be put into kiln, to be fired in the production process of product to be dried, exist in kiln A large amount of waste heat is not used appropriately, and circulation light wave drier can get up these UTILIZATION OF VESIDUAL HEAT INs in this, the interior circulation Light wave drier further includes waste heat pipeline and waste heat fan, and the air outlet of the waste heat fan and kiln connects, waste heat fan with The connection of waste heat pipeline one end, the waste heat pipeline other end are connected to inside drying structure, cooperate optical wave heating pipe to treat by waste heat Dry products realize drying, greatly improve drying efficiency.

Specifically, multiple interior circulation light wave driers can be realized into free splicing, to extend to dry according to actual needs The drying process of dry product, the multiple interior circulation light wave drier can directly be stitched together, i.e., multiple independent interior circulations Light wave drier is directly end to end, and the conveying cable architecture that each interior circulation light wave drier is all made of itself is conveyed.

Because directly multiple independent interior circulation light wave driers are directly stitched together end to end, but it is adjacent interior The gap recycled between light wave drier is too big, causes heat spreader serious, influences the drying efficiency of product to be dried, as changing Into scheme, the interior circulation light wave drier includes: the bracket for supporting total, and Working gantry is provided on bracket；With In the conveying cable architecture for conveying product to be dried, the pipeline structure setting is on Working gantry；For treating dry products Multiple drying structures of light wave drying process are carried out, the multiple drying structure is arranged on Working gantry, multiple drying structures Between be connected in series, be removably seamlessly connected between two neighboring drying structure；The multiple drying structure is respectively positioned on conveying The top of cable architecture.

Further, it is removably seamlessly connected between two neighboring drying structure for convenience, it is described two neighboring dry It is removably seamlessly connected together between the fluorescent tube installation frame of constipation structure.

The technical program passes through interior circulating fan 411 by 411 structure of circulating fan in the top of drying structure is arranged After structure will be located at the heat extraction on drying structure top, product to be dried is blowed to directly down by interior circulation air hose 412, is made Heat positioned at drying structure top directly acts on product to be dried, greatlys improve drying efficiency；By in conveying knot Multiple light wave drying structures are set above structure, are removably seamlessly connected between two neighboring light wave drying structure, it not only can be with The dry trip of product to be dried is set according to actual needs, and is seamlessly connected between adjacent light wave drying structure, heat exists Circulation is realized in multiple light wave drying structures, guarantees the efficient utilization rate of heat；The structure of circulation light wave drier is set in entire It sets rationally, meets requirement.

It should be understood that the application of the utility model is not limited to above-mentioned citing, those of ordinary skill in the art are come It says, it can be modified or changed according to the above description, and all these modifications and variations all should belong to the appended power of the utility model The protection scope that benefit requires.

Claims (10)

1. recycling light wave drier in a kind of characterized by comprising

For conveying the conveying cable architecture of product to be dried；

The drying structure of light wave drying process is carried out for treating dry products, the drying structure includes multiple dry for treating The dry withering optical wave heating pipe of product；Inner circulation structure, the inner circulation structure packet are provided on drying structure Circulating fan and circulation air hose are included, circulating fan is connected with circulation air hose, is connected to, is followed inside the circulating fan and drying structure It is connected to inside bostle pipe and drying structure；

The drying structure is located at the top of conveying cable architecture.

2. interior circulation light wave drier according to claim 1, which is characterized in that further include waste heat pipeline and waste heat wind Machine, the waste heat fan are connect with waste heat air outlet, and waste heat fan is connect with waste heat pipeline one end, the connection of the waste heat pipeline other end To drying structure.

3. according to claim 1 or 2 described in any item interior circulation light wave driers, which is characterized in that the drying structure is set It sets multiple, is connected in series between multiple drying structures, is removably seamlessly connected between two neighboring drying structure；It is the multiple Drying structure is respectively positioned on the top of conveying cable architecture.

4. interior circulation light wave drier according to claim 1, which is characterized in that further include for incuding optical wave heating pipe The temperature sensor of heating temperature controls optical wave heating pipe by the optical wave heating pipe heating temperature of temperature sensor senses Output power.

5. interior circulation light wave drier according to claim 1, which is characterized in that further include for calculating optical wave heating pipe The timer of heating-up time, the timer are connect with optical wave heating pipe.

6. interior circulation light wave drier according to claim 1, which is characterized in that at the top of optical wave heating tube outer surface Inorganic coating coated with orienting reflex.

7. interior circulation light wave drier according to claim 1, which is characterized in that further include positioned at the upper of optical wave heating pipe The cover board of side, the mirror-reflection that product to be dried is emitted directly toward for reflecting light and heat is provided in the lower surface of cover board Layer.

8. interior circulation light wave drier according to claim 1, which is characterized in that the optical wave heating pipe uses nano-sized carbon Pricker ties up Weaving type banj, and the nano-sized carbon pricker dimension Weaving type banj is made of pure carbon nano-fiber black matrix material.

9. interior circulation light wave drier according to claim 1, which is characterized in that be provided with access on optical wave heating pipe Copper bar and pick out copper bar, the access copper bar with pick out the end that the same side of optical wave heating pipe is arranged in copper bar.

10. interior circulation light wave drier according to claim 9, which is characterized in that set in the side of fluorescent tube installation frame It is equipped with shield, the shield covers the copper bar of optical wave heating tube end.