CN209049675U - A kind of not viscous paint sintering oven - Google Patents

Abstract

The utility model creation provides a kind of not viscous paint sintering oven, including insulation shell, hot air circulation blower, two material conveying pipelines and synchronized tracking heating mechanism.The not viscous paint sintering oven is opposite to the driving direction of steel mesh conveying belt using the feed drive motor of two material conveying pipelines, the steel mesh conveying belt of each hot wind conveying branches and two sides in synchronized tracking heating mechanism is run simultaneously, two sides hot wind conveying branches on synchronized tracking heating mechanism length direction respectively correspond each curing material on two material conveying pipelines, so that curing material is synchronized tracking heating, the problem of being not in the heating of fixed point interval, it is able to maintain equilibrium temperature continuous heating, additionally, due to be fixed point tracking mode heating, the greater loss of heat is not will cause, reduce heating energy consumption.

Description

A kind of not viscous paint sintering oven

Technical field

The invention is related to a kind of sintering oven, especially a kind of not viscous paint sintering oven.

Background technique

Currently, during sintering oven cannot should not usually be used viscously the painting of paint, but existing high temperature is solid Change furnace and the problem of non-uniform temperature usually occur, and since furnace structure is larger, makes heat by the way of pinpointing heat air delivery The utilization rate of wind is not high, causes existing sintering oven heat utilization ratio not high, and lead to power consumption in heat dissemination process It is larger.Therefore, it is necessary to design a kind of not viscous paint sintering oven, it can be ensured that be heated evenly and can make full use of heat Amount, reduces the energy consumption of sintering oven.

Summary of the invention

It is an object of the present invention to a kind of not viscous paint sintering ovens, it can be ensured that is heated evenly and can fill Divide and utilize heat, reduces the energy consumption of sintering oven.

In order to realize the purpose of foregoing invention creation, the present invention provides a kind of not viscous paint sintering ovens, including heat preservation Shell, hot air circulation blower, two material conveying pipelines and synchronized tracking heating mechanism；Insulation shell includes furnace body inner casing Body, insulating layer of furnace body and furnace body outer housing；Furnace body inner housing is arranged in furnace body outer housing, and insulating layer of furnace body is filled in furnace Between internal shell and furnace body outer housing；Two material conveying pipelines are arranged in parallel in furnace body inner housing；Synchronized tracking adds Heat engine structure is set in furnace body inner housing and is located between two material conveying pipelines, and sets in synchronized tracking heating mechanism It is equipped with the hot-blast outlet with the synchronous operation of material conveying pipeline；Hot air circulation blower is set to the top of furnace body outer housing, heat The air inlet of wind circulating fan is protruded into furnace body inner housing by intake stack, and the air outlet of hot air circulation blower passes through discharge pipe Road is connected to the air inlet of synchronized tracking heating mechanism；Charging window and discharging window are equipped on insulation shell side；Charging Window is close to the feeding end of material conveying pipeline, discharging end of the discharging window close to material conveying pipeline.

Further, synchronized tracking heating mechanism includes upper bar shaped housing, lower bar shaped housing, high temperature conveyer belt, synchronous drive Dynamic motor and each hot wind conveying branches；Upper bar shaped housing and lower bar shaped housing are parallel with material conveying pipeline, and The both ends of upper bar shaped housing and lower bar shaped housing are disposed as semicircular swiveling head；Above and below upper bar shaped housing and lower bar shaped housing It is correspondingly arranged, and is equipped with the upper enclosing being turned over downwards at the edge of upper bar shaped housing, be equipped at the edge of lower bar shaped housing upward The lower enclosing of fold；Upper enclosing is correspondingly arranged up and down with lower enclosing, and the upper side along the downside of upper enclosing and lower enclosing is set Restraining position ring block slot；High temperature conveyer belt, which surrounds, to be arranged between upper enclosing and lower enclosing, and the lower edges difference of high temperature conveyer belt It is embedded in the limited ring groove of upper and lower sides；Support is vertically provided between upper bar shaped housing and the relative inner face of lower bar shaped housing Column；The support frame being supported on furnace body inner housing is equipped on the downside of lower bar shaped housing；The lower end of wind pipe with it is upper Air inlet on bar shaped housing is connected to each other；A circle drive chain is provided with along the medial surface of high temperature conveyer belt；In upper bar shaped cover A rooted tooth wheel shaft is rotatably installed between shell and the swiveling head at lower bar shaped housing both ends, the fixed peace on two rooted tooth wheel shafts Equipped with a driving gear；Two driving gears are meshed with drive chain；Synchronous driving motor is mounted on insulation shell Outer bottom, and the synchronism output axis of synchronous driving motor protrudes into insulation shell through lower bar shaped housing and a wherein rooted tooth wheel shaft It is connected to each other；Each hot wind conveying branches interval is mounted on high temperature conveyer belt, and the installed position on high temperature conveyer belt is set There is ventilation hole；Hot wind conveying branches extend at material conveying pipeline, and the running speed of high temperature conveyer belt and material convey The conveying speed of assembly line is equal.

Further, hot wind conveying branches include be mounted block, main hot air pipe, vertical air supply tube, top set's hot air pipe, Inferior division hot air pipe and two cone-shaped hoods；Block is mounted to be fixedly mounted on high temperature conveyer belt, and on block is mounted Equipped with ventilation circular hole corresponding with ventilation hole；The upper side edge of block and the downside clearance fit of upper enclosing, limit is mounted The upper side clearance fit of the lower side of mounting blocks and lower enclosing；One end of main hot air pipe is vertically fixedly mounted on limit installation block On, and be connected to each other with ventilation circular hole, the lower end vertical butt joint of the other end of main hot air pipe and vertical air supply tube, and in vertical butt joint Place is equipped with triangle stiffener plate；Top set's hot air pipe and inferior division hot air pipe are installed in parallel in the upper and lower ends of vertical air supply tube On, and be connected with vertical air supply tube；Two cone-shaped hoods are separately mounted to the end of top set's hot air pipe and inferior division hot air pipe It brings out on air port；The horn cover mouth of two cone-shaped hoods is opposite up and down.

Further, interlayer cavity, and the setting position of interlayer cavity and heat are arranged at intervals with inside high temperature conveyer belt The installation site of wind conveying branches is staggered；Heat insulation foam layer has been filled in interlayer cavity；It is perpendicular at each interlayer cavity To being provided with support rod, and the upper and lower ends of support rod are respectively arranged with ball mounting base；In upper and lower two ball mounting bases Equal roller is equipped with ball, and the edge outer support of the spherical calotte protrusion high temperature conveyer belt of ball is in the slot bottom of limited ring groove In portion.

Further, material conveying pipeline include feed drive motor, two drive shafts, two conveyor chains and Each steel mesh block；Feed drive motor is fixedly mounted on the outside of insulation shell；Two drive shafts pass through two shaft installations Seat is mounted in furnace body inner housing, and drive shaft is rotatably mounted in shaft mounting base；The output shaft of feed drive motor It is connected to each other with drive shaft；A conveyance gear is equipped on the both ends of drive shaft；Two conveyor chains surround respectively It is arranged in two conveyance gears of corresponding position in two drive shafts；Each steel mesh block is arranged in order at two conveyings Steel mesh conveying belt is constituted between chain；The conveying directions of two steel mesh conveying belts on the contrary, and conveying speed it is equal；Each steel mesh block Four apex angles be fixedly mounted on the conveyor chain of corresponding position by apex angle connection sheet.

Further, it is equipped with both ends between two neighboring steel mesh block and is respectively and fixedly installed to the branch on two conveyor chains Support pull rod；Intermediate connection sheet is equipped in the adjacent marginal center of steel mesh block and tie-strut；Intermediate connection sheet is fixedly mounted on branch It supports on pull rod；Carry out being equipped with one in the middle part of each steel mesh block for carrying the circular recess of curing material.

Further, hot air circulation blower includes blower inner housing, blower thermal insulation layer, blower housing body, flabellum driving electricity Mechanical, electrical hot pin, vertical transmission shaft, fan shaft and flabellum；Blower inner housing is mounted on the inside of blower housing body, blower every Thermosphere is filled between blower housing body and blower inner housing；In the top outer and blower housing body of blower inner housing Electrode installation cavity is provided between inside top；Electrical bar array is mounted on inside blower inner housing, and the electrode of electrical bar It protrudes into electrode installation cavity for being electrically connected with external power supply；Blower tray is equipped on the interior bottom of blower inner housing；Blower Shaft is rotatably mounted on blower tray, and driven bevel pinion is equipped on fan shaft；Flabellum is fixedly mounted on blower In shaft；Vertical transmission shaft is vertically rotatably mounted in blower inner housing, and be equipped on the lower end of vertical transmission shaft with The driving bevel gear that driven bevel pinion is meshed；Flabellum driving motor is fixedly mounted on the top outer of blower housing body, and fans The output shaft of leaf driving motor and the upper end of vertical transmission shaft are connected to each other；Intake stack and wind pipe are respectively communicated with setting and exist At the air inlet and air outlet of hot air circulation blower.

Further, taper confluence cover is equipped at the lower nozzle in furnace body inner housing and positioned at intake stack；In blower In inner housing and it is located at air inlet equipped with the air inlet arc deflector to water conservancy diversion at air outlet；In blower inner housing and it is located at The outlet air arc deflector to water conservancy diversion at air outlet is equipped at air outlet；It is provided in blower inner housing and positioned at air inlet Temperature sensor.

Further, feed ramp is hingedly installed on the lower side of charging window, and feed ramp is by charging window It extends in insulation shell outside；Discharging slide plate is hingedly installed on the lower side of discharging window, and the slide plate that discharges is by discharging window It is extended to outside insulation shell in mouthful；Between the downside of feed ramp and the lateral surface of insulation shell and under discharging slide plate Height adjustment mechanism is provided between side and the lateral surface of insulation shell；Height adjustment mechanism by upper casing, adjusting screw rod, Setting of casing and handlebar stem are constituted；Upper casing is hingedly mounted on the downside of slide plate, hinged under cased lower end casing Seat is hingedly mounted on the lateral surface of insulation shell；The upper end of adjusting screw rod is inserted on the lower end of casing；Adjusting screw rod Lower thread screws on the nozzle internal screw thread of setting of casing upper end；Handlebar stem is vertically fixedly mounted on adjusting screw rod；It is feeding Feed inlet baffle is hingedly installed on the upper side edge of window, is sealed on feed inlet baffle suspension type on charging window；It is discharging Discharge port baffle is hingedly installed on the upper side edge of window, is sealed on discharge port baffle suspension type on discharging window.

Further, conveyer belt mechanism is equipped in the side of insulation shell and at discharging window；Conveyer belt mechanism packet Include conveyor belt support, conveyor motor, drive belt and conveyer belt；Multiple conveyings are rotatably installed on conveyor belt support Roller, conveyer belt is around setting on each conveying roller；Conveyor motor is mounted on conveyor belt support, and is driven by drive belt Move the rotation of at least one conveying roller；Discharging slide plate extends to the top of conveyer belt, and is arranged at intervals with gear at the edge of conveyer belt Expect bar；It is equipped with support footing at the bottom both ends of insulation shell, heat exchange jacket is equipped in the middle part of the bottom of insulation shell；It is exchanging heat One end of collet is equipped with water inlet, and the other end is equipped with water outlet.

The beneficial effect of the invention is: the feed drive motor of two material conveying pipelines is to steel mesh conveying belt Driving direction on the contrary, each hot wind conveying branches in synchronized tracking heating mechanism fortune synchronous with the steel mesh conveying belt of two sides It goes, the two sides hot wind conveying branches on synchronized tracking heating mechanism length direction respectively correspond on two material conveying pipelines Each curing material, so that curing material is synchronized tracking heating, it is not in the problem of fixed point interval is heated, it can Equilibrium temperature continuous heating is kept, additionally, due to being fixed point tracking mode heating, the greater loss of heat is not will cause, reduces heating Energy consumption.

Detailed description of the invention

Fig. 1 is the whole interior structural schematic diagram of the invention；

Fig. 2 is two material conveying pipeline end construction schematic diagrames of the invention；

Fig. 3 is the steel mesh conveying belt structural schematic diagram of the invention；

Fig. 4 is the synchronized tracking heating mechanism overlooking structure diagram of the invention；

Fig. 5 is schematic cross-sectional view at the high temperature conveyer belt upper interlayer cavity of the invention；

Fig. 6 is the conveyer belt mechanism structural schematic diagram of the invention.

Specific embodiment

As shown in Figs. 1-5, it includes: that insulation shell, hot wind follow that the invention, which provides a kind of not viscous paint sintering oven, Ring blower, two material conveying pipelines and synchronized tracking heating mechanism；Insulation shell includes furnace body inner housing 1, furnace body guarantor Warm layer 2 and furnace body outer housing 3；Furnace body inner housing 1 is arranged in furnace body outer housing 3, and insulating layer of furnace body 2 is filled in furnace body Between inner housing 1 and furnace body outer housing 3；Two material conveying pipelines are arranged in parallel in furnace body inner housing 1；Synchronized tracking Heating mechanism is set in furnace body inner housing 1 and is located between two material conveying pipelines, and in synchronized tracking heating mechanism On be provided with material conveying pipeline synchronous operation hot-blast outlet；Hot air circulation blower is set to the top of furnace body outer housing 3 The air inlet in portion, hot air circulation blower is protruded into furnace body inner housing 1 by intake stack 18, and the air outlet of hot air circulation blower is logical Cross the air inlet that wind pipe 19 is connected to synchronized tracking heating mechanism；It is equipped with charging window 21 on insulation shell side and goes out Expect window 22；Window 21 is fed close to the feeding end of material conveying pipeline, the window 22 that discharges is close to material conveying pipeline Discharging end.

As shown in Fig. 1,2 and 4, synchronized tracking heating mechanism includes upper bar shaped housing 44, lower bar shaped housing 41, high temperature conveying Band 42, synchronous driving motor 32 and each hot wind conveying branches；Upper bar shaped housing 44 and lower bar shaped housing 41 are defeated with material Send assembly line parallel, and the both ends of upper bar shaped housing 44 and lower bar shaped housing 41 are disposed as semicircular swiveling head；Upper item Shape housing 44 and lower about 41 bar shaped housing are correspondingly arranged, and the edge of upper bar shaped housing 44 be equipped be turned over downwards on enclose Gear is equipped with the lower enclosing flipped up at the edge of lower bar shaped housing 41；It can be conveyed with high temperature using upper enclosing and lower enclosing About 42 side edge of band is docked, and realizes the enclosing of hot wind；Upper enclosing is correspondingly arranged up and down with lower enclosing, and along upper enclosing The upper side of downside and lower enclosing is equipped with limited ring groove 52；High temperature conveyer belt 42 around setting upper enclosing and lower enclosing it Between, and the lower edges of high temperature conveyer belt 42 are respectively embedded into the limited ring groove 52 of upper and lower sides, on the one hand using limited ring groove 52 The running path of high temperature conveyer belt 42 can be limited, on the other hand again can side up and down to high temperature conveyer belt 42 into Row clamping, prevents hot wind from leaking；Branch is vertically provided between upper bar shaped housing 44 and the relative inner face of lower bar shaped housing 41 Support column 56；The support frame 40 being supported on furnace body inner housing 1 is equipped on the downside of lower bar shaped housing 41；Wind pipe 19 Lower end be connected to each other with the air inlet on upper bar shaped housing 44；A circle drive chain is provided with along the medial surface of high temperature conveyer belt 42 Item 58；A rooted tooth wheel shaft is rotatably installed between upper bar shaped housing 44 and the swiveling head at lower 41 both ends of bar shaped housing, A driving gear 57 is fixedly installed on two rooted tooth wheel shafts；Two driving gears are meshed with drive chain 58, utilize Driving gear is used cooperatively with drive chain 58, can ensure that the synchronism that high temperature conveyer belt 42 operates, and is not in skid now As it is asynchronous with steel mesh conveying belt operation to avoid the occurrence of high temperature conveyer belt 42；Synchronous driving motor 32 is mounted on insulation shell Outer bottom, and the synchronism output axis 53 of synchronous driving motor 32 protrudes into insulation shell through lower bar shaped housing 41 and wherein one Rooted tooth wheel shaft is connected to each other；Each hot wind conveying branches interval is mounted on high temperature conveyer belt 42, and on high temperature conveyer belt 42 Installed position is equipped with ventilation hole；Hot wind conveying branches extend at material conveying pipeline, and the operating of high temperature conveyer belt 42 Speed is equal with the conveying speed of material conveying pipeline.

As shown in Fig. 1,2 and 4, hot wind conveying branches include be mounted block 43, main hot air pipe 46, vertical air supply tube 47, Top set's hot air pipe 48, inferior division hot air pipe 50 and two cone-shaped hoods 49；Block 43 is mounted and is fixedly mounted on high temperature conveying On band 42, and ventilation circular hole corresponding with ventilation hole is equipped on block 43 is mounted；Be mounted block 43 upper side edge with The lower side of block 43 and the upper side clearance fit of lower enclosing is mounted in the downside clearance fit of upper enclosing；Main hot air pipe 46 one end be vertically fixedly mounted on be mounted block 43 on, and with ventilation circular hole be connected to each other, the other end of main hot air pipe 46 with The lower end vertical butt joint of vertical air supply tube 47, and triangle stiffener plate 51 is equipped at vertical butt joint, utilize triangle stiffener plate 51 can enhance the structural strength at vertical butt joint；Top set's hot air pipe 48 and inferior division hot air pipe 50, which are installed in parallel in, vertically to be sent In the upper and lower ends of air hose 47, and it is connected with vertical air supply tube 47；Two cone-shaped hoods 49 are separately mounted to top set's hot wind On the end air outlet of pipe 48 and inferior division hot air pipe 50；The horn cover mouth of two cone-shaped hoods 49 is opposite up and down, so that two cones Shape cover 49 can be located separately the upper and lower sides corresponding position of upper layer steel mesh conveying belt, and realization adds the convection current up and down of curing material 74 Heat.

As shown in figure 5, being arranged at intervals with interlayer cavity 64 inside high temperature conveyer belt 42, and the setting position of interlayer cavity 64 It sets and is staggered with the installation site of hot wind conveying branches；Heat insulation foam layer 65 has been filled in interlayer cavity 64；In each interlayer Support rod 66 is vertically provided at cavity 64, and the upper and lower ends of support rod 66 are respectively arranged with ball mounting base 67；Upper Equal roller is equipped with ball 68 in lower two ball mounting bases 67, and the spherical calotte of ball 68 protrudes high temperature conveyer belt 42 Edge outer support is on the trench bottom of limited ring groove 52.It can be enhanced using heat insulation foam layer 65 is filled in interlayer cavity 64 Heat insulation prevents heat from spreading leakage from high temperature conveyer belt 42；Utilize support rod 66, ball mounting base 67 and ball 68 The support construction for constituting high temperature conveyer belt 42 prevents that 42 lower edges serious wear of high temperature conveyer belt is used for a long time, while can The vertical structure intensity of high temperature conveyer belt 42 is reinforced, prevents that drive chain is installed on the inside of high temperature conveyer belt 42 after being used for a long time Occur larger recess or bending at item 58.

As shown in Figure 1-3, material conveying pipeline includes the conveying of 60, two, feed drive motor drive shaft 54, two Chain 39 and each steel mesh block 59；Feed drive motor 60 is fixedly mounted on the outside of insulation shell；Two drive shafts 54 It is mounted in furnace body inner housing 1 by two shaft mounting bases 36, and drive shaft 54 is rotatably mounted on shaft mounting base 36 On；The output shaft of feed drive motor 60 is connected to each other with drive shaft 54；One is equipped on the both ends of drive shaft 54 Conveyance gear 38；Two conveyor chains 39 are respectively around two conveyance gears that corresponding position in two drive shafts 54 is arranged in On 38；Each steel mesh block 59 is arranged in order between two conveyor chains 39 and constitutes steel mesh conveying belt；Two steel mesh conveyings The conveying direction of band on the contrary, and conveying speed it is equal；Four apex angles of each steel mesh block 59 pass through the fixed peace of apex angle connection sheet 75 On the conveyor chain 39 of corresponding position；It can be penetrated using steel mesh conveying belt convenient for hot wind, consequently facilitating hot wind conveys Two cone-shaped hoods 49 in branch can be realized hot air convection to the synchronous progress Hot-blast Heating of the upper and lower sides of curing material 74, With preferable heating effect.

As shown in Figures 2 and 3, it is equipped with both ends between two neighboring steel mesh block 59 and is respectively and fixedly installed to two conveyor chains Tie-strut 62 on 39 can be convenient for supporting, it is ensured that the carrying of steel mesh block 59 using tie-strut 62 to steel mesh block 59 Indeformable damage is used for a long time in ability；Intermediate connection sheet 63 is equipped in the marginal center adjacent with tie-strut 62 of steel mesh block 59； Intermediate connection sheet 63 is fixedly mounted on tie-strut 62；Be equipped with one for carrying admittedly at the middle part of each steel mesh block 59 The circular recess 61 of compound material 74 can be transported using circular recess 61 convenient for the positioning of curing material 74.

As shown in Figure 1, hot air circulation blower includes blower inner housing 4, blower thermal insulation layer 5, blower housing body 6, flabellum drive Dynamic motor 8, electrical bar 14, vertical transmission shaft 9, fan shaft 10 and flabellum 11；Blower inner housing 4 is mounted on blower housing body 6 inside, blower thermal insulation layer 5 are filled between blower housing body 6 and blower inner housing 4；On the top of blower inner housing 4 It is provided with electrode installation cavity 7 between portion outside and the inside top of blower housing body 6, by circuit and is added using electrode installation cavity 7 The passage of heat is isolated, it is ensured that electrical security；14 array of electrical bar is mounted on inside blower inner housing 4, and electrical bar 14 Electrode 15 protrude into electrode installation cavity 7 for being electrically connected with external power supply；Fan is equipped on the interior bottom of blower inner housing 4 Bracket 12；Fan shaft 10 is rotatably mounted on blower tray 12, and is equipped with driven bevel pinion on fan shaft 10 55；Flabellum 11 is fixedly mounted on fan shaft 10；Vertical transmission shaft 9 is vertically rotatably mounted in blower inner housing 4, and The lower end of vertical transmission shaft 9 is equipped with the driving bevel gear 13 being meshed with driven bevel pinion 55；Flabellum driving motor 8 is fixed It is mounted on the top outer of blower housing body 6, and the output shaft of flabellum driving motor 8 is opposite with the upper end of vertical transmission shaft 9 It connects；Intake stack 18 and wind pipe 19 are respectively communicated at the air inlet and air outlet that hot air circulation blower is arranged in.

As shown in Figure 1, in furnace body inner housing 1 and be located at the lower nozzle of intake stack 18 equipped with taper confluence cover 20, Using taper confluence cover 20 can convenient for rise hot wind quickly converge into intake stack 18, thus further progress circulation plus Heat；In blower inner housing 4 and it is located at air inlet equipped with the air inlet arc deflector 16 to water conservancy diversion at air outlet；In blower In shell 4 and it is located at the outlet air arc deflector 37 being equipped at air outlet to water conservancy diversion at air outlet；Utilize air inlet arc deflector 16 enter the wind the circulation of air inlet along heating channel water conservancy diversion conveying, can will be after heating using outlet air arc deflector 37 Hot wind is guided at air outlet in heating channel tail portion；Temperature sensing is provided in blower inner housing 4 and positioned at air inlet Device 17.

As shown in Figure 1, be hingedly equipped with feed ramp 25 on the lower side of charging window 21, and feed ramp 25 by into It is extended in insulation shell outside material window 21, can be convenient for that curing material 74 is rapidly delivered to heat preservation using feed ramp 25 In shell, to accurately enter in the circular recess 61 at 59 middle part of steel mesh block；It is hingedly installed on the lower side of discharging window 22 There is discharging slide plate 45, and the slide plate 45 that discharges is in discharging window 22 by extending to outside insulation shell, it can be using discharging slide plate 45 The curing material 74 being detached from from circular recess 61 is caught, so that the curing material 74 under high temperature is rapidly transferred out insulation shell Outside；Between the downside of feed ramp 25 and the lateral surface of insulation shell and discharging slide plate 45 downside and insulation shell Lateral surface between be provided with height adjustment mechanism, using height adjustment mechanism can facilitate adjust feed ramp 25 and discharging The tilt angle of slide plate 45, to adjust feeding and blanking velocity；Height adjustment mechanism by upper casing 27, adjusting screw rod 30, under Casing 29 and handlebar stem 28 are constituted；Upper casing 27 is hingedly mounted on the downside of slide plate, the lower end casing of setting of casing 29 Lower hinged seat 26 is hingedly mounted on the lateral surface of insulation shell；The upper end of adjusting screw rod 30 is inserted into the lower end of casing 27 On；The lower thread of adjusting screw rod 30 screws on the nozzle internal screw thread of 29 upper end of setting of casing；Handlebar stem 28 is vertically fixedly mounted On adjusting screw rod 30, the adjusting of entire length can be supported convenient for can be manually rotated adjusting screw rod 30 using handlebar stem 28； Feed inlet baffle 23 is hingedly installed on the upper side edge of charging window 21,23 suspension type of feed inlet baffle is made to be sealed on charging window It on mouth 21, is kept the temperature using the closing that feed inlet baffle 23 can be realized at charging window 21, and swing type installation will not stop admittedly The downslide of compound material 74 is mobile；Discharge port baffle 24 is hingedly installed on the upper side edge of discharging window 22, makes discharge port baffle 24 suspension types are sealed on discharging window 22；It is kept the temperature using the closing that discharge port baffle 24 can be realized at discharging window 22, and Swing type installation will not stop the downslide of curing material 74 mobile.

As shown in fig. 6, insulation shell side and be located at discharging window 22 at be equipped with conveyer belt mechanism；Conveyer belt mechanism Including conveyor belt support 69, conveyor motor 70, drive belt 71 and conveyer belt 72；Rotatably pacify on conveyor belt support 69 Equipped with multiple conveying rollers, conveyer belt 72 is around setting on each conveying roller；Conveyor motor 70 is mounted on conveyor belt support 69 On, and the rotation of at least one conveying roller is driven by drive belt 71；Discharging slide plate 45 extends to the top of conveyer belt 72, and The edge of conveyer belt 72 is arranged at intervals with material blocking rod 73, can be to the curing material to glide on discharging slide plate 45 using material blocking rod 73 74 are stopped, and prevent from going out conveyer belt 72 falling damage；It can be fast by the curing material 74 under high temperature using conveyer belt mechanism Speed automation is transported at subsequent processing.It is equipped with support footing 31 at the bottom both ends of insulation shell, in the bottom of insulation shell Middle part is equipped with heat exchange jacket 33；It is equipped with water inlet 34 in one end of heat exchange jacket 33, the other end is equipped with water outlet 35；Utilize heat exchange Collet 33 can be realized external heat-exchanging, and the heat collection that outside distributes is reserved for other use, the utilization rate of heat is further increased.

The invention provides a kind of do not glue and paints sintering oven at work, 17 real-time detection return air of temperature sensor Temperature feedback control is carried out to the heating temperature of each electrical bar 14 to be realized by external PLC controller；Two materials The feed drive motor 60 of conveying pipeline is to the driving direction of steel mesh conveying belt on the contrary, each in synchronized tracking heating mechanism The steel mesh conveying belt of hot wind conveying branches and two sides is run simultaneously, and the two sides hot wind on synchronized tracking heating mechanism length direction is defeated Send branch to respectively correspond each curing material 74 on two material conveying pipelines so that curing material 74 be synchronized with Track heating, be not in fixed point interval heating the problem of, be able to maintain equilibrium temperature continuous heating, additionally, due to be fixed point with The heating of track formula, not will cause the greater loss of heat, reduce heating energy consumption.

Claims (10)

1. a kind of not viscous paint sintering oven, it is characterised in that: including insulation shell, hot air circulation blower, two material conveyings Assembly line and synchronized tracking heating mechanism；Insulation shell includes furnace body inner housing (1), insulating layer of furnace body (2) and furnace body shell Body (3)；In furnace body outer housing (3), insulating layer of furnace body (2) is filled in furnace body inner housing (1) for furnace body inner housing (1) setting Between furnace body outer housing (3)；Two material conveying pipelines are arranged in parallel in furnace body inner housing (1)；Synchronized tracking heating Mechanism is set in furnace body inner housing (1) and is located between two material conveying pipelines, and in synchronized tracking heating mechanism It is provided with the hot-blast outlet with the synchronous operation of material conveying pipeline；Hot air circulation blower is set to the top of furnace body outer housing (3) The air inlet in portion, hot air circulation blower is protruded into furnace body inner housing (1) by intake stack (18), the outlet air of hot air circulation blower Mouth is connected to the air inlet of synchronized tracking heating mechanism by wind pipe (19)；Charging window is equipped on insulation shell side (21) and window (22) are discharged；Window (21) are fed close to the feeding end of material conveying pipeline, discharging window (22) is close to object Expect the discharging end of conveying pipeline.

2. not viscous paint sintering oven according to claim 1, it is characterised in that: synchronized tracking heating mechanism includes upper item Shape housing (44), lower bar shaped housing (41), high temperature conveyer belt (42), synchronous driving motor (32) and the conveying point of each hot wind Branch；Upper bar shaped housing (44) and lower bar shaped housing (41) are parallel with material conveying pipeline, and upper bar shaped housing (44) and The both ends of lower bar shaped housing (41) are disposed as semicircular swiveling head；Upper bar shaped housing (44) and lower bar shaped housing (41) are up and down It is correspondingly arranged, and is equipped with the upper enclosing being turned over downwards at the edge of upper bar shaped housing (44), at the edge of lower bar shaped housing (41) Equipped with the lower enclosing flipped up；Upper enclosing and lower enclosing are correspondingly arranged up and down, and along the downside of upper enclosing and lower enclosing Upper side is equipped with limited ring groove (52)；High temperature conveyer belt (42), which surrounds, to be arranged between upper enclosing and lower enclosing, and high temperature conveys The lower edges of band (42) are respectively embedded into the limited ring groove (52) of upper and lower sides；In upper bar shaped housing (44) and lower bar shaped housing (41) support post (56) are vertically provided between relative inner face；Support is equipped on the downside of lower bar shaped housing (41) Support frame (40) on furnace body inner housing (1)；The lower end of wind pipe (19) and the air inlet phase on upper bar shaped housing (44) Docking；A circle drive chain (58) is provided with along the medial surface of high temperature conveyer belt (42)；In upper bar shaped housing (44) and lower item A rooted tooth wheel shaft is rotatably installed between the swiveling head at shape housing (41) both ends, is fixedly installed on two rooted tooth wheel shafts One driving gear (57)；Two driving gears are meshed with drive chain (58)；Synchronous driving motor (32) is mounted on guarantor The outer bottom of warm shell, and the synchronism output axis (53) of synchronous driving motor (32) protrudes into insulation shell through lower bar shaped housing (41) it is connected to each other with a wherein rooted tooth wheel shaft；Each hot wind conveying branches interval is mounted on high temperature conveyer belt (42), and in height Installed position on warm conveyer belt (42) is equipped with ventilation hole；Hot wind conveying branches extend at material conveying pipeline, and high The running speed of warm conveyer belt (42) is equal with the conveying speed of material conveying pipeline.

3. not viscous paint sintering oven according to claim 2, it is characterised in that: hot wind conveying branches include being mounted Block (43), main hot air pipe (46), vertical air supply tube (47), top set's hot air pipe (48), inferior division hot air pipe (50) and two Cone-shaped hood (49)；Block (43) are mounted to be fixedly mounted on high temperature conveyer belt (42), and are equipped on block (43) are mounted Ventilation circular hole corresponding with ventilation hole；The upper side edge of block (43) and the downside clearance fit of upper enclosing, limit is mounted The upper side clearance fit of the lower side of mounting blocks (43) and lower enclosing；One end of main hot air pipe (46) is vertically fixedly mounted on limit On position mounting blocks (43), and it is connected to each other with ventilation circular hole, the other end of main hot air pipe (46) and the lower end of vertical air supply tube (47) Vertical butt joint, and triangle stiffener plate (51) are equipped at vertical butt joint；Top set's hot air pipe (48) and inferior division hot air pipe (50) it is installed in parallel in the upper and lower ends of vertical air supply tube (47), and is connected with vertical air supply tube (47)；Two tapers Cover (49) is separately mounted on the end air outlet of top set's hot air pipe (48) and inferior division hot air pipe (50)；Two cone-shaped hoods (49) horn cover mouth is opposite up and down.

4. not viscous paint sintering oven according to claim 2, it is characterised in that: be spaced inside high temperature conveyer belt (42) It is provided with interlayer cavity (64), and the setting position of interlayer cavity (64) and the installation site of hot wind conveying branches are staggered；It is pressing from both sides Heat insulation foam layer (65) have been filled in layer cavity (64)；Support rod is vertically provided at each interlayer cavity (64) (66), and the upper and lower ends of support rod (66) are respectively arranged with ball mounting base (67)；In upper and lower two ball mounting bases (67) Upper equal roller is equipped with ball (68), and the edge outer support of spherical calotte protrusion high temperature conveyer belt (42) of ball (68) exists On the trench bottom of limited ring groove (52).

5. not viscous paint sintering oven according to claim 1, it is characterised in that: material conveying pipeline includes that conveying is driven Dynamic motor (60), two drive shafts (54), two conveyor chains (39) and each steel mesh block (59)；Feed drive motor (60) it is fixedly mounted on the outside of insulation shell；Two drive shafts (54) are mounted on furnace body by two shaft mounting bases (36) In inner housing (1), and drive shaft (54) is rotatably mounted on shaft mounting base (36)；The output of feed drive motor (60) Axis is connected to each other with drive shaft (54)；A conveyance gear (38) is equipped on the both ends of drive shaft (54)；Two defeated It send chain (39) to surround respectively to be arranged on two drive shafts (54) on two conveyance gears (38) of corresponding position；Each steel Net block (59) is arranged in order between two conveyor chains (39) and constitutes steel mesh conveying belt；The conveying of two steel mesh conveying belts It is contrary, and conveying speed is equal；Four apex angles of each steel mesh block (59) are fixedly mounted on by apex angle connection sheet (75) On the conveyor chain (39) of corresponding position.

6. not viscous paint sintering oven according to claim 5, it is characterised in that: between two neighboring steel mesh block (59) The tie-strut (62) being respectively and fixedly installed to equipped with both ends on two conveyor chains (39)；In steel mesh block (59) and tie-strut (62) adjacent marginal center is equipped with intermediate connection sheet (63)；Intermediate connection sheet (63) is fixedly mounted on tie-strut (62)； Carry out being equipped with one in the middle part of each steel mesh block (59) for carrying the circular recess (61) of curing material (74).

7. not viscous paint sintering oven according to claim 1, it is characterised in that: hot air circulation blower includes blower inner casing Body (4), blower thermal insulation layer (5), blower housing body (6), flabellum driving motor (8), electrical bar (14), vertical transmission shaft (9), wind Machine shaft (10) and flabellum (11)；Blower inner housing (4) is mounted on the inside of blower housing body (6), and blower thermal insulation layer (5) is filled out It fills and is arranged between blower housing body (6) and blower inner housing (4)；In the top outer and blower housing of blower inner housing (4) Electrode installation cavity (7) are provided between the inside top of body (6)；Electrical bar (14) array is mounted in blower inner housing (4) Portion, and the electrode (15) of electrical bar (14) protrudes into electrode installation cavity (7) for being electrically connected with external power supply；In blower inner housing (4) interior bottom is equipped with blower tray (12)；Fan shaft (10) is rotatably mounted on blower tray (12), and in blower Driven bevel pinion (55) are installed in shaft (10)；Flabellum (11) is fixedly mounted on fan shaft (10)；Vertical transmission shaft (9) It is vertically rotatably mounted in blower inner housing (4), and is equipped on the lower end of vertical transmission shaft (9) and driven bevel pinion (55) driving bevel gear (13) being meshed；Flabellum driving motor (8) is fixedly mounted on the top outer of blower housing body (6), And the output shaft of flabellum driving motor (8) and the upper end of vertical transmission shaft (9) are connected to each other；Intake stack (18) and wind pipe (19) it is respectively communicated at the air inlet and air outlet that hot air circulation blower is set.

8. not viscous paint sintering oven according to claim 7, it is characterised in that: in furnace body inner housing (1) and be located at Taper confluence cover (20) is equipped at the lower nozzle of intake stack (18)；It is equipped in blower inner housing (4) and positioned at air inlet The air inlet arc deflector (16) of water conservancy diversion to air outlet；It is equipped in blower inner housing (4) and at air outlet to outlet air The outlet air arc deflector (37) of water conservancy diversion at mouthful；Temperature sensor is provided in blower inner housing (4) and positioned at air inlet (17)。

9. not viscous paint sintering oven according to claim 1, it is characterised in that: on the lower side of charging window (21) It is hingedly equipped with feed ramp (25), and feed ramp (25) outside charging window (21) by extending in insulation shell；It is discharging Discharging slide plate (45) is hingedly installed on the lower side of window (22), and discharges slide plate (45) by extending in discharging window (22) Outside insulation shell；Between the downside of feed ramp (25) and the lateral surface of insulation shell and discharging slide plate (45) downside Height adjustment mechanism is provided between face and the lateral surface of insulation shell；Height adjustment mechanism is by upper casing (27), adjusting spiral shell Bar (30), setting of casing (29) and handlebar stem (28) are constituted；Being hingedly mounted on the downside of slide plate for upper casing (27), traps Hinged seat (26) under the lower end casing of (29) is managed to be hingedly mounted on the lateral surface of insulation shell；It inserts the upper end of adjusting screw rod (30) On the lower end of upper casing (27)；The lower thread of adjusting screw rod (30) screws the nozzle internal screw thread in setting of casing (29) upper end On；Handlebar stem (28) is vertically fixedly mounted on adjusting screw rod (30)；It is hingedly equipped on the upper side edge of charging window (21) Feed inlet baffle (23) is sealed on feed inlet baffle (23) suspension type in charging window (21)；In the upper of discharging window (22) Discharge port baffle (24) are hingedly installed on side, are sealed on discharge port baffle (24) suspension type in discharging window (22).

10. not viscous paint sintering oven according to claim 9, it is characterised in that: insulation shell side and be located at Conveyer belt mechanism is equipped at discharging window (22)；Conveyer belt mechanism includes conveyor belt support (69), conveyor motor (70), driving Belt (71) and conveyer belt (72)；Multiple conveying rollers are rotatably installed on conveyor belt support (69), conveyer belt (72) encloses Around setting on each conveying roller；Conveyor motor (70) is mounted on conveyor belt support (69), and passes through drive belt (71) At least one conveying roller is driven to rotate；Discharging slide plate (45) extends to the top of conveyer belt (72), and on the side of conveyer belt (72) Edge is arranged at intervals with material blocking rod (73)；It is equipped with support footing (31) at the bottom both ends of insulation shell, in the bottom of insulation shell Middle part is equipped with heat exchange jacket (33)；Water inlet (34) are equipped in one end of heat exchange jacket (33), the other end is equipped with water outlet (35).