CN205245735U - Continuous tunnel furnace - Google Patents

Abstract

The utility model provides a continuous tunnel furnace includes furnace body, the heat source subassembly that is provided with feed inlet and discharge gate and installs in furnace body inside and stride across the feed inlet and the transportation assembly of discharge gate, still include feeding subassembly, material discharging component and work or material rest, be provided with stacking zone on the feeding subassembly, the stacking zone lower part is advancing device, transportation assembly includes two sets of feed tracks of arranging side by side, advancing device's the upper surface and the upper surface parallel and level of feed track. Visible by above -mentioned scheme, because the feed track among the transportation assembly is by become twice together, the work or material rest neatly arranged that the per pass was carried puts, and can pile up between the work or material rest, uses inherent plane exactly to become space usage, and greatly increased gets into the work piece figure in the continuous tunnel furnace, set up the silo that the permutation was neatly arranged on the work or material rest, the work piece is placed in the silo, and the work piece is neatly put, and it is even to be heated, promotes greatly still to optimize processingquality beyond the production efficiency, feeding subassembly and material discharging component is set up respectively around the furnace body, more the production system can be optimized.

Description

Continuous tunnel furnace

Technical field

The utility model relates to a kind of tunnel type plant equipment, relates in particular to a kind of heat and dries continuous tunnel furnace.

Background technology

Continuous tunnel furnace is a kind of tunnel type plant equipment of utilizing the thermal source such as hot blast or infrared ray to dry elaboration products.In mobile phone production process, in the forming production line of mobile phone glass, mobile phone shell, all can use continuous tunnel furnace. Existing continuous tunnel furnace stoveBody internal upper part is provided with thermal source origination point, and bottom is conveying assembly cylinder group, by staff place work piece to cylinder group, workpieceEnter in continuous tunnel furnace and process with cylinder group, after sent by cylinder group from continuous tunnel furnace discharging opening, then by staff reclaim processing after workPart.

The problem that existing tunnel stove exists is, because staff is put workpiece in conveying assembly, to put on conveying assemblyWorkpiece is put uneven, and on conveying assembly, can put the just plane of workpiece and non-space, and in continuous tunnel furnace, workpiece saturation is subject toRestriction, and the workpiece of continuous tunnel furnace be heated irregular, crudy be difficult to ensure and production efficiency low.

Utility model content

The purpose of this utility model is to be to provide a kind of continuous tunnel furnace efficiently.

The continuous tunnel furnace that the utility model provides comprises body of heater, and body of heater is provided with charging aperture and discharging opening; Transport assembly, transportAssembly is installed on body of heater inside and crosses over charging aperture and discharging opening; Thermal source assembly, thermal source assembly be positioned at transport assembly top andThe below of transport assembly, continuous tunnel furnace also comprises feeding assembly, discharge component and bin; Feeding assembly engages with charging aperture, dischargingAssembly engages with discharging opening; Multiple hoppers and bin that bin has arranged in arrays can align stacking; On feeding assembly, be provided withStack region, stack region is provided with propulsion plant, and stack region and feeding assembly working face are slidably connected; Transport assembly comprises two groups alsoThe feed track that row are arranged; The upper surface of propulsion plant is concordant with the upper surface of feed track.

From such scheme, because the feed track in transport assembly is from becoming together twice, the material that per pass is transported toFrame proper alignment is put, and can be stacking between bin, exactly original plane is used and becomes space use, greatly increases and entersNumber pieces in continuous tunnel furnace; The neat hopper of arranging of permutation is set on bin, and workpiece is positioned in hopper, and workpiece is neatly putPut, be heated evenly, greatly beyond improving production efficiency, go back optimizing machining technology quality; Feeding assembly is set respectively before and after body of heater and goes outMaterial assembly, more can optimize production system.

Further scheme is that the stacking number of plies of bin in body of heater is three layers.

Therefore, due to bin be stackable configurations and bin be provided with a large amount of hoppers can place work piece, improvingBefore working (machining) efficiency and optimizing machining technology quality, hold the selection of weighing apparatus for the stacking number of plies of bin is three layers, not because entering in continuous tunnel furnaceWorkpiece quantity too much causes the workpiece extreme impact such as not enough of being heated.

Further scheme is, feeding assembly also comprises the first crawl arm, and the first crawl arm and feeding assembly are slidably connected.

Therefore, because feeding assembly is the place that enters front work in body of heater, at feeding assembly, the first crawl is setArm, and the first crawl arm can spatial translation in feeding assembly, removes to capture bin by control system, realizes bin stacking, and excellentChange the automation of continuous tunnel furnace system.

Further scheme is, discharge component also comprises the second crawl arm, and the second crawl arm and discharge component are slidably connected.

Therefore, because discharge component is that bin transports the workpiece processing and sends the in-position after body of heater, arrangeThe second crawl arm, the interior spatial translation of discharge component again of the second crawl arm, captures original stacking bin to mention, and makes binBetween separate, be more convenient for that next step gets workpiece work, further optimize the automation of continuous tunnel furnace system.

Further scheme is, discharge component also comprises Suction cup assembly, and described Suction cup assembly and discharge component are slidably connected.

Therefore, because Suction cup assembly and discharge component are slidably connected, Suction cup assembly can be in discharge component spaceTranslation, the workpiece processing need to be removed in bin, and Suction cup assembly is set, and several suckers and hopper on Suction cup assemblyPosition corresponding one by one, provide negative pressure by vacuum generator, the workpiece in hopper is all taken out once, furtherOptimize the automation of continuous tunnel furnace system, enhance productivity.

Further scheme is, continuous tunnel furnace is provided with recovery feed track, reclaims feed track and is positioned at lower portion of furnace body and crosses over stoveCharging aperture one end of body and discharging opening one end.

Therefore, owing to recovery feed track being set in continuous tunnel furnace bottom, take out the bin of workpiece through discharging groupPart bottom, the recovery feed track of arrival lower portion of furnace body, returns to body of heater charging aperture one side, then arrives feeding assembly bottom, logicalCross riser and again arrive operating position. This measure has realized the full automation of continuous tunnel furnace, has further improved continuous tunnel furnaceWorking (machining) efficiency.

Further scheme is, charging aperture is provided with blockade baffle plate, blocks baffle plate and is connected with the surface sliding of body of heater.

Therefore, owing to being provided with and movably blocking baffle plate at charging aperture, block baffle plate selectively to charging apertureSeal, after entering in body of heater with the bin of workpiece, block baffle plate charging aperture is blocked, can be effectively in body of heaterPortion is incubated, and optimizes heat and dries effect.

Brief description of the drawings

Fig. 1 is the structure chart of the utility model embodiment;

Fig. 2 is the structure chart of body of heater in the utility model embodiment;

Fig. 3 is the structure chart at another visual angle of body of heater in the utility model embodiment;

Fig. 4 is the structure chart of feeding assembly in the utility model embodiment;

Fig. 5 is the structure chart of discharge component part in the utility model embodiment;

Fig. 6 is the structure chart of discharging structure part in the utility model embodiment;

Fig. 7 is the structure chart of bin in the utility model embodiment.

Below in conjunction with accompanying drawing reference example, the utility model is elaborated.

Detailed description of the invention

As shown in Figure 1, the utility model is a continuous tunnel furnace with High-efficient Production feature, continuous tunnel furnace comprise body of heater 100,Be fixed on body of heater 100 feed ends feeding assembly 200, be fixed on the discharge component 300 of body of heater 100 discharge ends; Wherein discharging groupPart 300 is divided into Part I 310 and Part II 320, and Part I 310 is workpiece outflow part, and Part II 320 is workpieceTake out part.

As shown in Figure 2 and Figure 3, Fig. 2, Fig. 3 are the structure chart of body of heater 100 in the utility model, the feed end of body of heater 100Be provided with two charging apertures 111 that structure is identical, charging aperture 111 enters in body of heater 100 for the bin 400 of folding for heap; StoveIn body 100, be provided with transport assembly 130, transport assembly 130 comprises twice the neat feed track 131 of arranging, twice feed track 131Align with two charging apertures 111, bin 400 enters on the rear arrival feed track 131 of charging aperture 111, and feed track 131 is at body of heater 100Inside is transported to discharging opening 112 by the bin 400 that is placed with workpiece from charging aperture 111 ends. Thermal source assembly 120 works in transportationDo, complete the heat baking work in body of heater 100. Because the quantity of feed track 131 is two, and bin 400 can be stacking, at body of heaterThe workpiece quantity of carrying out heat baking processing in 100 effectively increases, and realizes efficient operation.

In addition, be provided with and can slidably block baffle plate 150 on the top of charging aperture 111, in the driving of drive unitUnder, block baffle plate 150 and can block charging aperture 111, guarantee the temperature conditions in body of heater 100.

As shown in Figure 2, Figure 4 shows, Fig. 4 is the structure chart of feeding assembly 200 in the utility model, and establish at feeding assembly 200 middle partsBe equipped with the piling operation before a stack region 230 enters body of heater 100 charging aperture 111 for bin 400,230 bottoms, stack regionBe provided with propulsion plant, propulsion plant working face is consistent with the working surface level height of feed track 131, and propulsion plant work willThe bin 400 that heap is folded is sent in body of heater 100.

Feeding assembly 200 is provided with controlled the first crawl arm 210, the first crawl arms 210 and feeding assembly 200 companies of slipConnect, and the first crawl arm 210 can multidirectional slip, the first crawl arm 210 is for bin 400 is captured and move to stack region 230,Realize to automation the piling operation of bin 400.

As shown in Fig. 3, Fig. 5, Fig. 5 is the structure chart of Part I 310 in discharge component 300 in the utility model, firstPart 310 is provided with the second crawl arm 311; The second crawl arm 311 is by being slidably connected with discharge component 300, after spatial translationRealize crawl and movement to the bin 400 flowing out from discharging opening 112 after processing, move to the work of next step feeding operationPosition.

As shown in Figure 6, Fig. 6 is the structure chart of Part II 320 in discharge component 400 in the utility model, Part II320 for workpiece takes out part, is provided with Suction cup assembly 330 on Part II 320, and on Suction cup assembly 330, permutation is furnished with severalPneumatic suction cup 331; When bin 400 arrives behind the operating position of feeding operation, Suction cup assembly 330 is transported under the control of control systemMove feeding operation operating position top, Pneumatic suction cup 331 negative pressure produce, and move down, the workpiece on bin 400 is drawn andUpper, then be transported to workpiece recovery place.

As shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, body of heater 100 bottoms be provided with reclaim feed track 140, reclaim feed track 140 acrossMore feed end and the discharge end of body of heater 100; Be provided with recovery beginning portion 312 in the bottom of Part I 310, by Suction cup assemblyThe bin 400 that 330 Pneumatic suction cup 331 takes out after workpiece is transported to by being lowered by the recovery beginning that is positioned at Part I 310 bottomsPortion 312; Reclaim in beginning portion 312 and have moving belt, moving belt pushes bin 400 and enters the recovery feed track 140 of body of heater 100 bottomsEntrance; Reclaiming feed track 140 is transported to by bin 400 the recovery feed track 140 that is positioned at body of heater 100 feed ends and exports; Bin 400From 140 outlets of recovery feed track are sent, arrive the recovery end portion 220 that is positioned at feeding assembly 200 bottoms, reclaim last portion 220 and establishBe equipped with elevating mechanism, by bin 400 transport of rising, again recycle.

As shown in Figure 7, bin 400 entirety are rectangular, are provided with the hopper 401 that rectangular array formula distributes on bin 400, materialOn frame 400, be provided with recess and protuberance, the protuberance butt on recess and another bin 400 on stacking bin 400, makes materialNeatly stacking between frame.

As shown in Figures 1 to 7, workpiece is neatly positioned on bin 400, and bin 400 captures fortune through the first crawl arm 210Deliver to stack region 230; When the bin 400 on stack region 230 stacking three layers time, the propulsion plant of 230 bottoms, stack region starts,Bin 400 is sent to the charging aperture 111 of body of heater 100. Because body of heater 100 is provided with two charging apertures 111 that structure is consistent, stacking230 bottoms, district are provided with cross track, and stack region 230 is slidably connected with cross track, so stack region 230 is for can laterally movingDynamic formula, can send bin 400 respectively to the charging aperture 111 of the right and left; Abundant bin 400 is fed into after body of heater 100,The blockade baffle plate 150 on charging aperture 111 tops starts, and charging aperture 111 is blocked to insulation, until batch machining completes.

The workpiece that completes processing is taken out of from discharging opening 112 by bin 400, arrives on discharge component 300 discharge component 300The second crawl arm 311 bin 400 is delivered to feeding operating position, Suction cup assembly 330 takes out workpiece on bin 400, afterBin 400 comes back to feeding assembly 200 working faces from the recovery feed track 140 of body of heater 100 bottoms, recycles.

Continuous tunnel furnace automaticity improves greatly, and production efficiency several times promote.

Finally it is emphasized that and the foregoing is only preferred embodiment of the present utility model, be not limited to this realityWith novel, for a person skilled in the art, the utility model can have various variations and change, all at the utility modelSpirit and principle within, any amendment of making, be equal to replacement, improvement etc., all should be included in protection model of the present utility modelWithin enclosing.

Claims (7)

1. continuous tunnel furnace, comprising:

Body of heater, described body of heater is provided with charging aperture and discharging opening;

Transport assembly, described transport assembly is installed on described body of heater inside and crosses over described charging aperture and described discharging opening;

Thermal source assembly, described thermal source assembly is positioned at described transport assembly top and transport assembly below;

It is characterized in that, described continuous tunnel furnace also comprises:

Feeding assembly, discharge component and bin;

Described feeding assembly engages with described charging aperture; Described discharge component engages with described discharging opening;

Multiple hoppers and described bin that described bin has arranged in arrays can align stacking;

On described feeding assembly, be provided with stack region, described stack region is provided with propulsion plant; Described stack region and described chargingAssembly working face is slidably connected;

Described transport assembly comprises two groups of feed tracks that are arranged in juxtaposition;

The upper surface of described propulsion plant is concordant with the upper surface of described feed track.

2. continuous tunnel furnace according to claim 1, is characterized in that:

The stacking number of plies of described bin in described body of heater is three layers.

3. continuous tunnel furnace according to claim 2, is characterized in that:

Described feeding assembly also comprises the first crawl arm, and described the first crawl arm and described feeding assembly are slidably connected.

4. continuous tunnel furnace according to claim 3, is characterized in that:

Described discharge component also comprises the second crawl arm, and described the second crawl arm and described discharge component are slidably connected.

5. continuous tunnel furnace according to claim 4, is characterized in that:

Described discharge component also comprises Suction cup assembly, and described Suction cup assembly and described discharge component are slidably connected.

6. continuous tunnel furnace according to claim 5, is characterized in that:

Described continuous tunnel furnace is provided with recovery feed track, and described recovery feed track is positioned at described lower portion of furnace body and crosses over described body of heaterDescribed charging aperture one end and described discharging opening one end.

7. continuous tunnel furnace according to claim 6, is characterized in that:

Described charging aperture is provided with and movably blocks baffle plate, and described blockade baffle plate is connected with the surface sliding of described body of heater.