CN206514686U - Chain type twin furnace enamel sheet material sintering furnace - Google Patents

Abstract

The utility model provides a kind of chain type twin furnace enamel sheet material sintering furnace, the active section and first for coordinating C-shaped to set using the feeding line of annular loads and unloads end and the second handling end, feeding and blanking are carried out using the synchronous feeding line in the first handling end and the second handling end, realize enamel sheet material sintering furnace it is two-way enter it is two-way go out, make full use of the heat of the heat transfer zone of active section first, the second heat transfer zone and heating zone, structure is more reasonable, heat utilization rate is higher, process velocity is faster, production capacity is higher, solves energy waste and the low technical problem of processing efficiency.

Description

Chain type twin furnace enamel sheet material sintering furnace

Technical field

The utility model is related to industrial high temperature manufacture field, more particularly to a kind of chain type twin furnace enamel assembling tank sheet material Sintering furnace.

Background technology

With today that environmental consciousness is increasingly strengthened and demand of industrial production is higher, enamel assembling tank can be at any sewage Science and engineering journey, biogas engineering, power engineering provide all kinds of water receptacles, and are used as the enamel assembling tank sheet material for manufacturing enamel assembling tank Demand is also greatly increased, and desired quality is also higher.

The production process of enamelware typically passes through following several stages：Base, enamel frit makeing, the application of slip, sintering, decoration etc.；Its Middle sintering link is respectively necessary for meeting slow heat, the work of slow cooling by drying, high temperature sintering, three steps of cooling, drying and cooling Skill requirement, sintering link is a highly energy-consuming, high percent defective and high time-consuming stage；In current sintering link, product first exists After drying chamber drying, sintering furnace high temperature sintering is returned again to, cooling of finally coming out of the stove, several manufacturing procedures are each independent, processing inconvenience； On the other hand, the sintering furnace of existing equipment typically uses linear, and the high temperature in sintering link is lost in greatly, causes the wave of resource Take.

In the Chinese patent that the patent No. is CN204787775U, it is noted that a kind of continous way enamel sintering furnace, it passes through Body of heater is set to U-shaped, and body of heater is divided into high-temperature region and heat exchange zone realization drying, high temperature sintering, three steps of cooling With reference to, energy waste is reduced, but setting structure is still unreasonable, and the enamel sintering furnace only only make use of what high-temperature region side was overflowed Heat, wastes the energy, and it is unidirectionally to enter unidirectionally to go out, and operating efficiency is slow.

Utility model content

For problem above, the utility model provides a kind of chain type twin furnace enamel sheet material sintering furnace, utilizes annular Feeding line coordinate C-shaped set active section with first handling end and second load and unload end, make full use of the heat of active section heating zone Amount, realize enamel sheet material sintering furnace it is two-way enter it is two-way go out, structure is more reasonable, and heat utilization rate is higher, process velocity faster, Production capacity is higher, solves energy waste and the low technical problem of processing efficiency in background technology.

To achieve the above object, the utility model provides following technical scheme：A kind of chain type twin furnace enamel sheet material burns Freezing of a furnace, including body of heater and feeding line, feeding line are arranged in body of heater, the body of heater include first handling end, second handling end with And active section, the active section be arranged at the first handling end and second handling end between, it is described first handling end include first on Expect area and the first discharging area, the second handling end includes the second feeding area and the second discharging area, and the active section includes first Heat exchange zone, the second heat exchange zone and heating zone, the heating zone are arranged at first heat exchange zone and the second heat exchange Between area；The feeding line includes the first feeding line and the second feeding line, first feeding line and the second feeding line conveying direction On the contrary, first feeding line is used to connect first feeding area and the second discharging area, it is sequentially passed through in the active section The first heat exchange zone, heating zone and the second heat exchange zone；Second feeding line be used for connect second feeding area with First discharging area, it sequentially passes through the second heat exchange zone, heating zone and the first heat exchange zone in the active section.

As an improvement, the active section is set for C-shaped, the heating zone is located at the line part of the active section.

As an improvement, the heating zone is double-furnace structure, be provided with its inwall the high temperature resistant furnace lining for insulation with And heating element heater.

As an improvement, first heat exchange zone and the second heat exchange zone are single chamber structure, it includes being in institute State the first heat exchange segment and the second heat exchange segment in active section bending section, first heat exchange segment of active section line part One end be connected with the heating zone, its other end is connected with second heat exchange segment.

As an improvement, first heat exchange segment is with being provided with the insulation for insulation on the inwall of the second heat exchange segment Furnace lining.

As an improvement, the feeding line is annular feeding line, it also includes the first switch-back and the second switch-back, described the One switch-back is used for head end and the end of the second feeding line for connecting the first feeding line；Second switch-back is used to connect second The end of the head end of feeding line and the first feeding line.

As an improvement, first feeding line and the second feeding line include F types support and hook, the F types branch is set up The top of the active section is placed in, the hook is slideably positioned on the F type supports.

As an improvement, the F types support is provided with dual-seal groove parallel up and down, and the lower end of the F type supports is also right Claim the mouth-sealed portion for being provided with projection.

As an improvement, being provided with the dual gillis be arrangeding in parallel up and down on the hook, the gillis is doubling plate It is staggered up and down, it is sealed with the seal groove corresponding matching.

As an improvement, the front end of the gillis is provided with supporting part, its rear end is provided with clinch；The supporting part with Clinch is used for the mutual overlap joint of the adjacent gillis.

The beneficial effects of the utility model are：

(1) the utility model is compared with conventional apparatus, by the way that body of heater is set into the first loading place, the second loading place and work Section, coordinates the setting of annular feeding line, makes to form the opposite enamel processing line of two conveying directions in body of heater, and every enamel processing Line can make the structure of sintering furnace more reasonable by the first heat exchange zone, the second heat exchange zone and heating zone of active section, The heat that the enamel product for making full use of heat energy and sintering that heating zone is overflowed to complete is taken out of enters to unsintered enamel product Row preheating, reduces the loss of heat energy, improves the efficiency of enamel processing；

(2) the utility model is compared with conventional apparatus, it is contemplated that heating zone, which is set to bending, can cause the Temperature Distribution of heating zone It is uneven, and then cause enamel product in sintering, heated inequality causes sintering to fail, therefore heating zone is set into linear pattern simultaneously Using the setting of twin furnace, the heat distribution of balance heating zone, while considering that linear pattern heating zone two ends are unobstructed, is easily caused Heat overflows, and heat is lost, therefore sets the heat exchange zone of bending first and the second heat exchange zone in the both sides of heating zone, to heating While area's spilling heat is used, reduces heat and spill into the external world；

(3) the utility model fully takes into account heating zone spilling when setting the first heat exchange zone and the second heat exchange zone The height of the temperature of heat, by the first heat exchange zone and the second heat exchange zone be divided into straight line setting the first heat exchange segment and The second heat exchange segment that curve is set, the first heat exchange segment is connected the heat energy for making full use of heating zone to overflow with heating zone and warded off The preheating of porcelain products, and the second heat exchange segment is set for the C-shaped of bending, and the heat for reducing heating zone is set using the C-shaped of bending Loss, while the buffer area to one preheating of unsintered enamel product avoids shock heating influence sintering quality, also to having sintered Into the cooling of enamel commodity one buffering area, it is to avoid the quality of quenching destruction product, and the first heat exchange zone and second hot Exchange area employs single chamber structure, and providing favourable heat to the enamel product on the first feeding line and the second feeding line hands over Change condition；

(4) the utility model is when setting feeding line, and body of heater can be caused by fully taking into account the joint portion of feeding line and body of heater Interior heat is overflowed by joint portion, causes thermal losses, therefore is provided with F type supports dual-seal groove and mouth-sealed portion, Coordinated using the dual gillis on hook with dual-seal groove and joint portion is sealed, along with the stop of mouth-sealed portion, had What is imitated prevents heat from overflowing；

(5) the utility model employs the mode that dual plate superposition is staggeredly overlapped, strengthens sealing when setting gillis Property, and supporting part and clinch are respectively provided with the front and back end of gillis, adjacent gillis is by holding before and after alloing Load portion stops that heat overflows with cooperatively forming continuous gillis seal combination before and after clinch；

In summary, the utility model, which has, reduces thermal losses, lifting sintering operating efficiency, and it is more reasonable that body of heater is set The characteristics of；Be particularly suitable for use in the sintering work of enamel product, lifts the sintering quality of enamel product.

Brief description of the drawings

Fig. 1 is the utility model structural representation；

Fig. 2 is the utility model heating zone cross section structure schematic diagram；

Fig. 3 is the utility model the one the first heat exchange zone and the second heat exchange zone structural representation；

Fig. 4 is the heat exchange zone of the utility model first and the second heat exchange zone section structure schematic diagram；

Fig. 5 is the combining structure schematic diagram of the utility model F types support and hook；

Fig. 6 is the utility model F type support cross-sectional structure schematic diagrames；

Fig. 7 is the adjacent gillis combining structure schematic diagram of the utility model；

Fig. 8 is the mplifying structure schematic diagram at A in Fig. 7.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", The orientation or position relationship of the instructions such as " clockwise ", " counterclockwise " be based on orientation shown in the drawings or position relationship, be only for It is easy to description the utility model and simplifies describe, rather than to indicate or imply that signified equipment or element must have specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

Embodiment 1：

As shown in figure 1, chain type twin furnace enamel sheet material sintering furnace, including body of heater 1 and feeding line 2, feeding line 2 is arranged at In body of heater 1, it is characterised in that the body of heater 1 includes the first handling end 11, second handling end 12 and active section 13, the work Make section 13 to be arranged between the first handling end 11 and the second handling end 12, the first handling end 11 includes the first feeding area 111 With the first discharging area 112, the second handling end 12 includes the second feeding area 121 and the second discharging area 122, the active section 13 Including the first heat exchange zone 131, the second heat exchange zone 132 and heating zone 133, the heating zone 133 is arranged at described first Between the heat exchange zone 132 of heat exchange zone 131 and second；The feeding line 2 includes the first feeding line 21 and the second feeding line 22, should First feeding line 21 is with the conveying direction of the second feeding line 22 on the contrary, first feeding line 21 is used to be connected first feeding area 111 and second discharging area 122, it sequentially passes through the first heat exchange zone 131 in the active section 13, heating zone 133 and Two heat exchange zones 132；Second feeding line 22 is used to connect the discharging area 112 of the second feeding area 121 and first, and it is successively Through the second heat exchange zone 132 in the active section 13, the heat exchange zone 131 of heating zone 133 and first.

Further, the active section 13 is set for C-shaped, and the heating zone 133 is located at the line part of the active section 13.

Further, the feeding line 2 is annular feeding line, and it also includes the first switch-back 23 and the second switch-back 24, first switch-back 23 is used for head end and the end of the second feeding line 22 for connecting the first feeding line 21；Described second turn Head end and the end of the first feeding line 21 for being used to connect the second feeding line 22 to line 24.

It should be noted that first feeding line 21 carries out feeding work in the first feeding area 111, and it is synchronous, it is described Second feeding line 22 is carried out in the second feeding area 121 after the completion of feeding work, the feeding of the first feeding line 21, sequentially passes through institute The first heat exchange zone 131 in active section 13, the second discharging area 122 of the heat exchange zone 132 of heating zone 133 and second arrival is stated to enter Row blanking is worked, synchronous, after the completion of the feeding of the second feeding line 22, and the second heat sequentially passed through in the active section 13 is handed over Change area 132, the heat exchange zone 131 of heating zone 133 and first and reach the progress blanking work of the first discharging area 112.

Further illustrate, first feeding line 21 and second feeding line 22 also by the first switch-back 23 with Second switch-back 24, one annular conveyor line 2 of formation, realizes that an annular conveyor line 2 forms two enamel knots in body of heater 1 and burnt Processing line, it is that knot burns operating efficiency to double.

Illustrate further, first feeding line 21 and second feeding line 22 of inverted running are warm first The heat exchange of enamel product is carried out in the heat exchange zone 112 of exchange area 111 and second, and inside the heating zone 113 of straight line setting Heat distribution is more uniform, bends the heating zone that the first heat exchange zone 111 set and the second heat exchange zone 112 are set to straight line 113 heats overflowed are intercepted, and effectively raise the utilization rate of heat.

As shown in Fig. 2 as an improvement technical scheme, the heating zone 133 is double-furnace structure, is set on its inwall It is equipped with the high temperature resistant furnace lining 1331 and heating element heater 1332 for insulation.

It should be noted that the double-furnace structure of the heating zone 133, it is ensured that it is uniform that the heat of heating zone 133 is distributed Property, the quality of enamel product sintering can be effectively improved.

As shown in Figure 3 and Figure 4, as an improvement technical scheme, the heat exchange of the first heat exchange zone 131 and second Area 132 is single chamber structure, and it includes the first heat exchange segment 1311 in the line part of active section 13 with being in work Make the second heat exchange segment 1312 of the bending section of section 13, one end of first heat exchange segment 1311 is connected with the heating zone 133, Its other end is connected with second heat exchange segment 1312.

Further, first heat exchange segment 1311 is used to protect with being provided with the inwall of the second heat exchange segment 1312 The insulation furnace lining 1313 of temperature.

It should be noted that the first heat exchange segment 1311 is connected the heat for making full use of heating zone 133 to overflow with heating zone 133 The preheating of enamel product can be carried out, and the second heat exchange segment 1312 is set for the C-shaped of bending, is set and reduced using the C-shaped of bending The thermal losses of heating zone 133, while the buffer area to unsintered one preheating of enamel product avoids shock heating influence sintering Quality, the buffering area of one cooling of enamel commodity also completed to sintering, it is to avoid the quality of quenching destruction product, and the first heat The heat exchange zone 132 of exchange area 131 and second employs single chamber structure, on the first feeding line 21 and the second feeding line 22 Enamel product provides favourable heat exchange conditions.

Embodiment 2：

Fig. 5, Fig. 6, Fig. 7 and Fig. 8 are the one of the embodiment two of the utility model chain type twin furnace enamel sheet material sintering furnace Plant structural representation；As shown in figs. 5 and 6, wherein being used and the phase of embodiment one with a kind of identical or corresponding part of embodiment The reference answered, for simplicity, hereafter only description and the distinctive points of embodiment one.The embodiment two and the reality shown in Fig. 1 The difference for applying example one is：

As shown in figs. 5 and 6, as an improvement technical scheme, first feeding line 21 and the second feeding line 22 are equal Including F types support 211 and hook 212, the F types support 211 is arranged at the top of the active section 13, and the hook 212 is slided It is dynamic to be arranged on the F types support 211.

Further, the F types support 211 is provided with dual-seal groove 2111 parallel up and down, and the F types support 211 Lower end be also symmetrically arranged with projection mouth-sealed portion 2112.

It should be noted that the dual-seal groove 2111 on the F types support 211, can be to feeding line 2 and body of heater 1 Joint portion carries out dual sealing, it is to avoid the heat in body of heater 1 spills into the external world.

As illustrated in figs. 7 and 8, as an improvement technical scheme, be provided with the hook 212 and be arranged in parallel up and down Dual gillis 2121, the gillis 2121 is to be staggered above and below doubling plate, and it is corresponding with the seal groove 2111 to match somebody with somebody Close sealing.

Further, the front end of the gillis 2121 is provided with supporting part 21211, and its rear end is provided with clinch 21212；The supporting part 21211 is used for the mutual overlap joint of the adjacent gillis 2121 with clinch 21212.

What deserves to be explained is, the gillis 2121 strengthens sealing by the way of the superposition of dual plate is staggeredly overlapped, And supporting part 21211 and clinch 21212 are respectively provided with the front and back end of gillis 2121, adjacent gillis before and after making 2121 can stop heat by cooperatively forming continuous gillis seal combination before and after supporting part 21211 and clinch 21212 Overflow.

It is worth further illustrating, by the dual-seal groove 2111 on the F types support 211 and the hook 212 The progress sealing of dual gillis 2121 is equipped with belongs to the pioneering of the applicant for enamel sheet material sintering furnace boiler roof sealing Structure, the experimental data provided according to the applicant shows, the enamel sheet material sintering furnace that dual-seal groove is set with dual gillis Temperature outside more traditional its furnace roof of enamel sheet material sintering furnace is reduced to less than 300 DEG C by 500-600 DEG C, effectively reduces The loss of sintering furnace heat.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model Any modifications, equivalent substitutions and improvements made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. chain type twin furnace enamel sheet material sintering furnace, including body of heater (1) and feeding line (2), feeding line (2) are arranged at body of heater (1) in, it is characterised in that the body of heater (1) includes the first handling end (11), the second handling end (12) and active section (13), The active section (13) is arranged between the first handling end (11) and the second handling end (12), and first handling end (11) include First feeding area (111) and the first discharging area (112), second handling end (12) include the second feeding area (121) and second Discharging area (122), the active section (13) includes the first heat exchange zone (131), the second heat exchange zone (132) and heating zone (133), the heating zone (133) is arranged between first heat exchange zone (131) and the second heat exchange zone (132)；It is described Feeding line (2) includes the first feeding line (21) and the second feeding line (22), first feeding line (21) and the second feeding line (22) Conveying direction on the contrary, first feeding line (21) be used for connect first feeding area (111) and the second discharging area (122), It sequentially passes through the first heat exchange zone (131), heating zone (133) and the second heat exchange zone in the active section (13) (132)；Second feeding line (22) is used to connect second feeding area (121) and the first discharging area (112), and it wears successively The second heat exchange zone (132), heating zone (133) and the first heat exchange zone (131) crossed in the active section (13).

2. chain type twin furnace enamel sheet material sintering furnace according to claim 1, it is characterised in that the active section (13) Set for C-shaped, the heating zone (133) is located at the line part of the active section (13).

3. chain type twin furnace enamel sheet material sintering furnace according to claim 1, it is characterised in that the heating zone (133) it is double-furnace structure, high temperature resistant furnace lining (1331) and heating element heater (1332) for insulation is provided with its inwall.

4. chain type twin furnace enamel sheet material sintering furnace according to claim 1, it is characterised in that first heat exchange Area (131) and the second heat exchange zone (132) are single chamber structure, and it includes the in the active section (13) line part One heat exchange segment (1311) and the second heat exchange segment (1312) in active section (13) bending section, first heat exchange segment (1311) one end is connected with the heating zone (133), and its other end is connected with second heat exchange segment (1312).

5. chain type twin furnace enamel sheet material sintering furnace according to claim 1, it is characterised in that first heat exchange Section (1311) is with being provided with the insulation furnace lining (1313) for insulation on the inwall of the second heat exchange segment (1312).

6. chain type twin furnace enamel sheet material sintering furnace according to claim 1, it is characterised in that the feeding line (2) For annular feeding line, it also includes the first switch-back (23) and the second switch-back (24), and first switch-back (23) is used to connect Connect the head end of the first feeding line (21) and the end of the second feeding line (22)；Second switch-back (24) is used for connection second and sent The head end of stockline (22) and the end of the first feeding line (21).

7. chain type twin furnace enamel sheet material sintering furnace according to claim 1, it is characterised in that first feeding line (21) F types support (211) and hook (212) are included with the second feeding line (22), the F types support (211) is arranged at described The top of active section (13), the hook (212) is slideably positioned on the F types support (211).

8. chain type twin furnace enamel sheet material sintering furnace according to claim 7, it is characterised in that the F types support (211) dual-seal groove (2111) parallel up and down is provided with, and the lower end of the F types support (211) is also symmetrically arranged with projection Mouth-sealed portion (2112).

9. chain type twin furnace enamel sheet material sintering furnace according to claim 8, it is characterised in that the hook (212) On be provided with the dual gillis (2121) be arrangeding in parallel up and down, the gillis (2121) is to be staggered above and below doubling plate, It is sealed with the seal groove (2111) corresponding matching.

10. chain type twin furnace enamel sheet material sintering furnace according to claim 9, it is characterised in that the gillis (2121) front end is provided with supporting part (21211), and its rear end is provided with clinch (21212)；The supporting part (21211) with Clinch (21212) is used for the mutual overlap joint of the adjacent gillis (2121).