CN204388623U - A kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference - Google Patents

Abstract

The utility model provides a kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference, it comprises kiln frame, be arranged on this kiln frame for carrying the roller rod firing product, be positioned at this and fire many heat-exchange tubes above product, the exhaust column communicated with this heat-exchange tube air outlet and the blower fan be connected with this exhaust column exhaust outlet, many heat-exchange tubes are grouped into the first heat-exchange tube assembly and the second heat-exchange tube assembly of two mutual parallel interval layouts, heat-exchange tube air outlet wherein in the first heat-exchange tube assembly and the second heat-exchange tube assembly communicates with the exhaust column of kiln frame both sides respectively and respective heat-exchange tube air inlet is arranged at the middle position of conveying roller rod firing above product, after adopting said structure form, cold wind can be heated up in the process of outlet gradually by heat-exchange tube entrance, the highest to temperature during both walls place, and herein because kiln side wall assists heat radiation, two sides temperature in kiln can be balanced, solve because of the product defects problem cooled soon, the temperature difference causes greatly.

Description

A kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference

Technical field

The utility model relates to ceramic firing heat exchange cooling technology field, refers more particularly to a kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference.

Background technology

Fire product (as ceramic tile, household china, devitrified glass etc.), after high temperature sintering, to need to carry out cooling processing to it.If fire product in cooling procedure excessive velocities or non-uniform temperature, be just easy to occur cracking or deformation defect, cause product rejection.For this reason, product needed Slow cooling region (as about 573 DEG C, the SiO in ceramic product ₂easily split because volume sharply changes), need indirectly to cool (namely cold wind does not directly contact with product).Traditional approach is arranged in parallel heat-exchange tube in firing above product, (namely heat-exchange tube is from air intake on the left of kiln frame for adjacent two heat-exchange tube cross inlets, another root is then from air intake on the right side of kiln frame), although the mode of above-mentioned cross inlet can accelerate the heat exchange efficiency firing product heat dissipation capacity and room air to a certain extent, but for cross section in calcination equipment, temperature is uneven, it is higher more to arrive cross section middle portion temperature, and the wider this trend in cross section is more obvious.In above-mentioned interlaced arrangement mode, because cold air inside is all by each root heat-exchange tube one end air intake other end air-out, cause both sides product temperature in cross section fall soon (both walls because of radiating surface large, faster than intermediate temperature drop), when progressively arriving central area cooling the slowest, this situation easily causes same large-sized sheet material (as large scale polishing floor tile) to there is the temperature difference to cause volume contraction uneven and distortion or cracking, and the single miscellaneous goods in both sides (as small tiles or household china) ftractures because cooling is too fast.Therefore, a kind of Homogeneous cooling mode that can reduce this calcination equipment cross section temperature difference how is found just to seem particularly important.

Summary of the invention

The purpose of this utility model is the deficiency overcoming prior art and structure, there is provided a kind of can realize firing product evenly, the structure of slowly heat radiation, that especially strengthen cross section zone line heat sinking function in this equipment, that section temperature difference can be reduced indirect cooling device.

For achieving the above object, technical scheme provided by the utility model is: a kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference, comprise kiln frame, be arranged on this kiln frame for carrying the roller rod firing product, be positioned at this and fire many heat-exchange tubes above product, the exhaust column communicated with this heat-exchange tube air outlet and the blower fan be connected with this exhaust column exhaust outlet, many described heat-exchange tubes are grouped into the first heat-exchange tube assembly and the second heat-exchange tube assembly of two mutual parallel interval layouts, heat-exchange tube air outlet wherein in this first heat-exchange tube assembly and the second heat-exchange tube assembly communicates with the exhaust column of kiln frame both sides respectively and respective heat-exchange tube air inlet is arranged at the middle position of described conveying roller rod firing above product.

Further, a U-shaped structure is formed in interlaced arrangement between two adjacent in described first heat-exchange tube assembly and the second heat-exchange tube assembly heat-exchange tubes.

Again further, also comprise the link be fixedly installed on described kiln frame, wherein this link to be positioned at above described heat-exchange tube and by the joint that is provided with and corresponding being connected with each heat-exchange tube air inlet of lock screw.

Again more further, described heat-exchange tube infinitely can extend layout along with the longitudinal length direction of kiln frame, and described exhaust column can be divided into several independent pipeline sections independently controlling this heat-exchange tube air quantity or indefinite extension pipeline section that is corresponding and that be consistent in this kiln frame that longitudinally length direction infinitely extends layout simultaneously.

Compared with prior art, this programme is by the first heat-exchange tube assembly of the many heat-exchange tubes be positioned at above conveying roller rod product being grouped into two mutual parallel interval and arranging and the second heat-exchange tube assembly, and the heat-exchange tube air outlet wherein in this first heat-exchange tube assembly and the second heat-exchange tube assembly communicates with the exhaust column of kiln frame both sides respectively and respective heat-exchange tube air inlet is arranged at the middle position (namely kiln frame cross section is central) of conveying roller rod firing above product.After adopting this arrangement form, because its air inlet of all heat-exchange tubes is all positioned at the middle position (i.e. kiln frame cross section central authorities) of conveying roller rod firing above product, cold wind can be heated up in the process of outlet gradually by heat-exchange tube entrance, the highest to temperature during both walls place, and herein because kiln side wall assists heat radiation, two sides temperature in kiln can be balanced, therefore this structure science, rationally more, completely eliminate cross section temperature difference, not only heat exchange efficiency is high, cooling also evenly, solve the product defects problem caused greatly because cooling fast, the temperature difference.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model.

Fig. 2 is the main TV structure schematic diagram of Fig. 1.

Fig. 3 be in Fig. 1 A to partial enlargement structural representation.

In figure: 1-kiln frame, 2-conveying roller rod, 3-fires product, 4-many heat-exchange tubes, 41-first heat-exchange tube assembly, 42-second heat-exchange tube assembly, 5-exhaust column, 51-exhaust column exhaust outlet, 6-link, 61-joint, 62-lock screw, 7-U type structure.

Detailed description of the invention

Below in conjunction with specific embodiment, the utility model is described in further detail:

Shown in accompanying drawing 1 to 3, a kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference described in the present embodiment, comprise kiln frame 1, be arranged on this kiln frame 1 for carry fire product 3 roller rod 2, be positioned at that this fires many heat-exchange tubes 4 above product 3, the exhaust column 5 that communicates with this heat-exchange tube air outlet and the blower fan (not shown) be connected with this exhaust column exhaust outlet 51.Above-mentioned many described heat-exchange tubes 4 are grouped into the first heat-exchange tube assembly 41 and the second heat-exchange tube assembly 42 that two mutual parallel interval are arranged, the heat-exchange tube air outlet wherein in this first heat-exchange tube assembly 41 and the second heat-exchange tube assembly 42 communicates with the exhaust column 5 of kiln frame 1 both sides respectively and respective heat-exchange tube air inlet is arranged at the middle position (namely kiln frame cross section is central) of conveying roller rod 2 firing above product 3.

Shown in attached Fig. 1 and 2, further in order to improve heat exchange efficiency and reduce section temperature difference, form a U-shaped structure 7 in interlaced arrangement between every two heat-exchange tubes adjacent in above-mentioned first heat-exchange tube assembly 41 and the second heat-exchange tube assembly 42.

Again see shown in accompanying drawing 1 and 3, be fixed on kiln frame 1 in order to what make that the air inlet of heat-exchange tube can be stable, also comprise one in this programme and be fixedly installed on link 6 on kiln frame 1, wherein this link 6 to be positioned at above above-mentioned heat-exchange tube 4 and by the joint 61 that is provided with fastening with each heat-exchange tube air inlet be connected (namely being lock onto corresponding for each heat-exchange tube air inlet on corresponding joint 61 by lock screw 62) with lock screw 62 correspondence.

It should be noted that in addition, heat-exchange tube 4 in this programme infinitely can extend layout along with the longitudinal length direction of kiln frame 1, and corresponding above-mentioned exhaust column 5 can be divided into several independent pipeline sections independently controlling this heat-exchange tube 4 air quantity or indefinite extension pipeline section that is corresponding and that be consistent in this kiln frame 1 that longitudinally length direction infinitely extends layout.

In sum, after this programme adopts this kind of arrangement form, to fire above product and in the middle position of equipment cross section because its air inlet of all heat-exchange tubes is all positioned at, therefore can well the burned product being in middle position be cooled, simultaneously because above-mentioned heat-exchange tube is divided into two groups of spaced and parallel layouts and the arrangement form that air outlet communicates with the exhaust column of kiln frame both sides respectively, therefore the heat exchange of whole burned product can be made more even, and heat exchange efficiency is also more effective.

The examples of implementation of the above are only the preferred embodiment of the utility model, not limit practical range of the present utility model with this, therefore the change that all shapes according to the utility model, principle are done, all should be encompassed in protection domain of the present utility model.

Claims (4)

1. one kind can be reduced the indirect cooling device of the wide cross section calcination equipment temperature difference, comprise kiln frame (1), be arranged at the conveying roller rod (2) for burnt product (3) on this kiln frame (1), be positioned at the many heat-exchange tubes (4) of this burnt product (3) top, the exhaust column (5) communicated with this heat-exchange tube air outlet and the blower fan be connected with this exhaust column exhaust outlet (51), it is characterized in that: many described heat-exchange tubes (4) are grouped into the first heat-exchange tube assembly (41) and the second heat-exchange tube assembly (42) of two mutual parallel interval layouts, heat-exchange tube air outlet wherein in this first heat-exchange tube assembly (41) and the second heat-exchange tube assembly (42) communicates with the exhaust column (5) of kiln frame (1) both sides respectively and respective heat-exchange tube air inlet is arranged at the middle position of upper burnt product (3) top of described conveying roller rod (2).

2. a kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference according to claim 1, is characterized in that: form a U-shaped structure (7) in interlaced arrangement between two heat-exchange tubes adjacent in described first heat-exchange tube assembly (41) and the second heat-exchange tube assembly (42).

3. a kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference according to claim 1 and 2, it is characterized in that: also comprise the link (6) be fixedly installed on described kiln frame (1), wherein this link (6) is positioned at described heat-exchange tube (4) top and being connected with each heat-exchange tube air inlet by the joint (61) that is provided with and lock screw (62) correspondence.

4. a kind of indirect cooling device reducing the wide cross section calcination equipment temperature difference according to claim 1 and 2, it is characterized in that: described heat-exchange tube (4) infinitely can extend layout along with the longitudinal length direction of kiln frame (1), described exhaust column (5) can be divided into several independent pipeline sections independently controlling this heat-exchange tube (4) air quantity or indefinite extension pipeline section that is corresponding and that be consistent in this kiln frame (1) that longitudinally length direction infinitely extends layout simultaneously.