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Industrial energy-saving kiln for ceramic product firing

A ceramic product and industrial technology, applied in the field of industrial energy-saving kilns for firing ceramic products, can solve the problems of wasting working hours and heat energy, and achieve the effects of improving work efficiency, increasing sealing effect, and improving heat energy utilization

Inactive Publication Date: 2021-10-08
黄永红
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Traditional energy-saving kilns cycle heat energy repeatedly and only convert static heat energy into dynamic heat energy. As we all know, ceramic products need three stages when firing. If a single kiln is simply used for firing, preheating and cooling Wastes man-hours and heat

Method used

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  • Industrial energy-saving kiln for ceramic product firing
  • Industrial energy-saving kiln for ceramic product firing
  • Industrial energy-saving kiln for ceramic product firing

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] Such as Figure 1-Figure 8 As shown, an industrial energy-saving kiln for firing ceramic products includes a heat preservation mechanism 1, a transmission mechanism 2, a partition mechanism 3, and a lifting mechanism 4. A temperature transmission mechanism 5 is arranged on the front side of the heat preservation mechanism 1, and a There is a partition mechanism 3, the upper end of the partition mechanism 3 is connected to the lifting mechanism 4, the transmission mechanism 2 traverses the heat preservation mechanism 1, and the inner bottom surface of the transmission mechanism 2 and the heat preservation mechanism 1 is equipped with a power mechanism 6;

[0051] The heat preservation mechanism 1 includes a preheating box 11, a firing box 12, a cooling box 13, and a circulation pipeline 14. The firing box 12 is provided with a preheating box 11 on one side, and the other side of the firing box 12 is provided with a cooling box 13. Inside the box 11, the firing box 12, an...

Embodiment 2

[0058] Such as Figure 9 , the difference between this embodiment and embodiment 1 is:

[0059] The lifting mechanism 4 comprises a lifting stud 411, a lifting screw cylinder 412, a lifting transmission chain wheel group 413, and a lifting motor 414. The lifting stud 411 is connected to the upper end of the lifting seat 36, and the upper end of the lifting stud 411 is connected to the lifting screw cylinder 412, and the lifting screw cylinder The outside of 412 is connected to the lifting motor 414 through the lifting conductive sprocket set 413. When the sealing plate 32 needs to be raised, the lifting motor 414 is started to drive the lifting screw cylinder 412 to rotate through the lifting conductive sprocket set 413, so that the lifting screw cylinder 412 cooperates with the lifting screw. column 411, so that the lifting stud 411 drives the sealing plate 32 to lift.

[0060] Working principle: Place the embryos to be fired on the transport vehicle 23, start the transmissi...

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Abstract

The invention discloses an industrial energy-saving kiln for ceramic product firing. The industrial energy-saving kiln comprises heat preservation mechanisms, a conveying mechanism, a partition mechanism and a lifting mechanism. A temperature conduction mechanism is arranged on the front side of each heat preservation mechanism. The partition mechanism is arranged between the heat preservation mechanisms. The upper end of the partition mechanism is connected with the lifting mechanism. The conveying mechanism transversely penetrates through the heat preservation mechanisms. According to the industrial energy-saving kiln, through the partition mechanism and the lifting mechanism, a lifting base is matched with two limiting columns when descending, a sealing plate horizontally moves towards one side of a sealing opening, and the sealing effect is improved; when ascending, the sealing plate contracts towards the inner side, and lifting is facilitated; through cooperation of the conveying mechanism and a power mechanism and cooperative conveying of guide rails in the heat preservation mechanisms, three stages of an assembly line are utilized for simultaneous machining, and the work efficiency is improved; and through the temperature conduction mechanisms, heat energy in a firing box is transferred into a preheating box for drying and preheating, the heat energy is transferred into a cooling box for slow cooling, the heat can be sufficiently utilized in the firing box for firing, the heat energy utilization rate is increased, and more energy is saved.

Description

technical field [0001] The invention relates to the field of firing ceramic products, in particular to an industrial energy-saving kiln for firing ceramic products. Background technique [0002] An industrial kiln is a device made of refractory materials to calcine materials or burn products. A kiln is defined as a device that enables products to complete a certain temperature curve, atmosphere curve, and pressure curve coupled processing. Kilns are roughly divided into box type, well type, shuttle type, mesh belt type, rotary type, kiln car type, push plate type tunnel resistance furnace. [0003] Traditional energy-saving kilns cycle heat energy repeatedly and only convert static heat energy into dynamic heat energy. As we all know, ceramic products need three stages when firing. If a single kiln is simply used for firing, preheating and cooling Man-hours and heat energy will be wasted. Contents of the invention [0004] The object of the present invention is to provid...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F27B9/02F27B9/12F27B9/26F27B9/30F27B9/36
CPCF27B9/028F27B9/12F27B9/262F27B9/30F27B9/36F27B2009/122F27B2009/126F27M2001/1504Y02P40/60
Inventor 黄永红
Owner 黄永红