CN203203357U

CN203203357U - Energy-saving drier with jet system and infrared system

Info

Publication number: CN203203357U
Application number: CN 201220609882
Authority: CN
Inventors: 王兆进
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-11-19
Filing date: 2012-11-19
Publication date: 2013-09-18
Anticipated expiration: 2022-11-19

Abstract

The utility model discloses an energy-saving drier with a jet system and an infrared system. A left jet system (2) at the top of a left drying box (1) is opposite to a left material conveying belt (3) at the bottom of the left drying box (1), a right jet system (5) at the top of a right drying box (4) is opposite to a right material conveying belt (6) at the top of the right drying box (4), an infrared radiation system (8) at the upper part of the inner cavity of a middle drying box (7) is corresponding to a middle material conveying belt (9) at the bottom of the middle drying box (7), a conveying channel I is arranged between the left drying box (1) and the left side of the middle drying box (7), the left material conveying belt (3) is connected with the left side of the middle material conveying belt (9) after passing through the conveying channel I, a conveying channel II is arranged between the right drying box (4) and the left side of the middle drying box (7), and the right side of the middle material conveying belt (9) is connected with the right material conveying belt (6) after passing through the conveying channel II.

Description

A kind of energy-saving drying device with fluidic system and infrared system

Technical field

The utility model relates to a kind of energy-saving drying device with fluidic system and infrared system.

Background technology

Existing drying mode is independent infrared radiation drying, the dry or infrared+jet drying of independent jet, and these modes have the material of requirement inapplicable for baking temperature and rate of drying, have dry excessive, dry deficiency or the too high problem of energy consumption.

The utility model content

The utility model provides a kind of energy-saving drying device with fluidic system and infrared system, and it not only can be dried effectively, and unlikely drying is excessive again, fully conserve energy.

The utility model has adopted following technical scheme: a kind of energy-saving drying device with fluidic system and infrared system, it comprises left jet drier and right jet drier, left side jet drier mainly comprises left drying box, be provided with left fluidic system at the top of left drying box, be provided with left material conveyer belt in the bottom of left drying box, left side fluidic system is relative with left material conveyer belt, right jet drier mainly comprises right drying box, be provided with right fluidic system at the top of right drying box, be provided with right material conveyer belt in the bottom of right drying box, right fluidic system is relative with right material conveyer belt, between left jet drier and right jet drier, be provided with middle part infrared radiation drying device, described middle part infrared radiation drying device mainly comprises the middle part drying box, top at middle part drying box inner chamber is provided with the infra-red radiation system, be provided with middle part material conveyer belt in the bottom of middle part drying box, the infra-red radiation system is corresponding with middle part material conveyer belt, between the left side of left drying box and middle part drying box, be provided with the transfer passage I, left side material conveyer belt passes the transfer passage I and is connected with the left side of middle part material conveyer belt, be provided with the transfer passage II between the left side of middle part drying box and right drying box, the right side of middle part material conveyer belt is passed the transfer passage II and is connected with right material conveyer belt.

The nozzle that described left fluidic system is set to is circle or slit-type jet pipe.The inner surface at described left drying box top is provided with the heat-insulation layer I.The nozzle of described right fluidic system is circle or slit-type jet pipe.The inner surface at described right drying box top is provided with the heat-insulation layer II.Described infra-red radiation system is set to infrared ray beta radiation device.

The utlity model has following beneficial effect: the middle part infrared radiation drying device that the utility model is provided with, because middle part infrared radiation drying device constantly evaporates heat absorption with surface moisture in the material, material surface temperature is reduced, cause material internal temperature specific surface temperature height, make the thermal diffusion direction of material by outward interior like this.Simultaneously, owing to existing the gradation of moisture to cause that moisture moves in the material, always spread to the less outside of moisture by the more inside of moisture.So the wet diffusion of material internal moisture is consistent with the thermal diffusion direction, thereby also just accelerate the process of moisture diffusion, also namely accelerated dry process.The left jet drier that the utility model is provided with and right jet drier, because the thermal current of left jet drier and the ejection of right jet drier has very high speed, when it impacts wet stock surperficial, the boundary layer that produces between air-flow and the material surface is extremely thin, heat transfer coefficient will exceed several times than common heated-air drying, thereby shortened drying time greatly, improve rate of drying.The utility model combines left jet drier, right jet drier with middle part infrared radiation drying device, adopt infrared, jet more earlier like this, and last infrared method can effectively be dried, and unlikely drying is excessive again, fully conserve energy.

Description of drawings

Fig. 1 is structural representation of the present utility model.

The specific embodiment

In Fig. 1, the utility model provides a kind of energy-saving drying device with fluidic system and infrared system, it comprises left jet drier and right jet drier, left side jet drier mainly comprises left drying box 1, be provided with left fluidic system 2 at the top of left drying box 1, the inner surface at drying box 1 top, a left side is provided with heat-insulation layer I 10, the nozzle that left side fluidic system 2 is set to is circle or slit-type jet pipe, be provided with left material conveyer belt 3 in the bottom of left drying box 1, left side fluidic system 2 is relative with left material conveyer belt 3, right jet drier mainly comprises right drying box 4, the inner surface at right drying box 4 tops is provided with heat-insulation layer II 11, be provided with right fluidic system 5 at the top of right drying box 4, the nozzle of right fluidic system 5 is circle or slit-type jet pipe, be provided with right material conveyer belt 6 in the bottom of right drying box 4, right fluidic system 5 is relative with right material conveyer belt 6, between left jet drier and right jet drier, be provided with middle part infrared radiation drying device, described middle part infrared radiation drying device mainly comprises middle part drying box 7, top at middle part drying box 7 inner chambers is provided with infra-red radiation system 8, infra-red radiation system 8 is set to infrared ray beta radiation device, be provided with middle part material conveyer belt 9 in the bottom of middle part drying box 7, infra-red radiation system 8 is corresponding with middle part material conveyer belt 9, between the left side of left drying box 1 and middle part drying box 7, be provided with the transfer passage I, left side material conveyer belt 3 passes the transfer passage I and is connected with the left side of middle part material conveyer belt 9, be provided with the transfer passage II between the left side of middle part drying box 7 and right drying box 4, the right side of middle part material conveyer belt 9 is passed the transfer passage II and is connected with right material conveyer belt 6.

Middle part infrared radiation drying device is the infrared ray that utilizes infrared ray beta radiation device to send, by heated material is absorbed, be converted into heat energy and reach dry purpose, the electromagnetic wave that infrared radiator produces, speed straightline propagation with light arrives dry material, when the intrinsic frequency of hydrone motion in infrared ray tranmitting frequency and the material that is dried is complementary, cause the molecule judder in the material, friction generates heat and arrive dry purpose in the inside of material excitation to take place.

Left side jet drier and right jet drier are to bring into play the effect that accelerating sections has high velocity air after adopting air-flow to enter ejector, with intensified drying process, air-flow enters after the fluidic system and to be directly injected to solid by circle or slit-type jet pipe and to treat that the dry material surface carries out a kind of mode of heat drying.

Claims

1. energy-saving drying device with fluidic system and infrared system, it is characterized in that it comprises left jet drier and right jet drier, left side jet drier mainly comprises left drying box (1), be provided with left fluidic system (2) at the top of left drying box (1), be provided with left material conveyer belt (3) in the bottom of left drying box (1), left side fluidic system (2) is relative with left material conveyer belt (3), right jet drier mainly comprises right drying box (4), be provided with right fluidic system (5) at the top of right drying box (4), be provided with right material conveyer belt (6) in the bottom of right drying box (4), right fluidic system (5) is relative with right material conveyer belt (6), between left jet drier and right jet drier, be provided with middle part infrared radiation drying device, described middle part infrared radiation drying device mainly comprises middle part drying box (7), top at middle part drying box (7) inner chamber is provided with infra-red radiation system (8), be provided with middle part material conveyer belt (9) in the bottom of middle part drying box (7), infra-red radiation system (8) is corresponding with middle part material conveyer belt (9), between the left side of left drying box (1) and middle part drying box (7), be provided with the transfer passage I, left side material conveyer belt (3) passes the transfer passage I and is connected with the left side of middle part material conveyer belt (9), be provided with the transfer passage II between the left side of middle part drying box (7) and right drying box (4), the right side of middle part material conveyer belt (9) is passed the transfer passage II and is connected with right material conveyer belt (6).

2. the energy-saving drying device with fluidic system and infrared system according to claim 1 is characterized in that the nozzle that described left fluidic system (2) is set to is circle or slit-type jet pipe.

3. the energy-saving drying device with fluidic system and infrared system according to claim 1 is characterized in that the inner surface at described left drying box (1) top is provided with heat-insulation layer I (10).

4. the energy-saving drying device with fluidic system and infrared system according to claim 1, the nozzle that it is characterized in that described right fluidic system (5) is circle or slit-type jet pipe.

5. the energy-saving drying device with fluidic system and infrared system according to claim 1 is characterized in that the inner surface at described right drying box (4) top is provided with heat-insulation layer II (11).

6. the energy-saving drying device with fluidic system and infrared system according to claim 1 is characterized in that described infra-red radiation system (8) is set to infrared ray beta radiation device.