CN205245781U - Energy -conserving marching type kiln - Google Patents

Abstract

The utility model discloses an energy -conserving marching type kiln. Wherein, energy -conserving marching type kiln includes the furnace body, sets up at furnace body outlying sealing layer and insulating layer, the sealing layer is in including first sealed shell and the setting that sets up in the outside the inboard sealed shell of second of first sealed shell, the insulating layer sets up between the sealed shell of first sealed shell and second, the setting is in sealed intraformational a plurality of temperature sensor, a plurality of temperature sensor follow warp direction and latitudinal direction to the predetermined distance setting is in order to form a temperature sensor network structure. Through setting up double -deck sealed shell and erectting the insulating layer in the centre, adopt the heat reflection configuration of similar thermos to realize better furnace body sealing and heat preservation effect. And through setting up the temperature sensor network between sealed shell, the damaged position of the sealed shell of demonstration that can be rapid, timely the repairing the furnace body of operating personnel of being convenient for improves the utilization efficiency of heating furnace.

Description

A kind of energy-conservation step-by-step movement kiln

Technical field

The utility model relates to technical field of industrial furnaces, relates in particular to a kind of energy-conservation step-by-step movement kiln.

Background technology

Industrial furnace or Industrial Stoves are burnings of utilizing fuel provides the industrial equipment of heat for workpiece processing. Along with the development of China's industrial level, the quantity of industry cellar for storing things stove also presents fulminant growth, and the energy of consumption occupies very large ratio in the industrial total energy consumption in the whole nation.

Conventional Industrial Stoves can be divided into cycle stove and continuous furnace according to thermal regulation. The temperature control within the different processing periods of periodic stove is not identical, and whole heating process is produced in the mode of periodic, includes various bell furnaces, shaft furnace etc. Continuous furnace is made up of several parts such as preheating section, bringing-up section and soaking zones conventionally. The temperature of each part remains unchanged, and workpiece is processed by various piece successively, typically includes walking beam furnace, and push-down adds stove etc.

But in existing walking beam furnace, the outer surface structure effect of heat insulation of body of heater is not good, and easily there are various breakages in the peripheral structure of body of heater, causes cold air to suck and affect greatly the thermal efficiency of heating furnace. The damaged investigation of said structure need to be used special temperature measurement tool and heating furnace be carried out to comprehensive investigation and can realize, and in actual heating furnace use procedure, cannot carry out.

In addition, walking beam furnace need to arrange multiple watch window and ensure the temperature of each section (each several part) on body of heater, the arranging of above-mentioned watch window can cause in body of heater, needing to excavate multiple through holes, affect the sealing of body of heater, cause body of heater heat loss, the problems such as cold air suction, are not easy to the raising of the thermal efficiency of heating furnace.

Therefore, prior art need development.

Summary of the invention

In view of above-mentioned the deficiencies in the prior art part, the purpose of this utility model is to provide a kind of energy-conservation step-by-step movement kiln, is intended to solve the peripheral damaged investigation that is difficult for of stepped heating furnace body in prior art, and body of heater watch window arranges the problem that affects sealing.

In order to achieve the above object, the utility model has been taked following technical scheme:

A kind of energy-conservation step-by-step movement kiln, wherein, described energy-conservation step-by-step movement kiln comprises body of heater, is arranged on sealant and the thermal insulation layer of body of heater periphery;

Described sealant comprises the first capsul outside being arranged on and is arranged on the second capsul of described the first capsul inner side;

Described thermal insulation layer is arranged between described the first capsul and the second capsul;

Be arranged on the some temperature sensors in described sealant;

Described some temperature sensors, along warp-wise and broadwise, form a temperature sensor network structure with preset distance setting.

Described energy-conservation step-by-step movement kiln, wherein, described thermal insulation layer is that thickness is the aeroge carpet veneer of 4mm.

Described energy-conservation step-by-step movement kiln, wherein, is also provided with some observation through holes and is arranged on the closure valve of observing on through hole on described body of heater;

The setting of described observation through hole is symmetricly set on 2/3rds At The Heights of body of heater, and each side arranges 5; Described observation through hole joins by an optical amplifier structure and described the first capsul;

Described optical amplifier structure comprises the linkage section that passes through described sealant, the objective end being connected with described observation through hole and the eyepiece end joining with described the first capsul; The multiplication factor of described eyepiece end and objective end is 5 times.

Described energy-conservation step-by-step movement kiln, wherein, is provided with by-pass valve control unlatching or closed magnetic valve on described closure valve;

For receiving the control panel of user instruction, described control panel is connected with described magnetic valve, controls magnetic valve action.

Described energy-conservation step-by-step movement kiln, wherein, described the first capsul inner side is provided with some bar shaped projections, is provided with the groove corresponding with described bar shaped projection on described the second capsul; Described temperature sensor is arranged in described groove.

Beneficial effect: the energy-conservation step-by-step movement kiln of one that the utility model provides, by double-deck capsul being set and being erected at middle thermal insulation layer, adopts the reflect heat structure of similar vacuum flask to realize better furnace sealing and heat insulation effect. And by being arranged on the temperature sensor network between capsul, can show rapidly the damage location of capsul, convenient operation personnel repair body of heater timely, improves the utilization ratio of heating furnace.

Brief description of the drawings

Fig. 1 is the structural representation of the energy-conservation step-by-step movement kiln of the utility model specific embodiment.

Fig. 2 is the partial structurtes schematic diagram of the sealant of the energy-conservation step-by-step movement kiln of the utility model specific embodiment.

Detailed description of the invention

The utility model provides a kind of energy-conservation step-by-step movement kiln. For making the purpose of this utility model, technical scheme and effect clearer, clear and definite, developing simultaneously referring to accompanying drawing, the present invention is described in more detail for embodiment. Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figures 1 and 2, be the energy-conservation step-by-step movement kiln of one of the utility model specific embodiment. Wherein, described energy-conservation step-by-step movement kiln comprises: body of heater 100, is arranged on sealant 200, temperature sensor 300 and the thermal insulation layer 400 of body of heater periphery.

Described sealant 200 comprises the first capsul 210 outside being arranged on and is arranged on the second capsul 220 of described the first capsul inner side.

Described thermal insulation layer 400 is arranged between described the first capsul 210 and the second capsul 220. Said structure arranges and forms a sandwich, similar with the heat preservation sandwich layer structure of vacuum flask. This structure has the reflect heat effect of good body of heater, thereby reduces scattering and disappearing of furnace body temperature. And sealing property is better, be not easy to occur that the situation that cold wind sucks occurs.

Some temperature sensors 300 are arranged in described sealant 200, and along warp-wise and broadwise (warp-wise with dimension to mutually vertical), form a temperature sensor network structure with preset distance setting. Also by some temperature sensors with fenestral fabric in body of heater peripheral disposition. The concrete temperature sensor quantity using can be determined according to the situation such as actual size, mesh-density of body of heater.

In the time there is breakage in capsul, the situation that damage location will there will be cold wind to suck. Corresponding, will there is marked change in the detected temperatures of the temperature sensor closing on. According to more existing conventional location recognition methods of distribution or other fingerprint network identification etc. of the variations in temperature intensity of temperature sensor network, can calculate the damage location that obtains capsul, thereby convenient operation personnel keep in repair timely to capsul, avoid the thermal efficiency of heating furnace to decline.

Concrete, described thermal insulation layer is that thickness is the aeroge carpet veneer of 4mm. When adopting the aeroge carpet veneer of above-mentioned thickness to realize effect preferably, take into account the demand of cost, substitute the vacuum heat-insulating layer in vacuum flask structure. The thermal conductivity factor of aeroge carpet veneer is lower, and heat absorption is few, lays facility and can be good at substituting vacuum heat-preserving.

In specific embodiment of the utility model, on described body of heater, be also provided with some observation through holes 500 and be arranged on the closure valve of observing on through hole.

Described observation through hole 500 arranges 2/3rds At The Heights that are symmetricly set on body of heater, and each side arranges 5. Described observation through hole 500 joins by an optical amplifier structure and described the first capsul.

Described optical amplifier structure specifically comprises the linkage section that passes through described sealant, the objective end being connected with described observation through hole and the eyepiece end joining with described the first capsul; The multiplication factor of described eyepiece end and objective end is 5 times.

The most applicable operating personnel of multiplication factor that are set to 5 times observe. Excessive multiplication factor in fact and be unfavorable for that operating personnel carry out overall observation.

Described optical amplifier structure specifically can adopt and the similar structure of magnifying glass, and scioptics group, amplifies image so that observe. In through hole, image is objective end, the enlarged image that eyepiece end is objective end.

Above-mentioned rational peep hole structure arranges, and can reduce the impact of peep hole for furnace sealing, and adopts optical amplifier structure can further dwindle the pore size of peep hole, farthest reduces the impact on body of heater.

Concrete, on described closure valve, be provided with that by-pass valve control is opened or closed magnetic valve and for receiving the control panel of user instruction.

Described control panel is connected with described magnetic valve, controls magnetic valve action. In actual use, user can be according to actual service condition, is realized for the unlatching of closure valve or is closed by control panel, can close the peep hole of use not and further improve insulation and the sealing property of body of heater.

Preferably, described the first capsul 210 inner sides are provided with some bar shaped projections, on described the second capsul 220, are provided with the groove corresponding with described bar shaped projection. Described temperature sensor 300 is arranged in described groove. The above-mentioned projection matching and groove are set and can be convenient to the layout of temperature sensor network, ensure the accuracy that sensing station arranges.

Be understandable that; for those of ordinary skills; can be equal to replacement or change according to the technical solution of the utility model and the utility model design, and all these changes or replacement all should belong to the protection domain of the appended claim of the utility model.

Claims (5)

1. an energy-conservation step-by-step movement kiln, is characterized in that, described energy-conservation step-by-step movement kiln comprises body of heater,Be arranged on sealant and the thermal insulation layer of body of heater periphery;

Described sealant comprises the first capsul outside being arranged on and is arranged in described the first capsulThe second capsul of side;

Described thermal insulation layer is arranged between described the first capsul and the second capsul;

Be arranged on the some temperature sensors in described sealant;

Described some temperature sensors, along warp-wise and broadwise, form a temperature sensor with preset distance settingNetwork structure.

2. energy-conservation step-by-step movement kiln according to claim 1, is characterized in that, described thermal insulation layer isThickness is the aeroge carpet veneer of 4mm.

3. energy-conservation step-by-step movement kiln according to claim 1, is characterized in that, on described body of heater, goes backBe provided with some observation through holes and be arranged on the closure valve of observing on through hole;

The setting of described observation through hole is symmetricly set on 2/3rds At The Heights of body of heater, and each side arranges 5;Described observation through hole joins by an optical amplifier structure and described the first capsul;

Described optical amplifier structure comprises the linkage section that passes through described sealant, is connected with described observation through holeObjective end and the eyepiece end joining with described the first capsul; The multiplication factor of described eyepiece end and objective endIt is 5 times.

4. energy-conservation step-by-step movement kiln according to claim 3, is characterized in that described closure valveOn be provided with that by-pass valve control is opened or closed magnetic valve;

For receiving the control panel of user instruction, described control panel is connected with described magnetic valve, controls electricityMagnet valve action.

5. energy-conservation step-by-step movement kiln according to claim 1, is characterized in that, described the first sealingShell inner side is provided with some bar shaped projections, is provided with corresponding with described bar shaped projection on described the second capsulGroove; Described temperature sensor is arranged in described groove.