CN105674297A

CN105674297A - Blanking system with constant-temperature control function

Info

Publication number: CN105674297A
Application number: CN201610162482.XA
Authority: CN
Inventors: 李启仁; 曹文波; 明永刚; 舒志强
Original assignee: Anhui Weiming Biological Environmental Protection Co Ltd
Current assignee: Anhui Weiming Biological Environmental Protection Co Ltd
Priority date: 2016-03-21
Filing date: 2016-03-21
Publication date: 2016-06-15

Abstract

The invention discloses a blanking system with a constant-temperature control function. The blanking system comprises a combustion cavity, a first detection device, a second detection device, a blanking device and a control device, wherein a charge port for charge is arranged in the top of the combustion cavity, and a blanking port for blanking is arranged in the bottom of the combustion cavity; the first detection device is used for detecting a temperature value T1 at a first position in the combustion cavity; the second detection device is used for detecting a temperature value T2 at a second position in the combustion cavity; the blanking device is used for starting or stopping working according to an instruction of the control device; the control device is in communication connection with the first detection device, the second detection device and the blanking device; an ideal temperature difference value t is preset in the control device, and the control device is used for obtaining T1 and T2 trough the first detection device and the second detection device, and calculating an actual temperature difference value T according to T1 and T2; and the control device is used for calculating an error value X according to the ideal temperature difference value t and the actual temperature difference value T, and controlling the blanking device to work according to the error value X.

Description

A kind of thermostatic control blanking system

Technical field

The present invention relates to technical field of garbage disposal equipment, particularly relate to a kind of thermostatic control blanking system.

Background technology

Along with the quickening of economic development and urbanization, the quantity that annual domestic waste produces is multiplied. The traditional approach of garbage disposal is to build refuse landfill, is filled by rubbish. There is many drawbacks in this mode, first takies a large amount of soil exactly to build landfill yard, and soil is non-renewable resource, and land resource is pretty nervous; Second, after the material such as large amount of organic and battery enters landfill yard, the poisonous percolate of its generation will bring severe contamination to soil and groundwater, consider from the angle of environmental protection, have to set up that percolate from garbage filling field is impermeable, collection processing system implementing, this difficulty that will develop skill, also increases investment simultaneously, fills complicated operation, manage also highly difficult, additionally, the waste gas such as the methane of landfill yard, hydrogen sulfide also must be handled well, to guarantee explosion-proof and environmental requirement; Its three, a large amount of dumpings are in landfill yard, and the matter and energy wherein contained cannot be obtained by, and according to the viewpoint of recycling economy, this is also a kind of wasting of resources. Because landfill has such drawback, seldom adopt in this simple process mode of developed country at present.

Compared with landfill disposal, waste incineration is a kind of processing method preferably. By burning, not only the volume of rubbish is greatly reduced, and after conventional rubbish burns, volume can reduce 80%, and can utilize the heat generating of burning generation, heat supply, reaches the purpose of energy regenerating, and the lime-ash after burning can brickmaking. Component of refuse is complicated, and wherein various combustibles have different density, shape, chemical property, catch fire and combustion characteristics, make them present different burning velocities and tail-off time in incinerator, thus are difficult to control to combustion process and ensure sufficient combustion.

Summary of the invention

Based on the technical problem that background technology exists, the present invention proposes a kind of thermostatic control blanking system.

It should be noted that in technical scheme proposed by the invention, primary importance represents in combustion, in combustion chamber body, carry out the position of oxidation reaction;The second position refers in combustion, carries out the position of reduction reaction in combustion chamber body.

The thermostatic control blanking system that the present invention proposes, it is characterised in that including: burning cavity, the first detecting device, second detection device, doffer and control device;

Burning cavity top has the charging aperture for charging, and burning cavity bottom has the blanking port for blanking;

First detecting device, for detecting the temperature value T1 of primary importance in combustion chamber body;

Second detection device, for detecting the temperature value T2 of the second position in combustion chamber body;

Doffer, the instruction according to controlling device starts or quits work;

Control device, be connected with the first detecting device, second detection device and doffer communication;

Control in device, to be preset with desirable temperature approach t, control device and obtain T1 and T2 by the first detecting device, second detection device, and calculate actual temperature approach T according to T1 and T2; Control device according to desirable temperature approach t and actual temperature approach T, calculate error amount X, and control doffer work according to above-mentioned error amount X;

Wherein, X=T-t.

Preferably, doffer includes control valve and speed measuring equipment; Control valve is located at blanking port place and regulates the blanking speed of blanking port according to control unit instruction; Speed measuring equipment, for detecting the blanking speed of blanking port, controls device and obtains above-mentioned blanking velocity information by above-mentioned speed measuring equipment.

Preferably, control to be preset with the first difference X in device₁, the second difference X₂, the first blanking speed V₁, the second blanking speed V₂If, X >=X₁, control device control and regulation valve event, blanking speed become V₂; If X≤X₂, control device control and regulation valve event, blanking speed become V₁; Wherein, X₁>X₂, V₁>V₂。

Preferably, X₁> 0 ,-50≤X₂<0。

Preferably, if T=0, control device control and regulation valve event, blanking speed is become (V₁+V₂)/2。

Preferably, described speed measuring equipment adopts solid flowmeter.

Preferably, the first detecting device and second detection device are infrared sensor, and multiple infrared sensor is uniformly evenly arranged along combustion chamber height direction.

The present invention is provided with the first detecting device, second detection device, doffer and control device, and the first detecting device, for detecting the temperature value T1 of primary importance in combustion chamber body; Second detection device, for detecting the temperature value T2 of the second position in combustion chamber body; Doffer is according to the instruction works controlling device; Control device, be connected with the first detecting device, second detection device and doffer communication; Control in device, to be preset with desirable temperature approach t, control device and obtain T1 and T2 by the first detecting device, second detection device, and calculate actual temperature approach T according to T1 and T2; Control device according to desirable temperature approach t and actual temperature approach T, calculate error amount X, and control doffer work according to above-mentioned error amount X; Based on above-mentioned mentality of designing, using profiling temperatures as the information of control, make use of in combustion chamber body cleverly, the rubbish of diverse location owing to having the characteristic of different temperature through heat treatment time difference; When burning is in perfect condition, the rubbish of ad-hoc location has specific temperature value, it is hereby achieved that the profiling temperatures belonged under ideal burning state, and this profiling temperatures is defaulted in control device; Further, control device and obtain T1 and T2 by the first detecting device, second detection device, and calculate actual temperature approach T according to T1 and T2;Control device according to desirable temperature approach t and actual temperature approach T, calculate error amount X; Control to be preset with the first difference X in device₁, the second difference X₂, when X >=X occurs₁Time, illustrate in the Actual combustion process of burning cavity, the temperature value of primary importance is less than the temperature value controlling above-mentioned position default in device, show rubbish from enter burning cavity to move so far position time time of consuming shorter, would be likely to occur the problem that burning is insufficient, therefore, for making incineration firing more thorough, and the thermal source in combustion chamber body can be utilized more fully, need to lower the blanking speed of burning cavity, after control device receives this information, instruction control and regulation valve event, to reduce blanking speed, lengthen the rubbish time of staying in combustion chamber body, rubbish is made to make full use of the thermal source in combustion chamber body, when X≤X occurs₂Time, show in Actual combustion process, the temperature value that the temperature value of primary importance is corresponding more than controlling above-mentioned position default in device, the overlong time that rubbish burns in combustion chamber body is described, would be likely to occur ashes in combustion chamber body and pile up too high problem, therefore, for reaching more reasonably fired state, the blanking speed of burning cavity should be accelerated, reduce the rubbish time of staying in combustion chamber body, avoid existing ashes in combustion chamber body and pile up too high problem, and the waste of resource energy in the combustion chamber body caused, so that rubbish is in subsequent combustion process, closer to rational fired state, if X=0, illustrate now to arrive perfect condition, control device instruction control and regulation valve event, blanking speed is become (V₁+V₂)/2; So, the present invention can utilize the heat in combustion chamber body more fully, makes burning more reasonable, thus reaching the purpose economized on resources.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of thermostatic control blanking system;

Fig. 2 is the structural representation controlling device.

Detailed description of the invention

As shown in Figure 1 and Figure 2, Fig. 1, Fig. 2 are a kind of thermostatic control blanking system that the present invention proposes.

With reference to Fig. 1, Fig. 2, the thermostatic control blanking system that the present invention proposes, it is characterised in that including: burning cavity, the first detecting device 2, second detection device 3, doffer and control device;

Burning cavity top has the charging aperture 1 for charging, and burning cavity bottom has the blanking port 6 for blanking;

First detecting device 2, for detecting the temperature value T1 of primary importance in combustion chamber body;

Second detection device 3, for detecting the temperature value T2 of the second position in combustion chamber body;

Doffer, the instruction according to controlling device starts or quits work;

Control device, be connected with the first detecting device 2, second detection device 3 and doffer communication;

Control in device, to be preset with desirable temperature approach t, control device and obtain T1 and T2 by the first detecting device 2, second detection device 3, and calculate actual temperature approach T according to T1 and T2; Control device according to desirable temperature approach t and actual temperature approach T, calculate error amount X, and control doffer work according to above-mentioned error amount X;

Wherein, X=T-t.

In present embodiment, doffer includes control valve 4 and speed measuring equipment; Control valve 4 is located at blanking port 6 place and regulates the blanking speed of blanking port 6 according to control unit instruction; Speed measuring equipment adopts solid flowmeter 5, and the blanking speed control unit for detecting blanking port 6 place obtains above-mentioned blanking velocity information by above-mentioned speed measuring equipment; First detecting device 2 and second detection device 3 are infrared sensor, and multiple infrared sensor is uniformly evenly arranged along combustion chamber height direction.

Control to be preset with the first difference X in device₁, the second difference X₂, the first blanking speed V₁, the second blanking speed V₂If, X >=X₁, control device control and regulation valve 4 action, blanking speed become V₂; If X≤X₂, control device control and regulation valve 4 action, blanking speed become V₁; Wherein, X₁>X₂, V₁>V₂, X₁> 0 ,-50≤X₂<0。

Control device and obtain T1 and T2 by the first detecting device 2, second detection device 3, and calculate actual temperature approach T according to T1 and T2; Control device according to desirable temperature approach t and actual temperature approach T, calculate error amount X; Control to be preset with the first difference X in device₁, the second difference X₂, when X >=X occurs₁Time, illustrate in the Actual combustion process of burning cavity, the temperature value of primary importance is less than the temperature value controlling above-mentioned position default in device, show rubbish from enter burning cavity to move so far position time time of consuming shorter, would be likely to occur the problem that burning is insufficient, therefore, for making incineration firing more thorough, and the thermal source in combustion chamber body can be utilized more fully, need to lower the blanking speed of burning cavity, after control device receives this information, instruction control and regulation valve 4 action, to reduce blanking speed, lengthen the rubbish time of staying in combustion chamber body, rubbish is made to make full use of the thermal source in combustion chamber body, when X≤X occurs₂Time, show in Actual combustion process, the temperature value that the temperature value of primary importance is corresponding more than controlling above-mentioned position default in device, the overlong time that rubbish burns in combustion chamber body is described, would be likely to occur ashes in combustion chamber body and pile up too high problem, therefore, for reaching more reasonably fired state, the blanking speed of burning cavity should be accelerated, reduce the rubbish time of staying in combustion chamber body, avoid existing ashes in combustion chamber body and pile up too high problem, and the waste of resource energy in the combustion chamber body caused, so that rubbish is in subsequent combustion process, closer to rational fired state, if X=0, illustrate now to arrive perfect condition, control device instruction control and regulation valve 4 action, blanking speed is become (V₁+V₂)/2; So, it is possible to decrease the amplitude of variation of blanking speed, make combustion process close to perfect condition, so that burning is more reasonable, it is to avoid the waste of resource.

The above; it is only the present invention preferably detailed description of the invention; but protection scope of the present invention is not limited thereto; any those familiar with the art is in the technical scope that the invention discloses; it is equal to replacement according to technical scheme and inventive concept thereof or is changed, all should be encompassed within protection scope of the present invention.

Claims

1. a thermostatic control blanking system, it is characterised in that including: burning cavity, the first detecting device (2), second detection device (3), doffer and control device;

Burning cavity top has the charging aperture (1) for charging, and burning cavity bottom has the blanking port (6) for blanking;

First detecting device (2), for detecting the temperature value T1 of primary importance in combustion chamber body;

Second detection device (3), for detecting the temperature value T2 of the second position in combustion chamber body;

Doffer, the instruction according to controlling device starts or quits work;

Control device, be connected with the first detecting device (2), second detection device (3) and doffer communication;

Control in device, to be preset with desirable temperature approach t, control device and obtain T1 and T2 by the first detecting device (2), second detection device (3), and calculate actual temperature approach T according to T1 and T2;Control device according to desirable temperature approach t and actual temperature approach T, calculate error amount X, and control doffer work according to above-mentioned error amount X;

Wherein, X=T-t.

2. thermostatic control blanking system according to claim 1, it is characterised in that doffer includes control valve (4) and speed measuring equipment; Control valve (4) is located at blanking port (6) place and regulates the blanking speed of blanking port (6) according to control unit instruction; Speed measuring equipment is used for detecting the blanking speed of blanking port (6), controls device and obtains above-mentioned blanking velocity information by above-mentioned speed measuring equipment.

3. thermostatic control blanking system according to claim 2, it is characterised in that control to be preset with the first difference X in device₁, the second difference X₂, the first blanking speed V₁, the second blanking speed V₂If, X >=X₁, control device control and regulation valve (4) action, blanking speed become V₂; If X≤X₂, control device control and regulation valve (4) action, blanking speed become V₁; Wherein, X₁>X₂, V₁>V₂。

4. thermostatic control blanking system according to claim 3, it is characterised in that X₁> 0 ,-50≤X₂<0。

5. thermostatic control blanking system according to claim 2, it is characterised in that if X=0, control device control and regulation valve (4) action, blanking speed is become (V₁+V₂)/2。

6. the thermostatic control blanking system according to any one of claim 2-5, it is characterised in that described speed measuring equipment adopts solid flowmeter (5).

7. thermostatic control blanking system according to claim 1, it is characterized in that, first detecting device (2) and second detection device (3) are infrared sensor, and multiple infrared sensor is uniformly evenly arranged along combustion chamber height direction.