CN113803721A - Low-nitrogen combustion garbage incinerator and combustion method - Google Patents

Abstract

The invention relates to the technical field of garbage incineration, in particular to a garbage incinerator with low nitrogen combustion and a combustion method.

Description

Low-nitrogen combustion garbage incinerator and combustion method

Technical Field

The invention relates to the technical field of waste incineration, in particular to a low-nitrogen combustion waste incinerator and a combustion method.

Background

At present, the garbage incineration is a better treatment mode for treating the household garbage, and through the incineration, the garbage volume is greatly reduced, and meanwhile, the heat generated by the incineration can be utilized for generating electricity and supplying heat, so that the purpose of recycling energy is achieved.

The mode of waste incineration is to throw in rubbish and burn on the grate of burning furnace, because constantly there is rubbish to enter into the grate at the incineration process, and then lead to just entering rubbish to put out the flame of the rubbish of burning on the grate, and then lead to rubbish not to burn completely at the incineration process to influence waste incineration efficiency.

Disclosure of Invention

The invention aims to provide a low-nitrogen combustion garbage incinerator and a combustion method, and aims to solve the technical problem that garbage continuously enters a grate in the incineration process in the prior art, so that the newly entered garbage extinguishes the flame of the garbage combusted on the grate, and the garbage is not completely combusted in the incineration process, so that the garbage incineration efficiency is influenced.

In order to achieve the purpose, the low-nitrogen combustion garbage incinerator comprises a furnace body, a conveying device, a transfer device and a combustion device;

the conveying device comprises a conveying grate and a conveying grate driving component, and the conveying grate and the furnace body slide through the conveying grate driving component and are arranged on one side of the furnace body;

the transfer device comprises a transfer grate and a transfer grate driving component, the transfer grate and the furnace body slide through the transfer grate driving component and are arranged on one side of the furnace body close to the transfer grate;

the combustion device comprises a combustion grate and a combustion grate driving assembly, the combustion grate and the furnace body slide through the combustion grate driving assembly, and the combustion grate and the furnace body are arranged on one side, close to the transfer grate, of the furnace body.

The conveying grate driving assembly comprises a conveying driving wheel, a conveying driven wheel and a conveying driving motor, wherein the conveying driving wheel is rotatably connected with the furnace body, is rotatably connected with the conveying grate and is positioned on one side of the furnace body close to the conveying grate; the transmission driven wheel is rotationally connected with the furnace body, rotationally connected with the transmission grate and positioned on one side of the transmission grate far away from the transmission driving wheel; the transmission driving motor is arranged on the furnace body, and an output shaft of the transmission driving motor is connected with the transmission driving wheel.

The transfer fire grate driving assembly comprises a transfer driving wheel, a transfer driven wheel and a transfer driving motor, wherein the transfer driving wheel is rotatably connected with the furnace body, is rotatably connected with the transfer fire grate and is positioned on one side of the furnace body close to the transfer fire grate; the transfer driven wheel is rotationally connected with the furnace body, rotationally connected with the transfer fire grate and positioned on one side of the transfer fire grate, which is far away from the transfer driving wheel; the transfer driving motor is arranged on the furnace body, and an output shaft of the transfer driving motor is connected with the transfer driving wheel.

The combustion grate driving assembly comprises a combustion driving wheel, a combustion driven wheel and a combustion driving motor, wherein the combustion driving wheel is rotatably connected with the furnace body, is rotatably connected with the combustion grate and is positioned on one side of the furnace body close to the combustion grate; the combustion driven wheel is rotatably connected with the furnace body, is rotatably connected with the combustion grate and is positioned on one side of the combustion grate far away from the combustion driving wheel; the combustion driving motor is arranged on the furnace body, and an output shaft of the combustion driving motor is connected with the combustion driving wheel.

The low-nitrogen combustion garbage incinerator further comprises a baffle and an angle adjusting device, wherein the baffle and the incinerator body rotate through the angle adjusting device and are arranged on one side, close to the transfer grate, of the incinerator body.

The angle adjusting device comprises a steering shaft rod and a steering driving motor, wherein the steering shaft rod is fixedly connected with the baffle, is rotatably connected with the furnace body and is positioned on one side of the furnace body close to the steering shaft rod; the steering driving motor is arranged on the furnace body, and an output shaft of the steering driving motor is connected with the steering shaft rod.

The angle adjusting device further comprises a motor support, the motor support is arranged on the furnace body and located on one side, close to the steering driving motor, of the furnace body, and the steering driving motor is placed on the motor support.

The low-nitrogen combustion garbage incinerator also comprises a storage box, wherein the storage box is arranged in the incinerator body and is positioned on one side of the incinerator body close to the combustion grate.

A combustion method of a low-nitrogen combustion garbage incinerator comprises the following steps,

dumping the garbage materials from the upper part of the furnace body;

adjusting the angle of the baffle plate, and enabling the garbage materials to slide from the baffle plate to the conveying grate for incineration;

the conveying grate is driven to run to drive the burnt garbage materials to be conveyed to the transfer grate;

driving the transfer grate to rotate, and driving the burnt garbage materials to be conveyed to the combustion grate;

the running speed of the combustion grate is controlled, and the garbage materials fall into the storage box after being fully combusted.

According to the low-nitrogen combustion garbage incinerator and the combustion method, garbage materials are poured from the upper part of the incinerator body, fall onto the conveying grate to be incinerated, the conveying grate is driven to operate, the combusted garbage materials are driven to be conveyed to the transfer grate, the transfer grate is driven to operate, the combusted garbage materials are driven to be conveyed to the combustion grate, the operating rotating speed of the combustion grate is controlled, the garbage materials are collected after being fully combusted, and therefore the garbage layer can be loosened in the process of conveying the garbage materials, and the garbage materials can be uniformly combusted.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view showing the external structure of a low-nitrogen-burning garbage incinerator according to the present invention.

Fig. 2 is a schematic view of the mounting structure of the transfer grate, transfer grate and combustion grate of the present invention.

Fig. 3 is a schematic structural view of the transfer grate drive assembly, the transfer grate drive assembly and the combustion grate drive assembly of the present invention.

Fig. 4 is a schematic structural diagram of the angle adjusting apparatus of the present invention.

FIG. 5 is a flow chart of the combustion method of the low-nitrogen combustion waste incinerator of the present invention.

In the figure: 1-furnace body, 2-transmission device, 3-transfer device, 4-combustion device, 5-baffle, 6-angle adjusting device, 7-storage box, 21-transmission grate, 22-transmission grate driving component, 31-transfer grate, 32-transfer grate driving component, 41-combustion grate, 42-combustion grate driving component, 61-steering shaft rod, 62-steering driving motor, 63-motor bracket, 221-transmission driving wheel, 222-transmission driven wheel, 223-transmission driving motor, 321-transfer driving wheel, 322-transfer driven wheel, 323-transfer driving motor, 421-combustion driving wheel, 422-combustion driven wheel and 423-combustion driving motor.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 4, the present invention provides a low-nitrogen combustion garbage incinerator, which comprises a furnace body 1, a transmission device 2, a mounting device 3 and a combustion device 4;

the conveying device 2 comprises a conveying grate 21 and a conveying grate driving component 22, the conveying grate 21 and the furnace body 1 slide through the conveying grate driving component 22 and are arranged on one side of the furnace body 1;

the middle loading device 3 comprises a transfer grate 31 and a middle transfer grate driving component 32, wherein the transfer grate 31 and the furnace body 1 slide through the transfer grate driving component 32 and are arranged on one side of the furnace body 1 close to the transfer grate 21;

the combustion device 4 comprises a combustion grate 41 and a combustion grate driving assembly 42, wherein the combustion grate 41 and the furnace body 1 slide through the combustion grate driving assembly 42 and are arranged on one side of the furnace body 1 close to the transfer grate 31.

In this embodiment, the furnace body 1 is an incinerator, the combustion temperature in the incinerator is maintained between 860 ℃ and 1000 ℃, the conveying grate 21 is a garbage conveying device composed of a fixed grate segment, a movable grate segment and a side grate segment, wherein the fixed grate segment, the movable grate segment and the side grate segment are installed on a frame, and the conveying grate 21 is driven by the conveying grate driving assembly 22 to move horizontally, so as to drive garbage on the surface of the grate to move; the transfer grate 31 is a garbage transfer device composed of fixed grate pieces, movable grate pieces and side grate pieces, wherein the fixed grate pieces, the movable grate pieces and the side grate pieces are installed on the frame, the transfer grate 31 is driven to horizontally move by the transfer grate driving assembly 32, the moving direction of the transfer grate 31 is opposite to the moving direction of the transfer grate 21, the installation position of the transfer grate 31 is lower than the installation position of the transfer grate 21 in the furnace body 1, and the transfer grate 31 is installed at the end part of one end of the transfer grate 21 in the transfer direction, so that garbage materials transferred by the transfer grate 21 can be received, and garbage on the surface of the grate is driven to move; the combustion grate 41 is a garbage combustion device composed of fixed grate segments, movable grate segments and side grate segments, wherein the fixed grate segments, the movable grate segments and the side grate segments are installed on the frame, the combustion grate drive assembly 42 drives the combustion grate 41 to move horizontally, the moving direction of the combustion grate 41 is opposite to the moving direction of the transfer grate 21 and is the same as the moving direction of the transfer grate 31, the installation position of the combustion grate 41 is lower than the installation position of the transfer grate 31 in the furnace body 1 and is positioned below the transfer grate 21, the combustion grate 41 is installed at the end part of one end of the transfer grate 31 in the transfer direction, so that garbage materials transferred by the transfer grate 31 can be received and the garbage on the surface of the grate can be driven to move, and thus, the garbage materials are poured into the garbage combustion device from the upper part of the furnace body 1, the garbage materials fall onto the conveying grate 21 to be incinerated, the conveying grate 21 is driven to rotate, the burnt garbage materials are driven to be conveyed to the transfer grate 31, the transfer grate 31 is driven to rotate, the burnt garbage materials are driven to be conveyed to the combustion grate 41, the rotating speed of the combustion grate 41 is controlled, the garbage materials are collected after being sufficiently burnt, and therefore the garbage layers can be loosened in the process of conveying the garbage materials, and the garbage materials can be more uniformly combusted.

Further, referring to fig. 1 and fig. 3, the conveying grate driving assembly 22 includes a conveying driving wheel 221, a conveying driven wheel 222 and a conveying driving motor 223, wherein the conveying driving wheel 221 is rotatably connected to the furnace body 1, is rotatably connected to the conveying grate 21, and is located on one side of the furnace body 1 close to the conveying grate 21; the transmission driven wheel 222 is rotatably connected with the furnace body 1, is rotatably connected with the transmission grate 21, and is positioned on one side of the transmission grate 21 far away from the transmission driving wheel 221; the transmission driving motor 223 is arranged on the furnace body 1, and an output shaft of the transmission driving motor 223 is connected with the transmission driving wheel 221.

In this embodiment, the transmission driving wheel 221 and the transmission driven wheel 222 are respectively installed on two sides of the transmission grate 21, and are rotatably installed on the inner side wall of the furnace body 1 through a bearing and a shaft rod, the transmission driving wheel 221 is driven to rotate through the transmission driving motor 223, so as to drive the transmission grate 21 to move, and meanwhile, the transmission driven wheel 222 is driven to rotate, so as to complete the transmission of the waste material.

Further, referring to fig. 1 and fig. 3, the transfer fire grate driving assembly 32 includes a transfer driving wheel 321, a transfer driven wheel 322 and a transfer driving motor 323, wherein the transfer driving wheel 321 is rotatably connected to the furnace body 1, is rotatably connected to the transfer fire grate 31, and is located at one side of the furnace body 1 close to the transfer fire grate 31; the transfer driven wheel 322 is rotatably connected with the furnace body 1, is rotatably connected with the transfer grate 31, and is positioned on one side of the transfer grate 31 far away from the transfer driving wheel 321; the transfer driving motor 323 is arranged on the furnace body 1, and an output shaft of the transfer driving motor 323 is connected with the transfer driving wheel 321.

In this embodiment, the transfer driving wheel 321 and the transfer driven wheel 322 are respectively installed on two sides of the transfer grate 31, and are rotatably installed on the inner side wall of the furnace body 1 through a bearing and a shaft rod, the transfer driving wheel 321 is driven to rotate by the transfer driving motor 323, so as to drive the transfer grate 31 to move, and simultaneously drive the transfer driven wheel 322 to rotate, thereby completing the transfer of the garbage materials.

Further, referring to fig. 1 and fig. 3, the combustion grate driving assembly 42 includes a combustion driving wheel 421, a combustion driven wheel 422 and a combustion driving motor 423, wherein the combustion driving wheel 421 is rotatably connected with the furnace body 1, is rotatably connected with the combustion grate 41, and is located at one side of the furnace body 1 close to the combustion grate 41; the combustion driven wheel 422 is rotatably connected with the furnace body 1, is rotatably connected with the combustion grate 41, and is positioned on one side of the combustion grate 41 far away from the combustion driving wheel 421; the combustion driving motor 423 is arranged on the furnace body 1, and an output shaft of the combustion driving motor 423 is connected with the combustion driving wheel 421.

In this embodiment, the combustion driving wheel 421 and the combustion driven wheel 422 are respectively installed on two sides of the combustion grate 41, and are rotatably installed on the inner side wall of the furnace body 1 through a bearing and a shaft rod, the combustion driving wheel 421 is driven to rotate by the combustion driving motor 423, so as to drive the combustion grate 41 to move, and simultaneously drive the combustion driven wheel 422 to rotate, thereby completing the transmission of the garbage materials.

Further, referring to fig. 2 to 4, the low-nitrogen combustion garbage incinerator further includes a baffle 5 and an angle adjusting device 6, wherein the baffle 5 and the incinerator body 1 rotate through the angle adjusting device 6, and are disposed at one side of the incinerator body 1 close to the transfer grate 31.

Further, the angle adjusting device 6 comprises a steering shaft rod 61 and a steering driving motor 62, wherein the steering shaft rod 61 is fixedly connected with the baffle 5, is rotatably connected with the furnace body 1, and is positioned on one side of the furnace body 1 close to the steering shaft rod 61; the steering driving motor 62 is arranged on the furnace body 1, and an output shaft of the steering driving motor 62 is connected with the steering shaft rod 61.

Further, referring to fig. 2, the angle adjusting device 6 further includes a motor support 63, the motor support 63 is disposed on the furnace body 1 and is located on a side of the furnace body 1 close to the steering driving motor 62, and the steering driving motor 62 is disposed on the motor support 63.

In this embodiment, the baffle 5 is a rectangular plate, and is rotatably mounted on the inner side wall of the furnace body 1 through the steering shaft rod 61, the steering shaft rod 61 is mounted on the inner side wall of the furnace body 1 through a bearing and a bearing seat, the steering driving motor 62 is mounted on the motor support 63, and a cooling coating is covered on the outer side of the steering driving motor 62, so that the interior of the steering driving motor 62 can keep a normal operating temperature, the steering driving motor 62 drives the output shaft to rotate, and further drives the steering shaft rod 61 and the baffle 5 to rotate, thereby adjusting the angle of the baffle 5.

Further, referring to fig. 2 and fig. 3, the low-nitrogen combustion garbage incinerator further includes a storage bin 7, and the storage bin 7 is disposed in the furnace body 1 and is located at a side of the furnace body 1 close to the combustion grate 41.

In this embodiment, the storage bin 7 is disposed at the bottom of the furnace body 1 and close to the combustion grate 41, and an opening of the storage bin 7 faces one end of the combustion grate 41 in the moving direction, and is configured to receive the garbage materials combusted on the combustion grate 41, so that the garbage materials can be stored in the storage bin 7 after being combusted.

Referring to fig. 5, a combustion method of a low-nitrogen combustion garbage incinerator includes the following steps,

s901: dumping the garbage materials from the upper part of the furnace body 1;

s902: the angle of the baffle 5 is adjusted, and the garbage materials slide down from the baffle 5 to the conveying grate 21 for incineration;

s903: the conveying grate 21 is driven to run to drive the burnt garbage materials to be conveyed to the transfer grate 31;

s904: the transfer grate 31 is driven to rotate, and the burning garbage materials are driven to be conveyed to the burning grate 41;

s905: the rotating speed of the combustion grate 41 is controlled, and the garbage materials fall into the material storage tank 7 after being fully combusted.

In the embodiment, garbage materials are poured from the upper part of the furnace body 1, the angle of the baffle plate 5 is adjusted, the garbage materials slide from the baffle plate 5 to the conveying grate 21 to be burnt, the conveying grate 21 is driven to rotate, the burnt garbage materials are driven to be conveyed to the transfer grate 31, the transfer grate 31 is driven to rotate, the burnt garbage materials are driven to be conveyed to the combustion grate 41, the rotating speed of the combustion grate 41 is controlled, the garbage materials fall into the storage box 7 after being fully burnt, and therefore the garbage layers can be loosened in the process of conveying the garbage materials, and the garbage materials can be burnt more uniformly.

Claims (9)

1. A low-nitrogen combustion garbage incinerator is characterized by comprising a furnace body, a transmission device, a transfer device and a combustion device;

the conveying device comprises a conveying grate and a conveying grate driving component, and the conveying grate and the furnace body slide through the conveying grate driving component and are arranged on one side of the furnace body;

the transfer device comprises a transfer grate and a transfer grate driving component, the transfer grate and the furnace body slide through the transfer grate driving component and are arranged on one side of the furnace body close to the transfer grate;

the combustion device comprises a combustion grate and a combustion grate driving assembly, the combustion grate and the furnace body slide through the combustion grate driving assembly, and the combustion grate and the furnace body are arranged on one side, close to the transfer grate, of the furnace body.

2. The low-nitrogen-burning garbage incinerator according to claim 1,

the conveying grate driving assembly comprises a conveying driving wheel, a conveying driven wheel and a conveying driving motor, the conveying driving wheel is rotatably connected with the furnace body, is rotatably connected with the conveying grate and is positioned on one side of the furnace body close to the conveying grate; the transmission driven wheel is rotationally connected with the furnace body, rotationally connected with the transmission grate and positioned on one side of the transmission grate far away from the transmission driving wheel; the transmission driving motor is arranged on the furnace body, and an output shaft of the transmission driving motor is connected with the transmission driving wheel.

3. The low-nitrogen-burning garbage incinerator according to claim 1,

the transfer fire grate driving assembly comprises a transfer driving wheel, a transfer driven wheel and a transfer driving motor, wherein the transfer driving wheel is rotatably connected with the furnace body, is rotatably connected with the transfer fire grate and is positioned on one side of the furnace body close to the transfer fire grate; the transfer driven wheel is rotationally connected with the furnace body, rotationally connected with the transfer fire grate and positioned on one side of the transfer fire grate, which is far away from the transfer driving wheel; the transfer driving motor is arranged on the furnace body, and an output shaft of the transfer driving motor is connected with the transfer driving wheel.

4. The low-nitrogen-burning garbage incinerator according to claim 1,

the combustion grate driving assembly comprises a combustion driving wheel, a combustion driven wheel and a combustion driving motor, the combustion driving wheel is rotatably connected with the furnace body, is rotatably connected with the combustion grate and is positioned on one side of the furnace body close to the combustion grate; the combustion driven wheel is rotatably connected with the furnace body, is rotatably connected with the combustion grate and is positioned on one side of the combustion grate far away from the combustion driving wheel; the combustion driving motor is arranged on the furnace body, and an output shaft of the combustion driving motor is connected with the combustion driving wheel.

5. The low-nitrogen-burning garbage incinerator according to claim 1,

the low-nitrogen combustion garbage incinerator also comprises a baffle and an angle adjusting device, wherein the baffle and the incinerator body rotate through the angle adjusting device and are arranged on one side of the incinerator body close to the transfer grate.

6. The low-nitrogen-burning garbage incinerator according to claim 5,

the angle adjusting device comprises a steering shaft lever and a steering driving motor, the steering shaft lever is fixedly connected with the baffle, is rotatably connected with the furnace body and is positioned on one side of the furnace body close to the steering shaft lever; the steering driving motor is arranged on the furnace body, and an output shaft of the steering driving motor is connected with the steering shaft rod.

7. The low-nitrogen-burning garbage incinerator according to claim 6,

the angle adjusting device further comprises a motor support, the motor support is arranged on the furnace body and located on one side, close to the steering driving motor, of the furnace body, and the steering driving motor is placed on the motor support.

8. The low-nitrogen-burning garbage incinerator according to claim 1,

the low-nitrogen combustion garbage incinerator also comprises a storage box, wherein the storage box is arranged in the incinerator body and is positioned on one side of the incinerator body close to the combustion grate.

9. A combustion method of a low-nitrogen combustion garbage incinerator is characterized by comprising the following steps,

dumping the garbage materials from the upper part of the furnace body;

adjusting the angle of the baffle plate, and enabling the garbage materials to slide from the baffle plate to the conveying grate for incineration;

the conveying grate is driven to run to drive the burnt garbage materials to be conveyed to the transfer grate;

driving the transfer grate to rotate, and driving the burnt garbage materials to be conveyed to the combustion grate;

the running speed of the combustion grate is controlled, and the garbage materials fall into the storage box after being fully combusted.

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