阅读说明：本技术 一种基于城市生活污水生物质碳化后能量利用率的分析装置 (Analysis device based on energy utilization rate of carbonized urban domestic sewage biomass ) 是由 刘芳 杨帆 郝军停 于 2019-10-14 设计创作，主要内容包括：本发明涉及一种基于城市生活污水生物质碳化后能量利用率的分析装置。无刷电机动力输出轴顶部固定于转轴托盘的圆心位置,所述的转轴托盘一端延伸固定有2-6条分支爪臂,2-6条分支爪臂镜像对称位置延伸固定有主爪臂；所述的分支爪臂、主爪臂末端均设有洞槽,并且在洞槽内均植入有阻尼环；所述的点火槽底部两端各焊接有插棒,所述的点火槽通过插棒插入固定于分支爪臂末端；本发明分支爪臂、主爪臂末端均设有洞槽,并且在洞槽内均植入有阻尼环；点火槽底部两端各焊接有插棒,点火槽通过插棒插入固定于分支爪臂末端；点火槽侧边通过弯接贯通于轴流风机的进风端口的技术手段,实现城市生活污水生物质碳化后能量利用率的分析装置的构成。(The invention relates to an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass. The top of a power output shaft of the brushless motor is fixed at the circle center position of a rotating shaft tray, 2-6 branch claw arms extend and are fixed at one end of the rotating shaft tray, and main claw arms extend and are fixed at the positions of mirror symmetry of the 2-6 branch claw arms; holes are formed in the tail ends of the branch claw arms and the main claw arms, and damping rings are implanted in the holes; the two ends of the bottom of the ignition groove are respectively welded with a plunger, and the ignition groove is inserted and fixed at the tail end of the branch claw arm through the plunger; holes are formed in the tail ends of the branch claw arms and the main claw arms, and damping rings are implanted in the holes; the two ends of the bottom of the ignition groove are respectively welded with a plunger, and the ignition groove is inserted and fixed at the tail end of the branch claw arm through the plunger; the side edge of the ignition groove is connected with an air inlet port penetrating through the axial flow fan in a bent mode, and the energy utilization rate of the carbonized urban domestic sewage biomass is analyzed.)

1. An analytical equipment based on energy utilization ratio after municipal sewage biomass carbonization mainly has the structure that: brushless motor (1), pivot tray (2), branch claw arm (21), main claw arm (22), ignition groove (3), combustion chamber (4), combustion chamber (41), grid (42) take a breath, temperature measurement point (43), knee joint (5), axial fan (6), motor flabellum (61), air filter (62), a fan section of thick bamboo (63), humidifying pipe (7), ultrasonic atomization piece (71), resistant fever laboratory (8), grid (9) take a breath greatly, living beings carbonization granule heap (10), plunger (11), damping ring (12), its characterized in that: the top of a power output shaft of the brushless motor (1) is fixed at the position of the circle center of the rotating shaft tray (2), 2-6 branch claw arms (21) extend and are fixed at one end of the rotating shaft tray (2), and main claw arms (22) extend and are fixed at the positions of mirror symmetry of the 2-6 branch claw arms (21);

holes are formed in the tail ends of the branch claw arms (21) and the main claw arms (22), and damping rings (12) are implanted in the holes; the two ends of the bottom of the ignition groove (3) are respectively welded with an insert rod (11), and the ignition groove (3) is inserted and fixed at the tail end of the branch claw arm (21) through the insert rods (11); the side edge of the ignition groove (3) is communicated with an air inlet port of the axial flow fan (6) through a bent joint (5); the axial flow fan (6) is formed by arranging a bracket in a fan barrel (63), fixing a motor fan blade (61) on the bracket and covering an air filter screen (62) at the tail end of the fan barrel (63);

a combustion inner cavity (41) is drawn in the combustion chamber (4), a ventilation grid (42) penetrates through the top of the combustion inner cavity (41), the combustion chamber (4) is inserted into the ignition slot (3) in the horizontal direction, and the opening direction of the combustion chamber (4) is opposite to the bent connection (5);

the top of the burning-resistant laboratory (8) is covered with a large ventilation grid (9), and the inner side surface of the burning-resistant laboratory (8) is provided with a gas injection pore channel; a humidifying pipe (7) penetrates through the center of the bottom of the burning-resistant laboratory (8), purified water is filled at the bottom of the humidifying pipe (7), and an ultrasonic atomization sheet (71) is suspended on the purified water;

the combustion inner cavity (41) is filled with a substance carbonized particle pile (10), and the volume of the filled substance carbonized particle pile (10) is less than 30 percent of the total space of the combustion inner cavity (41);

the brushless motor (1) and the motor fan blades (61) are externally connected with a control power supply and a control switch module through wires.

2. The device for analyzing the energy utilization rate of carbonized urban domestic sewage biomass according to claim 1, wherein the main claw arm (22), the 2-6 branch claw arms (21) and the rotating shaft tray (2) form an integral workpiece, and the integral workpiece is in a dynamic balance physical relationship with a central point of the rotating shaft tray (2).

3. The device for analyzing the energy utilization rate of carbonized urban domestic sewage biomass according to claim 1, characterized in that a temperature measuring point (43) is carved on the center of the top of the combustion chamber (4).

4. The device for analyzing the energy utilization rate of carbonized urban domestic sewage biomass according to claim 1, characterized in that a temperature measuring point (43) is carved at the center of the outer side of the burning-resistant laboratory (8).

5. The device for analyzing the energy utilization rate of carbonized urban domestic sewage biomass according to claim 1, characterized in that the bottom of the ultrasonic atomization sheet (71) is provided with an air bag, and the whole ultrasonic atomization sheet (71) is immersed in the water surface for 0.8-2 cm.

6. The device for analyzing the energy utilization rate of carbonized urban domestic sewage biomass according to claim 1, characterized in that the air flow rate of the axial flow fan (6) is 1.5-7 liters per minute.

7. The device for analyzing the energy utilization rate of carbonized urban domestic sewage biomass according to claim 1, wherein the inner wall of the ignition tank (3) is coated with a heat insulating layer.

8. The device for analyzing the energy utilization rate after biomass carbonization of municipal domestic sewage according to claim 1, wherein the rotation speed of the brushless motor (1) is 450-700 rpm and can be adjusted by controlling the switch module.

9. The device for analyzing the energy utilization rate after the biomass in municipal domestic sewage is carbonized according to claim 1, wherein the grinding fineness of the biomass carbonized particle pile (10) is in the range of 180-300 meshes.

Technical Field

The invention relates to an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

Background

The biomass particle carbonized fuel is a novel fuel continuously produced by various biomasses through complex processes of drying, transferring, mixing, molding, carbonizing and the like, has the same property with coal, is a high-efficiency, renewable and environment-friendly biomass fuel for various combustors, biomass boilers, melting furnaces, biomass power generation and the like, and is a zero-pollution fuel in international certification. However, conventional carbonization exists: low energy density/heating value; a high moisture content; high volatile matter content; low ash content, high alkali metal content; a greater oxygen content; the hygroscopicity and the water absorption are high; the shape, size and type are too uneven, so that when the biomass particle carbonized fuel of the finished product is purchased or bought, the analysis for detecting the energy utilization rate after carbonization is important.

Disclosure of Invention

The invention aims to provide an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

The invention adopts the following technical scheme for solving the technical problems: an analytical equipment based on energy utilization ratio after municipal sewage biomass carbonization mainly has the structure that: brushless motor, pivot tray, branch claw arm, main claw arm, ignition groove, combustion chamber, burning inner chamber, the grid of taking a breath, temperature measurement point, knee joint, axial fan, motor flabellum, air filter, fan barrel, humidifying pipe, ultrasonic atomization piece, resistant fever laboratory, the grid of taking a breath greatly, living beings carbonization granule heap, plunger, damping ring, its characterized in that: the top of a power output shaft of the brushless motor is fixed at the circle center position of a rotating shaft tray, 2-6 branch claw arms extend and are fixed at one end of the rotating shaft tray, and main claw arms extend and are fixed at the positions of mirror symmetry of the 2-6 branch claw arms;

holes are formed in the tail ends of the branch claw arms and the main claw arms, and damping rings are implanted in the holes; the two ends of the bottom of the ignition groove are respectively welded with a plunger, and the ignition groove is inserted and fixed at the tail end of the branch claw arm through the plunger; the side edge of the ignition groove is connected with an air inlet port penetrating through the axial flow fan through a bend; the axial flow fan is formed by arranging a bracket in a fan barrel, fixing motor blades on the bracket and covering an air filter screen at the tail end of the fan barrel;

a combustion inner cavity is drawn in the combustion chamber, a ventilation grid is communicated with the top of the combustion inner cavity, the combustion chamber is inserted into the ignition slot in the horizontal direction, and the opening direction of the combustion chamber is opposite to the bent connection position;

the top of the burning-resistant laboratory is covered with a large ventilation grating, and the inner side surface of the burning-resistant laboratory is provided with a gas injection pore channel; a humidifying pipe penetrates through the center of the bottom of the burning-resistant laboratory, purified water is filled into the bottom of the humidifying pipe, and an ultrasonic atomization sheet is suspended on the purified water;

the combustion cavity is filled with a substance carbonized particle pile, and the volume of the filled substance carbonized particle pile is less than 30 percent of the total space of the combustion cavity;

the brushless motor and the motor fan blades are externally connected with a control power supply and a control switch module through wires.

Furthermore, the main claw arm, the 2-6 branch claw arms and the rotating shaft tray form an integral workpiece, and the integral workpiece is in a dynamic balance physical relationship with a central point pivot of the rotating shaft tray.

Furthermore, a temperature measuring point is carved on the central position of the top of the combustion chamber.

Furthermore, a temperature measuring point is carved at the central position of the outer side of the burning-resistant laboratory.

Furthermore, the bottom of the ultrasonic atomization sheet is provided with an air bag, and the whole ultrasonic atomization sheet is immersed in the water surface by 0.8-2 cm.

Further, the air flow of the axial flow fan is 1.5-7 liters per minute.

Furthermore, the inner wall of the ignition groove is covered with a heat insulation layer.

Further, the rotating speed of the brushless motor is 450 and 700 revolutions per minute, and the speed can be regulated by controlling the switch module.

Further, the bulk grinding fineness of the biomass carbonized particles ranges from 180 meshes to 300 meshes.

The invention has the beneficial effects that: holes are formed at the tail ends of the branch claw arms and the main claw arms, and damping rings are implanted in the holes; the two ends of the bottom of the ignition groove are respectively welded with a plunger, and the ignition groove is inserted and fixed at the tail end of the branch claw arm through the plunger; the side edge of the ignition groove is connected with an air inlet port penetrating through the axial flow fan in a bent mode, and the energy utilization rate of the carbonized urban domestic sewage biomass is analyzed.

Drawings

FIG. 1 is an overall structure diagram of an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

FIG. 2 is a bottom structure diagram of an analysis device for energy utilization rate after biomass carbonization of municipal domestic sewage according to the invention.

FIG. 3 is an overall structure diagram of an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

FIG. 4 is an overall structure diagram of an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

FIG. 5 is an overall structure diagram of an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

FIG. 6 is an overall structure diagram of an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

FIG. 7 is an overall structure diagram of an analysis device based on the energy utilization rate of carbonized urban domestic sewage biomass.

In the figure, 1-brushless motor, 2-rotating shaft tray, 21-branch claw arm, 22-main claw arm, 3-ignition groove, 4-combustion chamber, 41-combustion inner cavity, 42-ventilation grating, 43-temperature measurement point, 5-bending connection, 6-axial flow fan, 61-motor fan blade, 62-air filter screen, 63-fan barrel, 7-humidification tube, 71-ultrasonic atomization sheet, 8-burning resistant laboratory, 9-large ventilation grating, 10-biomass carbonization particle pile, 11-plunger and 12-damping ring.

Detailed Description

A detailed description of the embodiments of the present invention is provided below with reference to fig. 1-7.