CN108303345B

CN108303345B - Metal material true density analyzer for thermal power plant

Info

Publication number: CN108303345B
Application number: CN201810099686.2A
Authority: CN
Inventors: 郭演星; 祝新伟; 潘金平
Original assignee: Jiaxing Special Equipment Inspection And Testing Institute
Current assignee: Jiaxing Special Equipment Inspection And Testing Institute
Priority date: 2018-02-01
Filing date: 2018-02-01
Publication date: 2020-05-26
Anticipated expiration: 2038-02-01
Also published as: CN108303345A

Abstract

The invention discloses a metal material true density analyzer for a thermal power plant, which comprises a shell and a cover plate, wherein the cover plate is positioned above the shell, the surface of one end of the shell is rotatably connected with a feeding window, the surface of one end of the cover plate is provided with a control panel, two sides of the inner wall of the shell are both provided with sliding grooves, the inner sides of the sliding grooves are provided with a first fixing hole, the lower end of the cover plate is fixedly connected with a surrounding plate and an analyzer, the analyzer is positioned on the inner side of the surrounding plate, two sides of the surrounding plate are fixedly connected with a second fixing hole in a penetrating manner, two sides of the analyzer are fixedly connected with damping springs, one ends of the damping springs are fixedly connected with pulleys, and. According to the invention, by arranging the shell, when the shock absorber is impacted by external force, the impact force is firstly blocked by the shell, then is guided onto the damping spring through the pulley, and is contracted through the damping spring to filter the impact force, so that the protection effect is achieved.

Description

Metal material true density analyzer for thermal power plant

Technical Field

The invention relates to a true density analyzer, in particular to a metal material true density analyzer for a thermal power plant.

Background

The true density refers to the actual mass of the solid matter in unit volume of the material in an absolutely dense state, i.e. the density after removing internal pores or gaps between particles, and the corresponding physical properties include apparent density and bulk density, the true density is relative to the bulk density of the particle group, and refers to the actual mass of the solid matter in unit volume of the material in an absolutely dense state, i.e. the density after removing internal pores or gaps between particles, the true density is the most basic physical parameter of the powder material, and is also a parameter which must be used for measuring other physical properties such as micro powder particle distribution, the numerical value of the true density is determined by the chemical composition and purity of the material, the value directly affects the quality, performance and application of the material, and has important significance for the measurement, the concept of the true density is widely applied to the characteristic evaluation of powder such as plastics, carbon materials, black powder and the like, the conventional methods for measuring true density are mainly gas volumetric method and immersion method (pycnometer method), and the so-called gas volumetric method is based on the principle that gas obeys the law of conservation of mass in a closed container.

However, the metal material true density analyzer used in the prior art is easily damaged when being impacted, has a weak protection effect, has a poor heat dissipation effect, is easy to run unstably due to too high heat, and cannot effectively keep the dryness inside the machine. Therefore, the metal material true density analyzer for the thermal power plant is provided.

Disclosure of Invention

The invention mainly aims to provide a metal material true density analyzer for thermal power plants, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a thermal power plant uses metal material true density analysis appearance, includes shell and apron, the apron is located the shell top, shell one end surface rotates connects the feed window, apron one end surface is provided with control panel, shell inner wall both sides all are provided with the sliding tray, the sliding tray inboard is equipped with the fixed orifices No. one, apron lower extreme fixed connection enveloping board and analysis appearance, the analysis appearance is located the enveloping board inboard, the enveloping board both sides link up No. two fixed orificess of fixedly connected with, analysis appearance both sides fixed connection damping spring, damping spring one end fixed connection pulley, analysis appearance one end surface is provided with the feed inlet.

Further, shell other end screwed connection cooler bin, the cooler bin internal partitioning is a chamber and No. two chambers are located a chamber one side, a intracavity portion is provided with the air exhauster, a chamber one end fixed connection air intake, No. two intracavity portions are provided with the vortex cooler, No. two chamber one end fixed connection air outlets, air exhauster and control panel electric connection.

Furthermore, one end of the cooling box is fixedly connected with the filter box, and the filter layer, the drying layer and the adsorption layer are sequentially arranged inside the filter box from left to right.

Further, the analyzer is slidably connected with the housing through a pulley and a sliding groove.

Furthermore, the cover plate is connected with the shell through a first fixing hole and a second fixing hole in a bolt mode.

Furthermore, the air inlet and the air outlet are both communicated with the shell and are positioned inside the shell.

Furthermore, the exhaust fan and the vortex cooler are respectively connected with the air inlet, the air outlet and the filter box pipeline.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the arrangement of the shell, when the analyzer is impacted by external force, impact force is firstly blocked by the shell and then is guided onto the damping spring through the pulley, the damping spring contracts to filter the impact force, so that a protection effect is achieved, the damage to equipment caused by large impact force can be effectively avoided, the protection effect is enhanced, the service life is effectively prolonged, in addition, the analyzer can be taken out from the shell for maintenance through the sliding groove and the pulley, the disassembling process is simplified, the working time is shortened, and the working efficiency and the quality are improved.

2. According to the invention, the cooling box is arranged, after the exhaust fan is manually opened through the control panel, the exhaust fan pumps airflow in the shell into the filter box through the air inlet, and after the airflow is cooled by the vortex cooler, the airflow enters the shell from the air outlet, so that the effect of accelerating heat dissipation is achieved, airflow circulation can be effectively formed in the shell, the heat dissipation efficiency is greatly improved, the practicability is enhanced, the effect of dust collection can be achieved, the neatness of the interior of the shell is effectively maintained, and the functional effect is enhanced.

3. According to the invention, by arranging the purification box, when the air flow passes through the purification box and the filter layer, dust in the air flow can be filtered, when the air flow passes through the drying layer, moist air in the air flow can be absorbed, the drying effect of the air flow is kept, and when the air flow passes through the adsorption layer, peculiar smell in the air flow can be adsorbed, the freshness of the air flow is kept, a good auxiliary effect is achieved, the practical function effect is effectively improved, in addition, no electric energy is consumed during use, and the economical efficiency during use is effectively enhanced.

Drawings

Fig. 1 is a schematic overall structure diagram of a metal material true density analyzer for thermal power plants according to the present invention.

FIG. 2 is a top view of an outer shell of a metal material true density analyzer for thermal power plants according to the present invention.

Fig. 3 is a schematic structural diagram of a cover plate of the metal material true density analyzer for thermal power plants.

FIG. 4 is a schematic structural diagram of a cooling box of the metal material true density analyzer for thermal power plants according to the present invention.

In the figure: 1. a housing; 2. a cover plate; 3. a feed window; 4. a control panel; 5. a sliding groove; 6. a first fixing hole; 7. a damping spring; 8. a pulley; 9. wrapping the plate; 10. a second fixing hole; 11. a feed inlet; 12. an analyzer; 13. a cooling tank; 14. a first chamber; 15. a second chamber; 16. an air inlet; 17. an air outlet; 18. a filter box; 19. a filter layer; 20. drying the layer; 21. an adsorption layer; 22. an exhaust fan; 23. a vortex cooler.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-4, a metal material true density analyzer for thermal power plant, includes shell 1 and apron 2, apron 2 is located shell 1 top, 1 one end surface of shell rotates connects

feed window

3, 2 one end surfaces of apron are provided with

control panel

4, 1 inner wall both sides of shell all are provided with sliding

tray

5, 5 inboard fixed orifices 6 that are equipped with of sliding tray, 2 lower extreme fixed connection enclosing plates 9 and the analysis appearance 12 of apron, analysis appearance 12 is located enclosing plates 9 inboard, enclosing plates 9 both sides link up fixed connection has No. two fixed orificess 10, analysis appearance 12 both sides fixed connection damping spring 7, damping spring 7 one end fixed connection pulley 8, analysis appearance 12 one end surface is provided with feed inlet 11.

Wherein, 1 other end screwed connection cooler bin 13 of shell, cooler bin 13 internal partitioning is chamber 14 and No. two 15 and No. two chambers 15 and is located chamber 14 one side No. one, No. one 14 inside air blowers 22 that are provided with in chamber, 14 one end fixed connection air intake 16 in chamber, No. two 15 inside vortex coolers 23 that are provided with in chamber, No. two 15 one end fixed connection air outlets 17 in chamber,

air blower

22 and 4 electric connection of control panel.

One end of the cooling tank 13 is fixedly connected with a filtering tank 18, and a filtering layer 19, a drying layer 20 and an adsorption layer 21 are sequentially arranged inside the filtering tank 18 from left to right.

Wherein the analyzer 12 is slidably connected with the housing 1 through the pulley 8 and the sliding groove 5.

The cover plate 2 is connected with the shell 1 through a first fixing hole 6 and a second fixing hole 10 in a plug-in mode.

The air inlet 16 and the air outlet 17 both penetrate through the housing 1 and are located inside the housing 1.

Wherein, the exhaust fan 22 and the vortex cooler 23 are respectively connected with the air inlet 16, the air outlet 17 and the filter box 18 through pipelines.

It should be noted that, the invention is a metal material true density analyzer for thermal power plant, when in operation, after an analyzer 12 is connected into a shell 1 in a sliding way through a sliding groove 5 and a pulley 8 by manual work, a second fixing hole 10 and a first fixing hole 6 at two ends of a surrounding plate 9 are overlapped, a cover plate 2 and the shell 1 are fixed through bolt connection, after a feeding window 3 is opened by rotation, the material is put into the analyzer 12 through a feeding port 11 for analysis, when being impacted by external force, the impact force is blocked by the shell 1 firstly, then is guided onto a damping spring 7 through the pulley 8, is contracted through the damping spring 7, the impact force is filtered, after an exhaust fan 22 is opened through a control panel 4 by manual work, the exhaust fan 22 sucks the air flow in the shell 1 into a filter box 18 through an air inlet 16, and is cooled through a vortex cooler 23, the air enters the shell 1 from the air outlet 17, heat dissipation is accelerated, when air flow passes through the purification box 18 and passes through the filter layer 19, dust in the air flow can be filtered, when the air flow passes through the drying layer 20, moist air in the air flow can be absorbed, and when the air flow passes through the adsorption layer 21, peculiar smell in the air flow can be absorbed.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a thermal power plant uses metal material true density analysis appearance, includes shell (1) and apron (2), apron (2) are located shell (1) top, its characterized in that: shell (1) one end surface is rotated and is connected feed window (3), apron (2) one end surface is provided with control panel (4), shell (1) inner wall both sides all are provided with sliding tray (5), sliding tray (5) inboard is equipped with fixed orifices (6) No. one, apron (2) lower extreme fixed connection enveloping board (9) and analysis appearance (12), analysis appearance (12) are located enveloping board (9) inboard, enveloping board (9) both sides link up No. two fixed orificess (10) of fixedly connected with, analysis appearance (12) both sides fixed connection damping spring (7), damping spring (7) one end fixed connection pulley (8), analysis appearance (12) one end surface is provided with feed inlet (11).

2. The thermal power plant metal material true density analyzer according to claim 1, characterized in that: shell (1) other end screwed connection cooler bin (13), cooler bin (13) internal separation is chamber (14) and No. two chamber (15) are located chamber (14) one side, chamber (14) inside is provided with air exhauster (22), chamber (14) one end fixed connection air intake (16), No. two chamber (15) inside is provided with vortex cooler (23), No. two chamber (15) one end fixed connection air outlet (17), air exhauster (22) and control panel (4) electric connection.

3. The thermal power plant metal material true density analyzer according to claim 2, characterized in that: one end of the cooling box (13) is fixedly connected with a filtering box (18), and a filtering layer (19), a drying layer (20) and an adsorption layer (21) are sequentially arranged inside the filtering box (18) from left to right.

4. The thermal power plant metal material true density analyzer according to claim 1, characterized in that: the analyzer (12) is connected with the shell (1) in a sliding mode through a pulley (8) and a sliding groove (5).

5. The thermal power plant metal material true density analyzer according to claim 1, characterized in that: the cover plate (2) is connected with the shell (1) through a first fixing hole (6) and a second fixing hole (10) in a plug-in mode.

6. The thermal power plant metal material true density analyzer according to claim 2, characterized in that: the air inlet (16) and the air outlet (17) both penetrate through the shell (1) and are located inside the shell (1).

7. The thermal power plant metal material true density analyzer according to claim 2 or 3, characterized in that: the exhaust fan (22) and the vortex cooler (23) are respectively connected with the air inlet (16), the air outlet (17) and the filter box (18) through pipelines.