CN213181165U - Oil fume sol condensation growth shock attenuation precision device - Google Patents

Abstract

The utility model provides an oil fume sol condensation growth damping precision device, which comprises a growth section and an adjusting section; the growth section is arranged right above the adjusting section; the oil fume sol condensation growth damping precision device also comprises a base; the bottoms of the two side walls of the adjusting section are respectively provided with a fixing table which horizontally extends outwards; the bottoms of the two fixed tables are arranged at the top of the base through damping components; the adjusting section, the fixing table and the base are enclosed to form a containing hole, and an aerosol outlet of the adjusting section is located in the containing hole. The utility model discloses a damping precision device is grown in condensation of oil smoke sol can absorb the vertical vibration of the production of air pump and liquid pump. The first shock absorption is carried out through the elastic device, then the residual vertical vibration is absorbed by the rubber gasket, the vertical vibration generated by the air pump and the liquid pump is reduced to the maximum extent, and the effect of reducing the vertical vibration is achieved by two steps.

Description

Oil fume sol condensation growth shock attenuation precision device

Technical Field

The utility model relates to an aerosol detects technical field, concretely relates to oil smoke sol condensation growth shock attenuation precision device.

Background

The aerosol concentration is closely related to the environmental quality and health, and in order to detect the aerosol concentration, the aerosol needs to be subjected to condensation growth treatment so that the aerosol grows to a size capable of being optically detected.

However, in the aerosol growth process, the air pump at the inlet and outlet of the aerosol and the water pump required for growth and condensation can generate vertical vibration, thereby affecting the accuracy of aerosol detection.

Accordingly, there is a need for improvements in the art.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an efficient oil smoke sol condensation growth shock attenuation precision device.

In order to solve the technical problem, the utility model provides an oil fume sol condensation growth damping precision device, which comprises a growth section and an adjusting section; the growth section is arranged right above the adjusting section; the oil fume sol condensation growth damping precision device also comprises a base;

the bottoms of the two side walls of the adjusting section are respectively provided with a fixing table which horizontally extends outwards; the bottoms of the two fixed tables are arranged at the top of the base through damping components;

the adjusting section, the fixed table, the base and the damping assembly are enclosed to form a containing hole, and the aerosol outlet of the adjusting section is located in the containing hole.

As right the utility model relates to an oil smoke sol condensation growth shock attenuation precision device's improvement:

the shock absorption assembly comprises an elastic device and a rubber gasket;

the rubber gasket is fixedly arranged on the upper surface of the base, and a support is fixedly arranged at the top of the rubber gasket;

the bottom of the fixed table is arranged on the bracket through an elastic device.

As right the utility model relates to an oil smoke sol condensation growth shock attenuation precision device's improvement:

every fixed station all is connected with the support through four resilient means that the array set up.

As right the utility model relates to an oil smoke sol condensation growth shock attenuation precision device's improvement:

the bottom of the growth section is fixedly arranged at the top of the adjusting section through a support.

As right the utility model relates to an oil smoke sol condensation growth shock attenuation precision device's improvement:

the support is in a hollow circular cylinder shape, and the aerosol connecting pipe is positioned in the inner ring of the support.

As right the utility model relates to an oil smoke sol condensation growth shock attenuation precision device's improvement:

the inner diameter of the support is larger than the outer diameter of the aerosol connecting pipe.

The utility model relates to an oil smoke sol condensation growth shock attenuation precision device's technical advantage does:

the utility model discloses a damping precision device is grown in condensation of oil smoke sol can absorb the vertical vibration of the production of air pump and liquid pump. The first shock absorption is carried out through the elastic device, then the residual vertical vibration is absorbed by the rubber gasket, the vertical vibration generated by the air pump and the liquid pump is reduced to the maximum extent, and the effect of reducing the vertical vibration is achieved by two steps.

Drawings

The following describes the present invention in further detail with reference to the accompanying drawings.

FIG. 1 is a schematic view of a three-dimensional structure of a damping precision device for condensation growth of oil fume sol;

FIG. 2 is a schematic view of the structure of the oil fume sol condensation growth damping precision device of the present invention;

fig. 3 is an enlarged schematic view of the fixing table 15 and the base 13 in fig. 2.

Detailed Description

The invention will be further described with reference to specific examples, but the scope of the invention is not limited thereto.

Embodiment 1, a precision apparatus for oil fume sol condensation growth and shock absorption, as shown in fig. 1-3, comprises a growth section 3, an adjustment section 8 and a base 13,

the growth section 3 is positioned right above the adjusting section 8; the bottom of the growth section 3 is fixedly arranged at the top of the adjusting section 8 through a support 5.

A growth section aerosol channel and a growth section condensation channel which are tightly attached to each other are arranged in the growth section 3, the top of the growth section 3 is provided with a growth section aerosol inlet 1 communicated with the growth section aerosol channel, and the bottom of the growth section 3 is provided with a growth section aerosol outlet 16 communicated with the growth section aerosol channel; the growth section water inlet 2 communicated with the growth section condensation channel is formed in the upper half part of the side wall of the growth section 3, and the growth section water outlet 4 communicated with the growth section condensation channel is formed in the lower half part of the side wall of the growth section 3.

Aerosol particles enter the growth section aerosol passage from the growth section aerosol inlet 1.

Meanwhile, condensed water enters the growth section condensation channel from the growth section water inlet 2 to exchange heat with aerosol in the growth section aerosol channel, and the temperature of the aerosol is reduced.

The regulating section 8 is internally provided with a regulating section aerosol channel and a regulating section condensation channel which are tightly attached to each other, the top of the regulating section 8 is provided with a regulating section aerosol inlet 17 communicated with the regulating section aerosol channel, and the bottom of the regulating section 8 is provided with a regulating section aerosol outlet 10 communicated with the regulating section aerosol channel; the upper half part of the side wall of the adjusting section 8 is provided with an adjusting section water inlet 7 communicated with an adjusting section condensing channel, and the lower half part of the side wall of the adjusting section 8 is provided with an adjusting section water outlet 9 communicated with the adjusting section condensing channel.

The growth section 3 and the adjustment section 8 can use the growth section and the adjustment section in CN 202010177589.8A growth section and a growth method of aerosol uniform humidifying condensation nuclei or CN 202010250708.8A detection device for the condensation growth of tiny particles in aerosol.

The growth section aerosol outlet 16 is communicated with the adjusting section aerosol inlet 17 through the aerosol connecting pipe 6.

The support 5 is in the shape of a hollow circular cylinder, the aerosol connecting pipe 6 is positioned in the inner ring of the support 5, and the inner diameter of the support 5 is larger than the outer diameter of the aerosol connecting pipe 6. The support 5 can both support the growth section 3 and protect the aerosol connecting conduit 6 from damage.

The bottoms of the two side walls of the adjusting section 8 are respectively provided with a fixing platform 15 which horizontally extends outwards;

the base 13 is connected with the ground or other fixed surfaces, two rubber gaskets 14 are fixedly arranged on the upper surface of the base 13, and two brackets 12 are fixedly arranged on the tops of the rubber gaskets 14; the rubber gasket 14 serves to absorb vertical vibration and prevent the vertical vibration transmitted from the base from affecting the whole body.

The bottom of the fixed table 15 is installed on the support 12 through the elastic device 11, and each fixed table 15 is connected with the support 12 through the four elastic devices 11 arranged in an array. The elastic means 11 serve to absorb vertical vibrations and to support the whole.

The elastic device 11, the bracket 12 and the rubber gasket 14 are distributed and distributed on two sides of the adjusting section 8. Firstly, in order to disperse the vertical vibration completely, secondly, in order to ensure that the aerosol outlet 10 of the adjusting section at the bottom of the adjusting section 8 can be connected with other external pipelines in space. Elastic device 11, support 12, base 13, rubber gasket 14, fixed station 15 and regulation section 8 enclose to close and form and accomodate hole 18, and regulation section aerosol export 10 is arranged in accomodating hole 18, accomodates hole 18 and can make things convenient for outside pipeline and regulation section aerosol export 10 to be connected, plays the fixed action.

Aerosol particles enter from the aerosol inlet 1, pass through the growth system 3, the aerosol connecting pipe 6 and the adjusting section 8, and exit from the aerosol outlet 10 to complete particle growth, and then enter the optical detection unit. The water circulation of the growth section 3 is as follows: water flows into the growth section condensation channel from the growth section water inlet 2 and then flows out from the growth section water outlet 4. The water circulation of the regulating section 8 is: the water flows into the condensation channel of the adjusting section from the water inlet 7 of the adjusting section and then flows out from the water outlet 9 of the adjusting section.

The vertical vibration generated by the air pump and the liquid pump is damped for the first time through the elastic device 11, and then the residual vertical vibration is absorbed by the rubber gasket 14, so that the vertical vibration generated by the air pump and the liquid pump is reduced to the maximum extent, namely the effect of reducing the vertical vibration is achieved in two steps.

The growth section aerosol inlet 1 and the adjusting section aerosol outlet 10 are connected with an air pump. The water inlet 2 of the growth section, the water outlet 4 of the growth section, the water inlet 7 of the regulation section and the water outlet 9 of the regulation section are connected with liquid pumps (4 water inlets and outlets in total, and each water inlet and outlet is connected with an independent liquid pump).

The utility model discloses a lampblack aerosol condensation growth shock attenuation precision installation's work flow as follows: the vertical vibration generated by the air pump and the liquid pump is mostly absorbed by the elastic device 11, and then the residual vibration is transmitted to the rubber gasket 14 through the bracket 12 to be completely absorbed.

Finally, it is also noted that the above-mentioned list is only a few specific embodiments of the present invention. Obviously, the present invention is not limited to the above embodiments, and many modifications are possible. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the invention should be considered as within the scope of the invention.

Claims (6)

1. An oil fume sol condensation growth damping precision device comprises a growth section (3) and an adjusting section (8); the growth section (3) is arranged right above the adjusting section (8); the method is characterized in that: the oil fume sol condensation growth damping precision device also comprises a base (13);

the bottoms of the two side walls of the adjusting section (8) are respectively provided with a fixing table (15) which horizontally extends outwards; the bottoms of the two fixed platforms (15) are arranged at the top of the base (13) through damping components;

the adjusting section (8), the fixing table (15), the base (13) and the shock absorption assembly are enclosed to form a containing hole (18), and an aerosol outlet (10) of the adjusting section (8) is located in the containing hole (18).

2. The oil fume sol condensation growth damping precision device of claim 1, wherein:

the shock absorption assembly comprises an elastic device (11) and a rubber gasket (14);

the rubber gasket (14) is fixedly arranged on the upper surface of the base (13), and the top of the rubber gasket (14) is fixedly provided with a support (12);

the bottom of the fixed table (15) is arranged on the bracket (12) through an elastic device (11).

3. The oil fume sol condensation growth damping precision device of claim 2, characterized in that:

each fixed station (15) is connected with the bracket (12) through four elastic devices (11) arranged in an array.

4. The oil fume sol condensation growth damping precision device of claim 3, wherein:

the bottom of the growth section (3) is fixedly arranged at the top of the adjusting section (8) through a support (5).

5. The oil fume sol condensation growth damping precision device of claim 4, wherein:

the support (5) is in a hollow circular cylinder shape, and the aerosol connecting pipe (6) is positioned in an inner ring of the support (5).

6. The oil fume sol condensation growth damping precision device of claim 5, wherein:

the inner diameter of the support (5) is larger than the outer diameter of the aerosol connecting pipe (6).

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