CN203163096U - Clean room system - Google Patents

Abstract

The utility model discloses a clean room system with a dust-free area defined therein. The clean room system comprises an air return port and a cleaning unit, wherein the air in the dust-free area flows out through the air return port to define an air return path; the air flows in dust-free area after being cleaned by the cleaning unit so as to define an air intake path; and a fan coil unit is arranged in the air return path. According to the utility model, with the air return coil in the air return path, stronger air return power can be provided to the air from the dust-free area, so as to optimize air return effect and ensure working reliability of the clean room system.

Description

Cleanroom system

Technical field

The utility model belongs to the cleaning project technical field, is specifically related to a kind of Cleanroom system.

Background technology

It is industrial with other that the toilet is used in electronics industry widely, and the no particle environment of cleaning is necessary when product assembling and detection in these industry.With the normal volume build-in test in the toilet to given standard-sized amounts of particles assess this chamber.According to this evaluating system, " 10 a grades " toilet only has the numbers of particles of " 100 a grades " toilet 1/10th.Little numbers of particles in the toilet is that the air by these indoor a large amount of distributions changes and realizes.Air changes the particulate matter in the washing chamber.When other condition was all identical, the number of times that air changes was more many, and indoor numbers of particles is more few.For example " 1 grade " toilet usually need be greater than per hour 450 times air variation.

Simultaneously, owing to need to pass through the filtration system of process multilayer in the toilet, the resistance that runs into during circulation of air is bigger, and especially when return air, toilet of the prior art can not provide reliable return air effect usually, and then can have influence on the lustration class of toilet.

The utility model content

The purpose of this utility model is to provide a kind of Cleanroom system, and it can provide return air effect preferably, optimizes air return method, guarantees the reliable efficient of toilet's work.

For solving above-mentioned utility model purpose, the utility model provides a kind of Cleanroom system, and definition has or not the dirt district in it, and described Cleanroom system comprises:

Air in the return air inlet, described dustless region flows out to define the return air path through return air inlet;

Clean unit, air purify through this clean unit and flow into described dustless region to define the air intake path; Wherein,

Described return air is provided with fan coil in the path.

As further improvement of the utility model, described Cleanroom system also comprises the return air post, and described return air inlet is formed on the described return air post, and described fan coil is arranged at contiguous described return air inlet place in the described return air post.

As further improvement of the utility model, described return air inlet disposes the return air flame plate window.

As further improvement of the utility model, described return air path is related with described air intake path gas.

As further improvement of the utility model, described Cleanroom system also comprises air-conditioning equipment and the airduct that is connected with described air-conditioning equipment, and described air-conditioning equipment is used for and will will purify and then discharge by described airduct from described return air post effluent air.

As further improvement of the utility model, described clean unit is arranged at the top of described dustless region, and the air of discharging from described airduct purifies and then flow into dustless region through described clean unit.

As further improvement of the utility model, the bottom of described dustless region is provided with raised flooring, comprises some pores on the described raised flooring, and the air in the dustless region flows into described return air inlet from described pore.

As further improvement of the utility model, described return air inlet is arranged at the bottom of described raised flooring.

As further improvement of the utility model, described clean unit comprises blower fan filter unit.

As further improvement of the utility model, described fan coil is vertical fan coil.

Compared with prior art, the Cleanroom system that the utility model provides is by arranging the return air coil pipe in the return air path, can provide stronger return air power for the air that self-cleaning clean room dustless region flows out, optimize the return air effect, guarantee the reliability of Cleanroom system work.

Description of drawings

Fig. 1 is the structural representation of the utility model Cleanroom system one embodiment.

The specific embodiment

Below with reference to the specific embodiment shown in the drawings the utility model is described in detail.But these embodiments do not limit the utility model, and the conversion on the structure that those of ordinary skill in the art makes according to these embodiments, method or the function all is included in the protection domain of the present utility model.

Join Fig. 1, introduce a specific embodiment of Cleanroom system of the present utility model.In the present embodiment, this Cleanroom system 100 comprises return air inlet 11, clean unit 20 and fan coil 30.

Definition has or not dirt district 101 in the Cleanroom system 100, air in the dustless region 101 flows out to define return air path P 1 through return air inlet 11, the air that refluxes out from return air inlet 11 has the impurity particle of higher concentration, fan coil 30 is arranged in this return air path P 1 and is used for providing stronger return air power, and air flows into dustless region 101 to define air intake path P 2 through the purification of clean unit 20.The air that constantly will purify by air cleaning member 20 is blown into dustless region 101, and then take away contaminated air by return air inlet 11, lustration class in the dustless region 101 can be maintained preset value, fan coil 30 in the return air path P 1 can guarantee the smoothness of this kind circulation of air, and the efficient ability of replacing of air in the dustless region 101 is provided to a certain extent, with the demand of the Cleanroom system 100 that satisfies higher cleaniliness classs.

As preferred embodiment, in the present embodiment, return air path P 1 is related with air intake path P 2 gases, that is to say, the return air path P 1 of the Cleanroom system 100 that the utility model provides and air intake path P 2 are that gas is communicated with, recycling with the air realizing refluxing from return air inlet 11.Certainly, being understandable that, in the embodiment of some replacements, also can be directly to be disposed to the external world through return air path P 1 effluent air, and the embodiment of these conversion must be worked as and be belonged within the protection domain of the present utility model.

In the present embodiment, Cleanroom system 100 also comprises return air post 10, and return air inlet 11 is formed on this return air post 10, and return air post 10 can arrange a plurality of.Above-mentioned fan coil 30 is arranged at contiguous return air inlets 11 places in the return air post 10, the air in the dustless region 101 under the drive of fan coil 30 along return air post 10 to cocycle, remedied the shortcoming of return air insufficient pressure, reached the unimpeded purpose of air-flow circulation.Preferably, this fan coil 30 is vertical fan coil, so that the power to return air post 10 top return air to be provided efficiently.

The bottom of dustless region 101 is provided with raised flooring 60, comprises some pore (not shown) on this raised flooring 60, and the air in the dustless region 101 flows into return air inlet 11 by these pores.In concrete installation, return air post 10 parts extend to raised flooring 60 times, and return air inlet 11 is arranged on the bottom of raised flooring 60 on the return air post 10.Return air inlet 11 places dispose return air flame plate window 70, and return air flame plate window 70 is used for just imitating the air that purification refluxes through return air inlet 11.

Cleanroom system 100 also comprises air-conditioning equipment 40 and the airduct 50 that is connected with air-conditioning equipment 40, and air-conditioning equipment 40 is used for and will imitates purification from the gas that return air post 10 refluxes, and the effect cleaned air passes is discharged by airduct 50 in will passing through.Air-conditioning equipment 40 in the toilet also is used for keeping the temperature and humidity in the toilet.In the present embodiment, comprise a zone 102 that is positioned at dustless region 101 tops in the Cleanroom system 100, the air outlet of airduct 50 (indicate) is arranged in this zone 102, from air-conditioning equipment 40 cleaned air passes by so that be disposed in this zone 102 in order to carry out the efficient purification of clean unit 20 further.It will be appreciated that, in Fig. 1, do not specifically illustrate air enters air-conditioning equipment 40 from return air post 10 concrete path, be to should be this part not relate to improvement of the present utility model, those of ordinary skills can understand content of the present utility model easily according to this accompanying drawing.

Clean unit 20 is arranged at the top of dustless region 101, the air of discharging from the air outlet of airduct 50 by this clean unit 20 efficient purification and finally be blown in the dustless region 101.So circulation reaches the purpose that purifies dustless region 101 air.

As preferred embodiment, this clean unit 20 comprise blower fan filter unit (Fan Filter Units, FFU).So-called blower fan filter unit is just combined blower fan and filter (high efficiency particulate air filter (HEPA) or super high efficient filter (ULPA)) and is constituted the terminal cleaning equipment that power is provided self, exactly is a kind of self-powered, modular terminal air-supply arrangement with filter efficacy.

The utility model is by above-mentioned embodiment, have following beneficial effect: the Cleanroom system 100 that the utility model provides is by arranging the return air coil pipe in return air path P 1, can provide stronger return air power for the air that self-cleaning clean room dustless region 101 flows out, optimize the return air effect, guarantee the reliability of Cleanroom system 100 work.

Be to be understood that, though this specification is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of specification only is for clarity sake, those skilled in the art should make specification as a whole, technical scheme in each embodiment also can form other embodiments that it will be appreciated by those skilled in the art that through appropriate combination.

Above listed a series of detailed description only is specifying at feasibility embodiment of the present utility model; they are not in order to limiting protection domain of the present utility model, allly do not break away from equivalent embodiment or the change that the utility model skill spirit does and all should be included within the protection domain of the present utility model.

Claims (10)

1. Cleanroom system, definition has or not the dirt district in it, it is characterized in that described Cleanroom system comprises:

Air in the return air inlet, described dustless region flows out to define the return air path through return air inlet;

Clean unit, air purify through this clean unit and flow into described dustless region to define the air intake path; Wherein,

Described return air is provided with fan coil in the path.

2. Cleanroom system according to claim 1 is characterized in that, described Cleanroom system also comprises the return air post, and described return air inlet is formed on the described return air post, and described fan coil is arranged at contiguous described return air inlet place in the described return air post.

3. Cleanroom system according to claim 1 is characterized in that, described return air inlet disposes the return air flame plate window.

4. Cleanroom system according to claim 1 is characterized in that, described return air path is related with described air intake path gas.

5. Cleanroom system according to claim 4, it is characterized in that, described Cleanroom system also comprises air-conditioning equipment and the airduct that is connected with described air-conditioning equipment, and described air-conditioning equipment is used for and will will purify and then discharge by described airduct from described return air post effluent air.

6. Cleanroom system according to claim 5 is characterized in that, described clean unit is arranged at the top of described dustless region, and the air of discharging from described airduct purifies and then flow into dustless region through described clean unit.

7. Cleanroom system according to claim 6 is characterized in that, the bottom of described dustless region is provided with raised flooring, comprises some pores on the described raised flooring, and the air in the dustless region flows into described return air inlet from described pore.

8. Cleanroom system according to claim 7 is characterized in that, described return air inlet is arranged at the bottom of described raised flooring.

9. Cleanroom system according to claim 1 is characterized in that, described clean unit comprises blower fan filter unit.

10. Cleanroom system according to claim 1 is characterized in that, described fan coil is vertical fan coil.

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