CN205607056U - Energy -conserving clean baking house - Google Patents

Abstract

The utility model relates to an energy -conserving clean baking house, including the baking house body, in a pair of return air wall of this internal installation of baking house, the return air wall makes baking house body internal partitioning forms two return air passageways and the district is deposited in a stoving, in this external air -conditioning box of having set up of baking house, the first return air passageway of baking house body is through the return air interface intercommunication of first backwind tube with the air -conditioning box, the second return air passageway of baking house body pass through the second backwind tube with the return air interface intercommunication of air -conditioning box, the air supply interface and the one end of blast pipe of air -conditioning box are connected, and the other end of blast pipe is connected with arranging the filter supply -air outlet on the baking house body, hold in the air -out of filter supply -air outlet to be provided with the filter. The utility model discloses well adopted with different dehumidification, the drying method of clean baking house in the past, greatly reduced the energy consumption, simultaneously, dry and deposit district's temperature all the time 30 DEG C of left and right sides, need not after the utensil drying to adopt again air exhaust, modes cooling such as new trend replacement, make equipment layout, use more simple and convenient.

Description

Energy-saving clean drying room

Technical field

This utility model relates to cleaning apparatus technical field, particularly relates to a kind of clean drying room.

Background technology

GMP (quality of production management regulation) is a set of mandatory standard being applicable to the industry such as pharmacy, food, Clear stipulaties in new edition GMP: " the production equipment cleaned should be deposited under conditions of cleaning, being dried ", The most how to deposit the cleaning apparatus cleaned to be particularly important in clean industry.Life due to pharmacy Produce utensil quantity more, and some utensil structure is complex, use conventional compressed air to dry up mode not Only labor intensity is big and cannot ensure that all parts positions of utensil can be dried；And use double door leaf to dry Case mode then cannot solve to dry the problem that utensil quantity is big, therefore, the particularly bio-pharmaceuticals of each pharmacy corporation Enterprise, is designed with clean drying room in its clean system, i.e. realizes the drying of high-volume equipment in drying room With deposit.

Existing clean drying room structure all uses dehumidifying and Electric heating, is sent by circulating fan after being heated by air Entering between depositing, in thus depositing, temperature is increased to 40～50 DEG C, the tool face making to be placed between depositing Water evaporates is damp-heat air, and circulating fan is brought this damp-heat air into air-conditioning box dehumidification system again and removed Wet, after having dehumidified between reheating Posterior circle is sent back to and deposited, circulate with this, the humidity between so depositing is not Disconnected decline, it is achieved in depositing, utensil is dried.But above-mentioned clean drying room structure should dehumidify and need heating, Considerably increase the energy consumption of clean drying room, after dehumidifying completes, take out utensil for the ease of operator, also Need to close dehumidifying and electrical heating, then open new air-valve and exhaust blower, realize the mesh of clean drying room cooling , waste time and energy, leverage the production efficiency of enterprise.

Utility model content

The applicant, for above-mentioned existing issue, has carried out Improvement, it is provided that a kind of energy-saving clean drying room, It has energy-efficient and that automaticity is high advantage.

This utility model embodiment provides a kind of energy-saving clean drying room, including drying room body, in described drying room This pair return air wall of internal installation, described return air wall makes described drying room body interior be separated to form the first return air folder Road, drying storage area and the second return air passageway；In this external air-conditioning box that is attached to of described drying room, described first Return air passageway is led to by the return air orifice of the first backwind tube with described air-conditioning box, described second return air passageway Cross the return air orifice of the second backwind tube and described air-conditioning box, in air-supply interface and the air-supply of described air-conditioning box One end of pipe connects, the other end of described ajutage and the filter air outlet being arranged on described drying room body Connect, in described filter air outlet, be additionally provided with filter.

Preferably, in described first return air passageway and/or described two return air passageways, measurement it is provided for described The humidity sensor of drying room body interior humidity.

Preferably, in described first return air passageway and/or described two return air passageways, measurement it is provided for described The temperature sensor of this body temperature of drying room.

Preferably, arranging return air flame plate mouth in described return air wall bottom, described wind multivane mouth makes air by drying Dry storage area flows into described first return air passageway and/or described two return air passageways.

Preferably, described air-conditioning box includes air return section, fresh inlet, fillter section, cooling dash section, blower fan Section, interlude and heating wind outlet section, wherein: described fresh inlet is arranged at the top of described air return section, institute The one end stating air return section is connected with described first backwind tube and the second backwind tube, the other end of described air return section With described fillter section, described cooling dash section, described fan section, described interlude and described heating successively Wind section is connected.

Preferably, cryogenic vaporizer is set in described cooling dash section, in described heating wind outlet section, high temperature is set Condenser, arranges circulating fan in described fan section.

Preferably, the port of export of described cryogenic vaporizer entering by connecting tube and compressor and warm condenser Mouthful end connects, and the port of export of described warm condenser is entered by connecting tube and throttling arrangement and cryogenic vaporizer Mouth end connects, described cryogenic vaporizer, described connecting tube, described compressor, described warm condenser and institute State throttling arrangement series winding and form enclosed circulation refrigeration system.

Preferably, described connecting tube is metal tube.

Preferably, the pair of return air wall is arranged in parallel each other.

Preferably, described drying room body is enclosed by composite plate and forms, and described composite plate arranges thermal insulating door thermally insulated door.

The energy-saving clean drying room that this utility model embodiment is provided, it has the beneficial effect that:

1, this utility model avoids the clean drying room of tradition and uses rotary wheel dehumidifying or the cold dehumidifying of table to heat up wet down again Highly energy-consuming mode, make full use of the feature of air conditioner refrigeration principle, by a complete closed-loop refrigeration The warm condenser of system and cryogenic vaporizer are respectively arranged in air-conditioning box difference in functionality section, are simultaneously achieved Low temperature dehumidification and the function of intensification wet down.High temperature dry air absorbs wet dissipation at drying room storage area and forms damp and hot sky Gas, under the effect of the built-in circulating fan of air-conditioning box, by return air flame plate mouth, return air passageway, the first return air Pipe, the second backwind tube return to air-conditioning box, and damp-heat air first and is arranged on the low-temperature evaporation cooled down in dash section Device contact separates out moisture content and forms low-temperature saturated steam, it is achieved thereby that dehumidification function, and pass through rear class heating Air supply section, completes heat exchange with the warm condenser being arranged in heating air supply section, becomes high temperature dry air, Drying room storage area is sent into through filtering air outlet.So circulation, the humidity between depositing will constantly decline, it is achieved In depositing, utensil is dried.The heat of output need to be diffused to when freezing by common air-conditioning The refrigerating efficiency of system is the lowest.Be different from common air-conditioning refrigeration environment, this utility model by damp and hot air with Cryogenic vaporizer contact heat-exchanging, air and the warm condenser contact heat-exchanging of low temperature and high relative humidity, because having the biggest The temperature difference, therefore Total heat exchange can be realized, substantially increase heat exchange efficiency, meanwhile, produced by refrigeration system Cold and the required heat distributed, all utilized by native system, and these are laid a good foundation for energy efficient.This reality Become, after processing with the exchange hot through air-conditioning box, wet of novel middle damp-heat air, the high temperature dry air that temperature is 35 DEG C Enter and dry storage area, make drying storage area temperature all the time at about 30 DEG C, at utensil after drying without adopting again With air draft, the cooling of new wind substitute mode, make equipment layout, use the most simple and convenient, reduce the most further Energy consumption.

2, the clean drying room wind pushing temperature of tradition is 50 DEG C, and temperature is higher, is easily generated clean drying room upper strata heat empty Gas is enriched with, and is difficult to the phenomenon of diffusion.And wind pushing temperature is at about 35 DEG C in this utility model, wind pushing temperature is low, Air be easier to diffusion uniform, dehumidifying, clean-up effect more preferable.

3, C level air during the use of filter meets clean drying room Good Manufacturing Practice and Quality Control of Drug (GMP) Purity requirements, this filter has high moisture-proof, antibiotic property simultaneously.

4, by arranging temperature sensor, humidity sensor in return air passageway, at supporting automatic program Room humidity can be monitored under Kong Zhiing, when humidity is down to setting value, the closed cycle that air-conditioning box is built-in Refrigeration system quits work, and intelligence degree is high.

Accompanying drawing explanation

Fig. 1 is the plan structure schematic diagram of clean drying room in this utility model.

Fig. 2 is the Fig. 1 sectional structure schematic diagram in A-A direction.

Fig. 3 is the structural representation of air-conditioning box in this utility model.

Wherein: 1, drying room body；1011, the first return air passageway；1012, the second return air passageway；102、 Return air flame plate mouth；103, filter air outlet；104, filter；105, thermal insulating door thermally insulated door；106, humidity passes Sensor；107, temperature sensor；108, storage area is dried；2, the first backwind tube；3, the second backwind tube； 4, air-conditioning box；401, air return section；402, fresh inlet；403, fillter section；404, cooling dash section； 405, compressor；406, fan section；407, interlude；408, heating wind outlet section；409, high temperature is cold Condenser；410, air-supply interface；411, ajutage；412, return air interface；413, cryogenic vaporizer；414、 Throttling arrangement；415, connecting tube.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, to the technical side in this utility model embodiment Case is clearly and completely described, it is clear that described embodiment is a part of embodiment of this utility model, Rather than whole embodiments.Based on embodiment of the present utility model, those of ordinary skill in the art are not having Make the every other embodiment obtained under creative work premise, broadly fall into the model of this utility model protection Enclose.

As shown in Figure 1 and Figure 2, energy-saving clean drying room described in the utility model includes being enclosed by polylith composite plate Closing the drying room body 1 formed, install a pair return air wall in drying room body 1, above-mentioned a pair return air wall is permissible It is arranged in parallel each other, arranges in each return air wall bottom and air can be made to be flowed into the first return air by drying storage area 108 The return air flame plate mouth 102 in the 1011, second return air passageway 1012, passageway, at least also opens in one piece of composite plate If thermal insulating door thermally insulated door 105, described composite plate can be made up of insulation material.

In this utility model embodiment, above-mentioned each return air wall is separated to form first time by internal for drying room body 1 Wind passageway 1011, drying storage area 108 and the second return air passageway 1012, wherein dry storage area 108 and set It is placed between the first return air passageway 1011 and the second return air passageway 1012, dries storage area 108 and be used for depositing Clean utensil to be dried.

In this utility model embodiment, drying room body 1 is outside equipped with, the air-conditioning of heat exchange wet for air Case 4, the first return air passageway 1011 of drying room body 1 is connect by the return air of the first backwind tube 2 with air-conditioning box 4 Mouthfuls 412 connections, the second return air passageway 1012 of drying room body 1 by the second backwind tube 3 also with air-conditioning box 4 Return air interface 412 connect.The air-supply interface 410 of air-conditioning box 4 is connected with one end of ajutage 411, send The other end of airduct 411 is connected with the filter air outlet 103 being arranged on drying room body 1.

In this utility model embodiment, drying room body 1 can arrange the air-supply of one or more filter Mouth 103, is provided with filter 104 in each filter air outlet 103, is used for filtering clean feeding and dries Air in room body 1.

As shown in Figure 1, Figure 2 and Figure 3, air-conditioning box 4 is by air return section 401, fresh inlet 402, filtration Section 403, cooling dash section 404, fan section 406, interlude 407 and heating wind outlet section 408 form, its In: fresh inlet 402 is arranged on the top of air return section 401, one end of air return section 401 and the first backwind tube 2 and second backwind tube 3 connect, the other end of air return section 401 successively with fillter section 403, cooling gear Water section 404, fan section 406, interlude 407 are connected with heating wind outlet section 408.

In this utility model embodiment, air return section 401 can receive from outside fresh air, it is possible to To receive from the first return air passageway 1011 and return air in the second return air passageway 1012.

In this utility model embodiment, in the cooling dash section 404 of air-conditioning box 4, cryogenic vaporizer 413 is set, Warm condenser 409 is set in the heating wind outlet section 408 of air-conditioning box 4, in the fan section 406 of air-conditioning box 4 Circulating fan is set.The port of export of cryogenic vaporizer 413 is by connecting tube 415, compressor 405 and high temperature The entrance point of condenser 409 connects, and the port of export of warm condenser 409 is by connecting tube 415, throttling dress Put 414 to be connected with the entrance point of cryogenic vaporizer 413, cryogenic vaporizer 413, connecting tube 415, compression Machine 405, warm condenser 409, throttling arrangement 414 concatenation forms enclosed circulation refrigeration system.This system Cooling system uses the cold-producing mediums such as freon, when this enclosed circulation refrigeration system is run, and its cold obtained And the heat given out all is utilized by air-conditioning box 4, which thereby enhance the utilization ratio of resource.

In this utility model embodiment, the material of connecting tube 415 can be metal, such as copper, alloy etc..

As in figure 2 it is shown, also set up use in the first return air passageway 1011 and/or the second return air passageway 1012 In the humidity sensor 106 of measurement drying room body 1 interior humidity, further, it is also possible to be provided for measuring The temperature sensor 107 of temperature in drying room body 1.When energy-saving clean drying room is in drying work state, The circulating fan of air-conditioning box 4, compressor 405 work, and the humidity value detected when humidity sensor 106 is low When setting value, compressor 405 autostop, only leaves circulating fan work.

In conjunction with Fig. 1, Fig. 2 and Fig. 3, it is concrete for the energy-saving clean drying room that this utility model embodiment is provided Work process is as follows:

After energy-saving clean drying room unlatching work, under the effect of circulating fan, damp and hot clean drying room return air With a small amount of in order to maintain the air return section 401 of the new wind entrance air-conditioning box 4 of clean drying room malleation, through fillter section 403 After filtering, be sent to cool down dash section 404, with arrange after cryogenic vaporizer 413 therein contacts, Air after filtration separates out moisture content and forms low-temperature saturated steam, and absolute moisture content reduces, and completes to be dried to air Process；Dried air through fan section 406, interlude 407 enter heating wind outlet section 408, with After arranging warm condenser 409 sufficient heat exchange therein, air themperature raises, and relative humidity reduces, shape Become high temperature low humidity dry air.The high temperature low humidity dry air sent through air-supply interface 410 passes through ajutage 411 are admitted to dry storage area 108, wherein after the filter 104 in filter air outlet 103 filters Air can be filtered by filter 104 so that the air entering drying storage area 108 meets pharmaceutical production C level air purity requirement in quality control procedure (GMP)；Clean high temperature low humidity dry air enters Dry after storage area 108, absorb and dry the moisture content that tool face in storage area 108 distributes, become high temperature Highly humid air, then enter the first return air passageway 1011 and second by the return air flame plate mouth 102 on return air wall Return air passageway 1012, and flow back to air-conditioning box 4 via the first backwind tube 2 and the second backwind tube 3 respectively.

Circulate and so forth, make the humidity of drying storage area 108 constantly decline, in final Shi Gai district, reach dry The purpose of dry utensil.

This utility model by damp and hot air and cryogenic vaporizer 413 contact heat-exchanging, low temperature and high relative humidity air with Warm condenser 409 contact heat-exchanging, because there being the biggest temperature difference, therefore can realize Total heat exchange, significantly carrying High heat exchange efficiency；Air-conditioning box 4 cool down the cryogenic vaporizer 413 in dash section 404, connecting tube 415, Warm condenser 409 and throttling arrangement 414 series winding in compressor 405, heating wind outlet section 408 form envelope Closed-loop refrigeration system, its refrigeration and heat radiation are this utility model energy-saving clean drying room and utilize, significantly save About energy consumption；Meanwhile, in this utility model, damp-heat air exchange hot through air-conditioning box 4, wet becomes temperature after processing Degree is that the high temperature dry air of 35 DEG C enters drying storage area 108, makes drying storage area 108 temperature protect all the time Hold at about 30 DEG C, at utensil after drying without using the mode such as air draft, new wind displacement to lower the temperature again, make equipment Arrange, use the most simple and convenient, also reduce further energy consumption.

Above description is to explanation of the present utility model, is not the restriction to utility model, this utility model institute The scope limited sees claim, in the case of basic structure of the present utility model, and this practicality Novel can make any type of amendment.

Claims (10)

1. energy-saving clean drying room, it is characterised in that: include drying room body (1), in described drying room body (1) installing a pair return air wall in, described return air wall makes described drying room body (1) inside be separated to form First return air passageway (1011), drying storage area (108) and the second return air passageway (1012)；In institute Stating and be attached to air-conditioning box (4) outside drying room body (1), described first return air passageway (1011) is by the One backwind tube (2) connects with the return air interface (412) of described air-conditioning box (4), described second return air Passageway (1012) is by the return air interface (412) of the second backwind tube (3) with described air-conditioning box (4) Connection, is connected with one end of ajutage (411) in the air-supply interface (410) of described air-conditioning box (4), The other end of described ajutage (411) and the filter air-supply being arranged on described drying room body (1) Mouth (103) connects, and is additionally provided with filter (104) in described filter air outlet (103).

2. energy-saving clean drying room as claimed in claim 1, it is characterised in that: at described first return air It is provided for measuring described drying room body in passageway (1011) and/or described two return air passageways (1012) (1) humidity sensor (106) of interior humidity.

3. energy-saving clean drying room as claimed in claim 1, it is characterised in that: at described first return air It is provided for measuring described drying room body in passageway (1011) and/or described two return air passageways (1012) (1) temperature sensor (107) of interior temperature.

4. energy-saving clean drying room as claimed in claim 1, it is characterised in that: under described return air wall Portion arranges return air flame plate mouth (102), and described wind multivane mouth (102) makes air by drying storage area (108) Flow into described first return air passageway (1011) and/or described two return air passageways (1012).

5. energy-saving clean drying room as claimed in claim 1, it is characterised in that: described air-conditioning box includes Air return section (401), fresh inlet (402), fillter section (403), cooling dash section (404), wind Machine section (406), interlude (407) and heating wind outlet section (408), wherein: described fresh inlet (402) It is arranged at the top of described air return section (401), one end of described air return section (401) and described first Backwind tube (2) and the second backwind tube (3) connect, and the other end of described air return section (401) is successively With described fillter section (403), described cooling dash section (404), described fan section (406), described Interlude (407) is connected with described heating wind outlet section (408).

6. energy-saving clean drying room as claimed in claim 5, it is characterised in that: described cooling dash section (404) cryogenic vaporizer (413) is set in, in described heating wind outlet section (408), high temperature is set cold Condenser (409), described fan section arranges circulating fan in (406).

7. energy-saving clean drying room as claimed in claim 6, it is characterised in that: described cryogenic vaporizer (413) the port of export is by connecting tube (415) and compressor (405) and warm condenser (409) Entrance point connect, the port of export of described warm condenser (409) by connecting tube (415) and joint Stream device (414) is connected with the entrance point of cryogenic vaporizer, described cryogenic vaporizer (413), described Connecting tube (415), described compressor (405), described warm condenser (409) and described throttling dress Put (414) series winding and form enclosed circulation refrigeration system.

8. energy-saving clean drying room as claimed in claim 7, it is characterised in that: described connecting tube (415) It it is metal tube.

9. the energy-saving clean drying room as described in claim 1 to 8 is arbitrary, it is characterised in that: described one Return air wall is arranged in parallel each other.

10. the energy-saving clean drying room as described in claim 1 to 8 is arbitrary, it is characterised in that: described baking Room body (1) is enclosed by composite plate and forms, and described composite plate arranges thermal insulating door thermally insulated door (105).