TWI718065B - Temperature and humidity controlling device with separating-plates - Google Patents

Abstract

This invention provides a temperature and humidity controlling device with separating-plates, which includes a chamber defined an inner space, a heater unit disposed at said chamber for heating said chamber, at least three separating-plates disposed apart from each other inside said inner space along a height direction of said chamber, and an intake line disposed at a bottom of said chamber and interconnected with said inner space. Each of said separating-plate has a plurality of first through holes penetrating the corresponding separating-plate, an area of said separating-plates are substantially the same, and a size of said first through holes decreases gradually along said height direction.

Description

多層隔板溫濕控制裝置Multilayer separator temperature and humidity control device

本發明是有關於一種恆溫恆濕裝置，特別是指一種多層隔板溫濕控制裝置。The invention relates to a constant temperature and humidity device, in particular to a temperature and humidity control device for a multilayer separator.

參閱圖1，一種現有的恆溫恆濕裝置1，其包括一腔體10、一連接該腔體10並能向該腔體10之一內部空間100提供水氣的進氣管路11、一連接該腔體10的排水管路12、一圍繞該腔體10並能對該腔體10升溫的加熱管13、一鄰近於該進氣管路11的風扇14，及一設置於該腔體10並能對該腔體10降溫的壓縮機15。該風扇14能朝向該腔體10之內部空間100吹風，以令自該進氣管路11引入該內部空間100的水氣均勻分布並達到該內部空間100所需濕度。1, an existing constant temperature and humidity device 1 includes a cavity 10, an air inlet pipe 11 connected to the cavity 10 and capable of supplying water to an inner space 100 of the cavity 10, and a connection The drainage pipe 12 of the cavity 10, a heating pipe 13 that surrounds the cavity 10 and can heat the cavity 10, a fan 14 adjacent to the intake pipe 11, and a fan 14 arranged in the cavity 10 And the compressor 15 that can cool the cavity 10. The fan 14 can blow toward the inner space 100 of the cavity 10 so that the water introduced into the inner space 100 from the air inlet pipe 11 is evenly distributed and reaches the required humidity of the inner space 100.

該現有的恆溫恆濕裝置1一方面是藉由該加熱管13與該壓縮機15來控制該腔體10內部空間100的溫度，另一方面也藉由該進氣管路11、該風扇14、該壓縮機15與該排水管路12來控制該腔體10內部空間100的濕度。當該內部空間100濕度不足時，該進氣管路11持續朝向該內部空間100引入水氣，以透過該風扇14均勻分布該內部空間100中的水氣；當該內部空間100濕度過高時，則啟動該壓縮機15對該內部空間100降溫，以令該內部空間100的過剩水氣冷凝成凝結水並掉落，且自該排水管路12排出凝結水以達到降低濕度的效果。The conventional constant temperature and humidity device 1 uses the heating pipe 13 and the compressor 15 to control the temperature of the internal space 100 of the cavity 10 on the one hand, and on the other hand also uses the air inlet pipe 11 and the fan 14 , The compressor 15 and the drain line 12 control the humidity of the internal space 100 of the cavity 10. When the humidity in the internal space 100 is insufficient, the air intake pipe 11 continuously introduces water vapor toward the internal space 100 to evenly distribute the water vapor in the internal space 100 through the fan 14; when the humidity in the internal space 100 is too high , The compressor 15 is started to cool the internal space 100, so that the excess moisture in the internal space 100 condenses into condensed water and falls, and the condensed water is discharged from the drain pipe 12 to achieve the effect of reducing humidity.

雖然該現有的恆溫恆濕裝置1能控制該腔體10內部空間100的溫度與濕度；然而，其控制濕度的途徑仍須藉由該風扇14與該壓縮機15來達成。該風扇14與壓縮機15不僅佔據該現有的恆溫恆濕裝置1的實體空間，更耗費電源，對於綠能環保來說並不具貢獻度。Although the existing constant temperature and humidity device 1 can control the temperature and humidity of the internal space 100 of the cavity 10; however, the method of controlling the humidity still needs to be achieved by the fan 14 and the compressor 15. The fan 14 and the compressor 15 not only occupy the physical space of the existing constant temperature and humidity device 1, but also consume power, and do not contribute to green energy and environmental protection.

經上述說明可知，改良現有的恆溫恆濕裝置1以在節省實體空間的前提下又能達到環保的效用，是所屬技術領域中的相關技術人員有待突破的課題。It can be seen from the above description that improving the existing constant temperature and humidity device 1 to achieve environmental protection while saving physical space is a subject to be broken through by relevant technicians in the technical field.

因此，本發明的目的，即在提供一種節能環保之多層隔板溫濕控制裝置。Therefore, the purpose of the present invention is to provide an energy-saving and environment-friendly multi-layer separator temperature and humidity control device.

於是，本發明節能環保之多層隔板溫濕控制裝置，包括一腔體、一加熱單元、至少三隔板，及一進氣管路。該腔體定義出一內部空間。該加熱單元設置於該腔體以對該腔體的內部空間升溫該等隔板是沿該腔體的一高度方向彼此間隔地設置於該腔體之內部空間，各隔板具有複數貫穿各自所對應之隔板的第一貫孔，該等隔板的面積是實質相等且第一貫孔的尺寸是沿該高度方向遞減。該進氣管路是設置於該腔體的一底部並與該內部空間連通。Therefore, the energy-saving and environment-friendly multi-layer separator temperature and humidity control device of the present invention includes a cavity, a heating unit, at least three separators, and an air inlet pipe. The cavity defines an internal space. The heating unit is arranged in the cavity to heat up the inner space of the cavity. The partitions are arranged in the inner space of the cavity at intervals along a height direction of the cavity, and each partition has a plurality of penetrating through respective positions. Corresponding to the first through holes of the partitions, the areas of the partitions are substantially the same and the size of the first through holes decreases along the height direction. The air inlet pipe is arranged at a bottom of the cavity and communicates with the internal space.

本發明的功效在於：在無需使用到耗費能源的風扇與壓縮機的前提下，直接經由該等隔板之第一貫孔的尺寸配置關係，令引進該內部空間的水蒸氣依據熱空氣上升的原理朝上均勻地分布至最上層的隔板上方。The effect of the present invention is: without using energy-consuming fans and compressors, directly through the size configuration relationship of the first through holes of the partitions, so that the water vapor introduced into the internal space rises according to the hot air The principle is evenly distributed to the top of the uppermost partition.

參閱圖1與圖2，本發明多層隔板溫濕控制裝置的一實施例，實質上是由以下所元件構成：一腔體2、一加熱單元3、至少三隔板4，及一進氣管路5。本發該實施例之多層隔板溫濕控制裝置更選擇性地包括複數流量控制計6，及一集水槽7。1 and FIG. 2, an embodiment of the temperature and humidity control device for the multi-layer partition of the present invention is essentially composed of the following elements: a cavity 2, a heating unit 3, at least three partitions 4, and an air inlet Pipeline 5. The temperature and humidity control device of the multi-layer separator in this embodiment of the present invention further optionally includes a plurality of flow control meters 6 and a water collection tank 7.

本發明該實施例之多層隔板溫濕控制裝置之腔體2定義出一內部空間20。具體來說，該腔體2包括彼此間隔設置的一底壁21與一頂壁22，及一圍繞該底壁21與該頂壁22並與該底壁21及頂壁22共同定義出該內部空間20的圍繞壁23。該腔體2之底壁21具有複數貫穿其自身的貫孔210，且該底壁21之該等貫孔210是彼此間隔地配置於該底壁21之一周緣處以鄰接該圍繞壁23。The cavity 2 of the multi-layer separator temperature and humidity control device of this embodiment of the present invention defines an internal space 20. Specifically, the cavity 2 includes a bottom wall 21 and a top wall 22 spaced apart from each other, and a surrounding the bottom wall 21 and the top wall 22 and together with the bottom wall 21 and the top wall 22 to define the interior The surrounding wall 23 of the space 20. The bottom wall 21 of the cavity 2 has a plurality of through holes 210 penetrating through itself, and the through holes 210 of the bottom wall 21 are spaced from each other at a periphery of the bottom wall 21 to abut the surrounding wall 23.

該加熱單元3設置於該腔體2以對該腔體2的內部空間20升溫。在本發明該實施例中，該加熱單元2是一圍繞該腔體2之圍繞壁23以位在該內部空間20外的加熱線圈。The heating unit 3 is disposed in the cavity 2 to heat the internal space 20 of the cavity 2. In this embodiment of the present invention, the heating unit 2 is a heating coil surrounding the surrounding wall 23 of the cavity 2 so as to be located outside the inner space 20.

該等隔板4是沿該腔體2的一高度方向Z彼此間隔地設置於該腔體2之內部空間20。各隔板4具有複數貫穿各自所對應之隔板4的第一貫孔410，該等隔板4的面積是實質相等且第一貫孔410的尺寸是沿該高度方向Z遞減；換句話說，該等隔板4之單位面積內所分佈的第一貫孔410密度是沿該高度方向Z遞增。具體來說，該等隔板4是沿該高度方向Z彼此間隔且實質平行地固定於該腔體2的圍繞壁23。各隔板4還具有複數第二貫孔420，各隔板4之該等第二貫孔420是貫穿各自所對應之隔板4，且彼此間隔地配置於各自所對應之隔板4的一周緣處以圍繞各自所對應之隔板4的第一貫孔410，並鄰接該圍繞壁23。較佳地，各隔板4的厚度是介於1 mm至2 mm間，且兩相鄰隔板4間具有一間距，該間距是介於10 mm至30 mm間。本發明該實施例之各隔板4是由一選自下列所構成之群組的金屬材料所製成：銅、鋁合金及不鏽鋼。The partitions 4 are arranged in the inner space 20 of the cavity 2 at intervals along a height direction Z of the cavity 2. Each partition 4 has a plurality of first through holes 410 penetrating the corresponding partition 4, the areas of the partitions 4 are substantially the same, and the size of the first through holes 410 decreases along the height direction Z; in other words The density of the first through holes 410 distributed in the unit area of the partitions 4 increases along the height direction Z. Specifically, the partitions 4 are fixed to the surrounding wall 23 of the cavity 2 at intervals along the height direction Z and substantially parallel. Each partition 4 also has a plurality of second through holes 420. The second through holes 420 of each partition 4 penetrate through the partition 4 corresponding to each other, and are arranged at intervals on a circumference of the partition 4 corresponding to each other. The edge surrounds the first through hole 410 of the respective partition 4 and is adjacent to the surrounding wall 23. Preferably, the thickness of each partition 4 is between 1 mm and 2 mm, and there is a gap between two adjacent partitions 4, and the gap is between 10 mm and 30 mm. Each partition 4 of this embodiment of the present invention is made of a metal material selected from the group consisting of copper, aluminum alloy and stainless steel.

該進氣管路5是設置於該腔體2的一底部並與該內部空間20連通。具體來說，該進氣管5是設置於該腔體2的底壁21以位在該內部空間20外，並具有複數彼此間隔設置且連通該腔體2之內部空間20的進氣段51。The air inlet pipe 5 is arranged at a bottom of the cavity 2 and communicates with the internal space 20. Specifically, the air inlet pipe 5 is arranged on the bottom wall 21 of the cavity 2 to be located outside the internal space 20, and has a plurality of air inlet sections 51 spaced apart from each other and communicating with the internal space 20 of the cavity 2 .

各流量控制計6是分別設置於各自所對應之進氣管5的進氣段51以位在該腔體2的內部空間20外。Each flow control meter 6 is respectively arranged in the intake section 51 of the corresponding intake pipe 5 so as to be located outside the internal space 20 of the cavity 2.

該集水槽7是設置於該腔體2的底壁21下方以面向該底壁21之貫孔210，並具有一排水孔70。The water collection tank 7 is disposed under the bottom wall 21 of the cavity 2 to face the through hole 210 of the bottom wall 21 and has a drain hole 70.

整合上述各元件的詳細說明再配合參閱圖2，本發明該實施例之溫濕控制裝置是經由該加熱單元3來調控該內部空間20的溫度，並透過該進氣管5的該等進氣段51分別自該腔體2的底壁21引導水蒸氣(請參閱圖2位於底壁21處所顯示的假想線與箭頭符號)進入該腔體2的內部空間20中，以藉由該等流量控制計6調節引進該內部空間20的水蒸氣量。根據熱空氣上升的原理，引入到該內部空間20中的水蒸氣自然是沿著該高度方向Z朝上擴散。因此，本發明該實施例進一步透過該等隔板4之第一貫孔410在各自所對應之隔板4中的尺寸配置關係(即，該等第一貫孔410尺寸沿該高度方向Z遞減)，以令引進該內部空間20底部處的水蒸氣是先經由下層隔板4之大尺寸的第一貫孔410初步地分散於下層隔板4與中層隔板4之間的第一空間。在水蒸氣通過下層隔板4抵達中層隔板4時，水蒸氣是進一步地經由中層隔板4之中尺寸的第一貫孔410繼續分散於中層隔板4與上層隔板4之間的第二空間，基於中層隔板4之單位面積的第一貫孔410分佈密度大於下層隔板4，因而位處於第二空間處的水蒸氣分佈是相對較第一空間處更為均勻。同理，在水蒸氣通過中層隔板4抵達上層隔板4時，水蒸氣是進一步地經由上層隔板4之小尺寸的第一貫孔410繼續分散於上層隔板4上方的第三空間，也基於上層隔板4之單位面積的第一貫孔410分佈密度更大於中層隔板4，因而位處於第三空間處的水蒸氣分佈是相對第二空間處更為均勻。For the detailed description of integrating the above-mentioned components and referring to FIG. 2, the temperature and humidity control device of this embodiment of the present invention regulates the temperature of the internal space 20 through the heating unit 3, and the intake air through the intake pipe 5 Segments 51 respectively guide water vapor from the bottom wall 21 of the cavity 2 (please refer to the imaginary line and arrow symbol displayed at the bottom wall 21 in FIG. 2) into the internal space 20 of the cavity 2 to use the flow rate The control meter 6 adjusts the amount of water vapor introduced into the internal space 20. According to the principle of the rising of hot air, the water vapor introduced into the internal space 20 naturally diffuses upward along the height direction Z. Therefore, in this embodiment of the present invention, the size arrangement relationship of the first through holes 410 of the partitions 4 in the partitions 4 corresponding to each other (ie, the size of the first through holes 410 decreases along the height direction Z) ), so that the water vapor introduced at the bottom of the internal space 20 is initially dispersed in the first space between the lower partition 4 and the middle partition 4 through the large-sized first through holes 410 of the lower partition 4. When water vapor passes through the lower separator 4 and reaches the middle separator 4, the water vapor is further dispersed through the first through holes 410 in the middle of the middle separator 4 and dispersed between the middle separator 4 and the upper separator 4. In the second space, the distribution density of the first through holes 410 per unit area of the middle partition 4 is greater than that of the lower partition 4, so the water vapor distribution in the second space is relatively more uniform than that in the first space. Similarly, when water vapor passes through the middle partition 4 and reaches the upper partition 4, the water vapor is further dispersed in the third space above the upper partition 4 through the small-sized first through holes 410 of the upper partition 4. Also based on the distribution density of the first through holes 410 per unit area of the upper partition 4 is greater than that of the middle partition 4, the water vapor distribution in the third space is more uniform than that in the second space.

經由上段詳細說明可知，本發明該實施例之水蒸氣是在無須透過風扇14的前提下，即能藉由該等隔板4之第一貫孔410尺寸的配置關係來達到水蒸氣均勻分佈的效果。就綠能環保來細究，本發明該實施例較該現有的恆溫恆濕裝置1更為節能環保，也較不佔據實體空間。It can be seen from the detailed description in the previous paragraph that the water vapor in this embodiment of the present invention does not need to pass through the fan 14, that is, the uniform distribution of water vapor can be achieved by the arrangement of the sizes of the first through holes 410 of the partitions 4 effect. In terms of green energy and environmental protection, this embodiment of the present invention is more energy-saving and environmentally friendly than the existing constant temperature and humidity device 1, and does not occupy physical space.

在本發明該實施例中，該等隔板4的數量是以三個為例做說明，但本發明並不限於此。須說明的是，該等隔板4的數量需視該腔體2的整體尺寸而定。換句話說，當該腔體2於該高度方向Z的尺寸越大時，則該等隔板4的數量則相對增加，且位處於越上層的隔板4的第一貫孔410尺寸越小，單位面積內之第一貫孔410的分佈密度越高。In this embodiment of the present invention, the number of the partitions 4 is three as an example, but the present invention is not limited to this. It should be noted that the number of the partitions 4 depends on the overall size of the cavity 2. In other words, when the size of the cavity 2 in the height direction Z is larger, the number of the partitions 4 is relatively increased, and the size of the first through hole 410 of the partition 4 at the upper layer is smaller , The distribution density of the first through holes 410 per unit area is higher.

再參閱圖2，此處需進一步說明的是，當本發明該實施例之內部空間20的濕度過高時，則是降低該加熱單元3的輸出功率以降低該內部空間20的溫度，令該內部空間20過剩的水蒸氣冷凝成吸附於該腔體2之圍繞壁23上的凝結水，使吸附於該圍繞壁23上的凝結水以沿著該圍繞壁23朝下滑落依序流經該等隔板4的第二貫孔420與該底壁21的貫孔210，從而集結於該底壁21下方的集水槽7中由該排水孔70流出。2 again, it should be further explained that when the humidity of the internal space 20 in this embodiment of the present invention is too high, the output power of the heating unit 3 is reduced to reduce the temperature of the internal space 20, so that The excess water vapor in the internal space 20 is condensed into condensed water adsorbed on the surrounding wall 23 of the cavity 2, so that the condensed water adsorbed on the surrounding wall 23 flows downwards along the surrounding wall 23 in sequence through the The second through hole 420 of the partition plate 4 is equal to the through hole 210 of the bottom wall 21 so as to gather in the water collection tank 7 below the bottom wall 21 and flow out from the drain hole 70.

經上段的詳細說明可知，本發明該實施例在調降該內部空間20之濕度時，是在無須使用到該現有之恆溫恆濕裝置1的壓縮機15的前提下，調降該加熱單元3之輸出功率即可達成。同樣地，就綠能環保來細究，本發明該實施例無需透過該壓縮機15即可達成調降該內部空間20濕度的效用，較該現有的恆溫恆濕裝置1也更為節能環保，更不佔據實體空間。It can be seen from the detailed description in the previous paragraph that, when reducing the humidity of the internal space 20 in this embodiment of the present invention, the heating unit 3 is reduced without using the compressor 15 of the existing constant temperature and humidity device 1 The output power can be achieved. Similarly, in terms of green energy and environmental protection, this embodiment of the present invention can achieve the effect of reducing the humidity of the internal space 20 without using the compressor 15, and is more energy-saving and environmentally friendly than the existing constant temperature and humidity device 1. Does not occupy physical space.

綜上所述，本發明之多層隔板溫濕控制裝置在無需額外使用到耗費能源的風扇與壓縮機的前提下，直接經由該等隔板4之第一貫孔410的尺寸配置關係，即可令引進該內部空間20的水蒸氣依據熱空氣上升的原理朝上均勻地分布至上層隔板4上方的第三空間，且在調降該內部空間20濕度時僅需調降該加熱單元3之輸出功率令過剩的水蒸氣冷凝成吸附於該圍繞壁23上的凝結水以順著該圍繞壁23朝下依序流經各隔板4之第二貫孔420與底壁21的貫孔210從而集結於該集水槽7由其排水孔70流出，因而不佔據實體空間也具有綠能環保的效用，故確實能達成本發明的目的。In summary, the temperature and humidity control device of the multi-layer partition plate of the present invention does not need to use additional energy-consuming fans and compressors, and directly passes through the size configuration relationship of the first through holes 410 of the partition plates 4, namely The water vapor introduced into the internal space 20 can be evenly distributed upwards to the third space above the upper partition 4 according to the principle of hot air rising, and only the heating unit 3 needs to be lowered when the humidity of the internal space 20 is reduced. The output power causes the excess water vapor to condense into condensed water adsorbed on the surrounding wall 23 to flow downwards along the surrounding wall 23 through the second through holes 420 of the partitions 4 and the through holes of the bottom wall 21 As a result, 210 is assembled in the water collection tank 7 and flows out from its drainage hole 70. Therefore, it does not occupy physical space and has the effect of green energy and environmental protection, so it can indeed achieve the purpose of the invention.

惟以上所述者，僅為本發明的實施例而已，當不能以此限定本發明實施的範圍，凡是依本發明申請專利範圍及專利說明書內容所作的簡單的等效變化與修飾，皆仍屬本發明專利涵蓋的範圍內。However, the above are only examples of the present invention. When the scope of implementation of the present invention cannot be limited by this, all simple equivalent changes and modifications made in accordance with the scope of the patent application of the present invention and the content of the patent specification still belong to Within the scope of the patent for the present invention.

2:腔體 20:內部空間 21:底壁 210:貫孔 22:頂壁 23:圍繞壁 3:加熱單元 4:隔板 410:第一貫孔 420:第二貫孔 5:進氣管路 51:進氣段 6:流量控制計 7:集水槽 70:排水孔 Z:高度方向2: cavity 20: Internal space 21: bottom wall 210: Through hole 22: top wall 23: Surround the wall 3: heating unit 4: partition 410: first through hole 420: second through hole 5: intake pipe 51: intake section 6: Flow control meter 7: Sump 70: Drain hole Z: height direction

本發明的其他的特徵及功效，將於參照圖式的實施方式中清楚地呈現，其中： 圖1是一局部剖視示意圖，說明一種現有的恆溫恆濕裝置；及 圖2是一局部剖視示意圖，說明本發明之多層隔板溫濕控制裝置的一實施例。 Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, in which: Figure 1 is a partial cross-sectional schematic diagram illustrating an existing constant temperature and humidity device; and Fig. 2 is a schematic partial cross-sectional view illustrating an embodiment of the temperature and humidity control device of the multilayer separator of the present invention.

2:腔體 2: cavity

20:內部空間 20: Internal space

21:底壁 21: bottom wall

210:貫孔 210: Through hole

22:頂壁 22: top wall

23:圍繞壁 23: Surround the wall

3:加熱單元 3: heating unit

4:隔板 4: partition

410:第一貫孔 410: first through hole

420:第二貫孔 420: second through hole

5:進氣管路 5: intake pipe

51:進氣段 51: intake section

6:流量控制計 6: Flow control meter

7:集水槽 7: Sump

70:排水孔 70: Drain hole

Z:高度方向 Z: height direction

Claims (10)

一種多層隔板溫濕控制裝置，包含： 一腔體，定義出一內部空間； 一加熱單元，設置於該腔體以對該腔體的內部空間升溫； 至少三隔板，沿該腔體的一高度方向彼此間隔地設置於該腔體之內部空間，各隔板具有複數貫穿各自所對應之隔板的第一貫孔，該等隔板的面積是實質相等且第一貫孔的尺寸是沿該高度方向遞減；及 一進氣管路，設置於該腔體的一底部並與該內部空間連通。 A multi-layer separator temperature and humidity control device, comprising: A cavity defines an internal space; A heating unit arranged in the cavity to heat the inner space of the cavity; At least three partitions are arranged in the inner space of the cavity at intervals along a height direction of the cavity, each partition has a plurality of first through holes penetrating its corresponding partition, and the area of the partitions is Substantially equal and the size of the first through hole decreases along the height direction; and An air inlet pipe is arranged at a bottom of the cavity and communicates with the internal space. 如請求項1所述的多層隔板溫濕控制裝置，其中，各隔板的厚度是介於1 mm至2 mm間。The multi-layer separator temperature and humidity control device according to claim 1, wherein the thickness of each separator is between 1 mm and 2 mm. 如請求項2所述的多層隔板溫濕控制裝置，其中，兩相鄰隔板間具有一間距，且該間距是介於10 mm至30 mm間。The temperature and humidity control device for the multilayer separator according to claim 2, wherein there is a distance between two adjacent separators, and the distance is between 10 mm and 30 mm. 如請求項1所述的多層隔板溫濕控制裝置，其中，該腔體包括彼此間隔設置的一底壁與一頂壁，及一圍繞該底壁與該頂壁並與該底壁及頂壁共同定義出該內部空間的圍繞壁；該等隔板是沿該高度方向彼此間隔且實質平行地固定於該腔體的圍繞壁。The multi-layer separator temperature and humidity control device according to claim 1, wherein the cavity includes a bottom wall and a top wall spaced apart from each other, and a bottom wall and a top wall surrounding the bottom wall and the top wall. The walls jointly define the surrounding wall of the internal space; the partitions are spaced from each other along the height direction and fixed to the surrounding wall of the cavity substantially in parallel. 如請求項4所述的多層隔板溫濕控制裝置，其中，該進氣管是設置於該腔體的底壁以位在該內部空間外，並具有複數彼此間隔設置且連通該腔體之內部空間的進氣段。The multi-layer separator temperature and humidity control device according to claim 4, wherein the air inlet pipe is arranged on the bottom wall of the cavity so as to be located outside the internal space, and has a plurality of spaces arranged at intervals and communicating with the cavity. The intake section of the internal space. 如請求項5所述的多層隔板溫濕控制裝置，還包含複數流量控制計，各流量控制計是分別設置於各自所對應之進氣管的進氣段以位在該腔體的內部空間外。The multi-layer baffle temperature and humidity control device according to claim 5, further comprising a plurality of flow control meters, each flow control meter is respectively arranged in the intake section of the corresponding intake pipe to be located in the inner space of the cavity outer. 如請求項4所述的多層隔板溫濕控制裝置，其中，各隔板還具有複數第二貫孔，各隔板之該等第二貫孔是貫穿各自所對應之隔板，且彼此間隔地配置於各自所對應之隔板的一周緣處以圍繞各自所對應之隔板的第一貫孔。The multi-layer separator temperature and humidity control device according to claim 4, wherein each separator further has a plurality of second through holes, and the second through holes of each separator penetrate the corresponding separator and are spaced apart from each other The ground is arranged at the periphery of the respective partitions to surround the first through holes of the respective partitions. 如請求項7所述的多層隔板溫濕控制裝置，還包含一集水槽，且該腔體之底壁具有複數貫穿其自身的貫孔，該底壁之該等貫孔是彼此間隔地配置於該底壁之一周緣處，該集水槽是設置於該腔體的底壁下方以面向該底壁之貫孔，並具有一排水孔。The multi-layer separator temperature and humidity control device according to claim 7, further comprising a water collection tank, and the bottom wall of the cavity has a plurality of through holes penetrating through itself, and the through holes of the bottom wall are arranged at intervals At a peripheral edge of the bottom wall, the water collection tank is arranged under the bottom wall of the cavity to face the through hole of the bottom wall, and has a drainage hole. 如請求項1所述的多層隔板溫濕控制裝置，其中，各隔板是由一選自下列所構成之群組的金屬材料所製成：銅、鋁合金及不鏽鋼。The multi-layer separator temperature and humidity control device according to claim 1, wherein each separator is made of a metal material selected from the group consisting of copper, aluminum alloy and stainless steel. 如請求項1所述的多層隔板溫濕控制裝置，其中，該加熱單元是一圍繞該腔體的加熱線圈。The multi-layer separator temperature and humidity control device according to claim 1, wherein the heating unit is a heating coil surrounding the cavity.

Images