TW200401661A - Absorbing type dehumidifier - Google Patents

Abstract

The present invention relates to a structure of absorbing type dehumidifier, which is very simple and requires no thermal insulation while has high productive efficiency, wherein a honeycomb rotator with end faces forming mounting planes. Mounted to the mounting planes are a pair of upper and lower chamber-assembling end caps 2, 14 each comprising integrally formed absorbing chamber 3 with an absorbing section and de-absorbing chamber 4 having de-absorption function, the absorbing chamber and the de-absorbing chamber being spaced from each other. The honeycomb rotator 1 and the chamber-assembling end caps 2, 14 mounted to upper and lower end of the rotator form the absorbing type dehumidifier.

Description

200401661

Technical Field to which the Invention belongs: The present invention is

This type of adsorption dehumidifier is particularly suitable for applications requiring low supply of air. Previous technology: Due to the characteristics of the point dehumidifier, the adsorption dehumidifier has been used in recent years to prevent and prevent food mold. The vapor adsorption dehumidifier has a simple structure. Adsorption using a honeycomb rotor The adsorption chamber is separated by a honeycomb rotor. An example of such a chamber structure can be found in 119323. Refrigerated dehumidifiers are more suitable for supplying low dew. Factories that require tight control of air conditions are rapidly expanding. In particular, the characteristics of the adsorption-type 4 Beg low using the honeycomb rotor filled with the agent are being widely used. At least the structure of the ordinary type dehumidifier contains at least the desorption and desorption, as well as the cooling. See Japanese Patent Publication No. 5 8 SUMMARY OF THE INVENTION: The problem to be solved by the invention: During the use of the existing compartment structure as described above, the heat of the flowing high-temperature air in the two desorption chambers will be conducted to the adsorption zone (chamber) and the cold ^: Temperature sound of flowing air in the desorption area (chamber); I area (to) / "I fortunately, such as Shibu is not only a loss of energy, but also will pay F ,, clothing 丨 丨 J " 丨Increasing the temperature of L moving will cause the problem of reduced adsorption performance. In order to solve this problem, heat-resistant foamed stone trees are used in the desorption area ^

7062-5786-PF (Nl), Ahddub.ptd Page 5 200401661 V. Description of the invention (2) --------, cut, quasi-cladding for thermal insulation, but this method has low production efficiency. The present invention provides an adsorption type dehumidifier with an extremely simple structure, which does not need to apply heat insulation and has a high production efficiency. Means to solve the problem: 1. There is a joint plane on the end surface of the bee-writing rotor, which is connected to it, an integrated adsorption chamber with an adsorption zone and a desorption chamber I with a desorption function, and a lid to the adsorption cover. The chamber and the desorption chamber are separated and arranged in a group, and 7 knives are attached to the upper and lower ends of the honeycomb rotor to form a pair of adsorption chambers and a pair of desorption chambers in the device. Embodiment: The invention described in the first item of the patent application scope of the present invention is: a joint plane is provided on the end face of the bee-writing rotor, and an integrated adsorption chamber with an adsorption zone and a desorption function are connected to the joint plane. The end cap of the combination chamber of the desorption chamber, the adsorption chamber and the desorption chamber are separated and arranged in a group, and are respectively installed at the upper and lower ends of the honeycomb rotor to form a pair of adsorption chambers and a pair of desorption chambers in the device. The separated adsorption and desorption chambers have the effect of eliminating heat conduction between the adsorption and desorption chambers. Examples: ^ The following describes the adsorption dehumidifier of the present invention in detail with reference to the drawings. FIG.} Is a cross-sectional view taken along the line AA in FIG. 2, and FIG. 3 is a cross-sectional view taken along the line B-B in FIG. 2. In Fig. 2, 1 is a dehumidifying rotor. It is formed into a honeycomb shape by inorganic fiber paper such as ceramic paper, and a hygroscopic agent such as Shi Xi's knee or zeolite is made on the honeycomb paper. Dehumidification

200401661 V. Description of the invention (3) The child can be driven by a gear stalling motor (there is no daylight out in the picture). In Fig. 2, 2 is an end cover of the upper combination chamber, which can be made of aluminum or die-casting. The upper cover of the upper combination chamber is provided with an adsorption chamber 3 and a desorption chamber 4 and a purification chamber 5 ′. That is, the flat chamber 6 of the upper cover 2 of the upper combination chamber which is connected to the end face of the dehumidification rotor 1 is provided with an adsorption chamber 3 and a desorption chamber. The chamber 4 and the clean room $, as shown in Fig. 1, Fig. 3, and Fig. 4, each separate chamber is made to be separated from each other. Similarly, the adsorption chamber 3, the desorption chamber 4 and the purification chamber $ are provided with air ports 7, 8, 9 respectively. The garment 10 is an end cap of the lower combination chamber, which has a shape similar to the end cap of the upper assembly chamber. The flat part 14 of the end cap of the lower assembly chamber is also made as shown in FIG. 6 and FIG. The adsorption chambers 丨,, 12 and purge chambers 3 shown are also separated from each other independently. As shown in Fig. 6, an air port 15 is provided in the adsorption chamber 11, an air port 16 is provided in the solution, and an air port 17 is provided in the purification chamber. The solution to 12 and 8 is a cross-sectional view taken along the line C-c in FIG. 1 '. From FIG. 8, it can be determined that the width W of the starting and sealing areas is wide enough to ensure that there is a sufficiently wide sealing area therebetween. Since no leakage of air must be ensured, the width of the seal area in Figure 8? Open this width. Strictly speaking, there is a space between the thickness of each chamber and the thickness of the work space between 5; breaking the width of the sealing area W and the walls of each chamber. From Figure 8, you can also see the Qiwen + ^ _ plane, so in the combination The end cover of the chamber is: \ The inner core is connected to the lower end of the flat surface 6, and it can be used in the manufacturing process. If the casting is used, it is not necessary to use casting scales or direct injection molding of synthetic resin.

7〇62-5786-PF (Nl), Ahddub. Ptd Page 7 200401661 V. Description of Invention (4) Manufacture. The adsorption chamber 3 of the upper combination chamber end cover 2 and the adsorption chamber 11 of the lower combination chamber end cover 10 are disposed opposite to each other via a dehumidifying rotor, and the desorption of the upper combination chamber end cover 2 to 4 is also interposed between the dehumidification rotor and the lower combination chamber. The desorption chamber 1 2 of the end cap 〇 is opposite to the purification chamber 13 of the upper combination chamber end cap 2 and the purification chamber 13 of the lower combination chamber end cap 10 is opposed to the dehumidification rotor. The three end points of the plane portion 6 of the upper combination chamber end cover 2 are respectively screwed, screwed, screwed, and screwed. The three end points of the plane portion 14 of the lower combination chamber end cover 10 are also similar. Correspondingly made with screw holes, 22 and 23. So: the screw hole 22 is passed through and fixed with a long screw (not shown in the picture): 7 screw holes, screw holes, screw holes 19 and screw holes 21, screw holes 2 0 and screw holes 2 3 also use a = Cleverly passed through and fixed. For example, the end cover 2 and the lower part of the upper assembly chamber are sandwiched between the dehumidification rotor and the dehumidification rotor by using the opening to 钿 盍 1 0, and the dehumidification rotor can be rotated freely, but the upper and lower end of the lower assembly chamber is 1.4. It is up and down with the dehumidification rotor 1. There is no state of air leakage between the end faces. 'In-to drive, when the air is processed # θ is not out of the day) to drive the transfer room 3. As shown in Figure 7 :; " 7 2 The upper λ combination chamber end ⑽1, which becomes dry air and enters. Dehumidify the rotor air. The yttrium ytterbium is rolled to the place where it is dried and air-treated, and the wind is removed. The salute passes through the dehumidification to turn the moisture in the second tick. Page 87062-5786-PF (Nl), Ahddub.ptd 200401661 2. Description of the invention (5) (ii) Adsorption of the adsorbent in (5) generates adsorption heat. The temperature of the dry air passing through the adsorption chamber 11 of the lower combination chamber end cover 10 is thereby increased. As shown in FIG. 5, since the adsorption chamber 丨 i is separated from the purification chamber 丨 3, the heat of the adsorption chamber 11 is not conducted to the purification chamber 13. In order to remove and remove the moisture adsorbed in the wet rotor 1, the desorption chamber 12 of the chamber end cover 10 must be transported at a temperature of 100-150 degrees Celsius.] The hot air passes through the dehumidification rotor i and is adsorbed on the dehumidification. If the moisture is broken and sucked, the high-humidity air is exhausted through the chambers 4 in the upper combined ends 1, and 1. While the desorption of the cover 2 is thus, the dehumidification rotor 1 is sent from the purification chamber 5 of the upper cover 2 of the upper combination chamber. When the dehumidification rotor 1 is passed, the deaeration gas passes through the temperature dehumidification rotor 丨 and is cooled while entering the second milk. On the other hand, the air raised in the clean room 13 is heated.丨, from the mouth to the worm cover 10: The air entering the purification chamber 13 is heated, and the ::: device is heated to a temperature that can be sent to the desorption chamber 12. Use: Air reheats the heat source energy. Examples that can recover the above upper combination chamber end cover, lower combination attachment room, desorption chamber, and purification room: All are provided with a suction lower combination room end cover without a purification room, only; suction = closing room end Cover and can be used. And desorption chamber also have the effect of the invention: "The adsorption dehumidifier of the present invention is as described above,

7062-5786-PF (Nl), Ahddub.ptd Page 9 盍 Adsorption chamber and desorption chamber in the end cap of the lower combined chamber and 2 ′, and the end of the chamber chamber 200401661 V. Description of the invention (6) stand up, isolated from each other, each No heat transfer occurs between the chambers, so no heat treatment is required. In addition, the adsorption chamber, desorption chamber and purification chamber are independent and isolated from each other, so that a sufficient sealing area can be ensured between the chambers, and the sealing effect can be ensured. Furthermore, since the adsorption type dehumidifier of the present invention is connected with the adsorption rotor, the flat portion requiring airtightness, the desorption chamber of the adsorption chamber, and the purification chamber can be integrated into one, so that the casting or die casting or synthetic resin can be used to mold the energy. Easily mass produced.

7062-5786-PF (Nl); Ahddub.ptd Page 10 200401661 Brief Description of Drawings Figure 1 is an A-A cross-sectional view in Figure 2 as an example of an adsorption dehumidifier of the present invention. Fig. 2 is a front view of an example of an adsorption type dehumidifier according to the present invention. Fig. 3 is a perspective view showing an example of an adsorption type dehumidifier according to the present invention. Fig. 4 is a plan view showing an example of an adsorption type dehumidifier according to the present invention. Fig. 5 is a cross-sectional view taken along the line B-B in Fig. 2 as an example of an adsorption type dehumidifier of the present invention. Fig. 6 is a lower end view of an example of an adsorption type dehumidifier according to the present invention. Fig. 7 is a schematic perspective view showing the air flow of the adsorption dehumidifier of the present invention. Fig. 8 is a sectional view taken along the line C-C in Fig. 1 as an example of an adsorption type dehumidifier of the present invention. Explanation of symbols: 1 ~ dehumidification rotor; 3 ~ adsorption chamber; 5 ~ purification chamber; 7, 8, 9 ~ air port; 11 ~ adsorption chamber; 1 3 ~ purification chamber; 15, 16, 17 ~ air port; 18, 19 20, 21, 22 2 ~ Upper combination chamber end cap; 4 ~ Desorption chamber; 6 ~ Plane section; 10 ~ Lower combination chamber end cap; 1 2 ~ Desorption chamber; 1 4 ~ Plane section; 2 3 ~ Screw hole .

7062-5786-PF (Nl), Ahddub.ptd Page 11

Claims (1)

200401661--6. Scope of patent application Plane, and its phase J f: ί f: It is equipped on the end face of the honeycomb rotor with a desorption function with a suction function. The above-mentioned adsorption chamber and desorption chamber 间隔 are spaced apart and arranged in accordance with the electrical specifications. The above-mentioned adsorption chamber and desorption chamber 在 are assembled in a beetle-shaped rotation: two f ', and the aforementioned-paired combination chamber end caps are respectively formed on the upper and lower ends of the rotor. Person 2 · The adsorption dehumidifier as described in item 1 of the patent scope of Shenyang, wherein the chambers (adsorption chamber and desorption chamber or purification chamber) on the end cover of the combination chamber are connected with the end face of the honeycomb rotor , To ensure that the width of the airtight plane between each compartment is W sealed surface. 3. The adsorption type dehumidifier according to item 2 of the scope of the patent application, wherein each of the chambers on the end cover of the combined chamber is separated by a space including the width W of the sealing area and the thickness of the wall of each chamber. 4 · The adsorption dehumidifier according to item 1 of the scope of patent application, wherein the end caps of each combination chamber are cast (or made) in one piece. Φ Page 12 7062-5786-PF (Nl), Ahddub.ptd r-i λ r?