TWI364520B - Dehumidifier - Google Patents

Description

1364520 IX. Description of the Invention: [Technical Field] The present invention relates to a dehumidifier, and more particularly to a dehumidifier having a rotary dehumidification mechanism. [Prior Art] The prior dehumidifier' has a body casing, which is respectively formed with a suction port that attracts the inner air and an exhaust port that discharges dry air, and a partition plate that divides the inside into a suction port side and exhaust Mouth side. Further, a circular opening portion is formed in the partition plate, and the dehumidification rotor is rotatably provided to cover the opening. P. Further, a dehumidification air passage is formed, and the self-suction port passes through the portion of the dehumidification rotor to reach the exhaust port; and the regeneration circulation air passage is partially passed through the dehumidification rotor in order to make the moisture of the sucker in the dehumidification rotor re-twist (off) cycle. a slightly cross-shaped support and a circular opening of the partition plate

The arm arm' has a screw hub with the other end portion (the same as the center of the opening portion), and a dehumidification rotor is supported on the screw hub shaft. The regenerative circulation air passage has a regenerative fan that allows the reconditioning air to pass through a regenerative air passage portion that is divided by a support arm (the same as a quarter circle of the material), and passes from the exhaust side to the intake side; The regulator is disposed on the exhaust side; the condenser is disposed on the intake side; and the regeneration return to the hurricane portion is configured to return the regeneration air from the intake side to the exhaust side. In addition, the dehumidification air passage system has a dehumidification wind, and the foregoing dehumidification fan transmits a fan-shaped range in which the indoor line passes through the knots and is divided by the support arms (the same

2148-9790-PF 6 1364520 The dehumidification air passage section in the range of approximately 1/4 circle) passes through the suction side to the exhaust side. Moreover, the condenser is disposed on the suction side of the dehumidification air passage to be exposed to indoor air. "Dehumidification rotor is made of zeolite or the like, and absorbs moisture at room temperature to absorb moisture." In addition, it exhibits desorption at high temperature and releases the absorbed water. ', Medium' is driven by the drive motor. Therefore, when the dehumidification rotor passes through the dehumidification air passage, the moisture contained in the indoor air is sucked (absorbed), and the indoor air passing through is dried. In addition, when the dehumidification rotor passes through the regeneration air passage, The passage of the heated air causes the absorbed moisture to be released, and the passing air becomes high-humidity. (For example, refer to the patent document 。. [Patent Document 1] 曰 Patent No. 38578〇9 (4th to 5th) Page, Fig. 2) [Summary of the Invention] [Problems to be Solved by the Invention]

However, the dehumidifier disclosed in Patent Document 1 is a dehumidification rotor burial supported by a shaft (screw valley) fixed to a cross portion of a slightly cross-shaped support 'α. So there are the following problems. (1) The support (4) is thinner. Therefore, the rigidity is small and the deformation is easy. The partition plate is made of resin and the molded product is molded. Therefore, in particular, the support arm is deformed or deformed by injection molding. ..., the change caused by the heat of 70 years ago (2) Therefore, the mounting shaft of the dehumidification rotor of the shaft is vibrated, and the dehumidification rotor contacts the surroundings when it rotates. (screw hub) will

2148-9790-PF 7 !364520 (3) In order to avoid the above contact, the gap between the dehumidifying rotor and the partition plate is increased, and the gap between the dehumidifying rotor and the heater unit is increased, so that a lot of air is leaked from the above gap. . That is, the short pass of the air in the chamber which does not pass through the dehumidification rotor, or the amount of (leakage) of the heated air which does not pass through the dehumidification rotor becomes much larger.

(4) In this way, by reducing the amount of heated air supplied to the regeneration range, the temperature of the dehumidification rotor does not rise in the regeneration air passage, and the release of moisture absorbed (absorbed) becomes small. Further, in the dehumidification air passage, the dehumidification (hygroscopic) performance is lowered after the temperature of the dehumidification rotor is increased, and the temperature in the main body casing is increased because the dehumidification ability is lowered. (5) Also, the ventilation area (same as the aperture ratio) is narrowed because of the arm of the branch. In order to solve the above problems, Mao Ming has developed a dehumidifier that provides a dehumidifier with high dehumidification efficiency and low energy efficiency by providing a dehumidifier with a dehumidification efficiency that reduces the vibration and makes the indoor air and the heating hollow less. [Means for Solving the Problem] The dehumidifier of the present invention has a main body casing and an intake port; a port; the frame body 'fixed in the main body casing and having an opening; the device is fixed to the foregoing a frame body covering the opening branching mechanism is fixed to the above-mentioned squeezing, and the snorkeling rotor is attached to the opening portion: a gas condensing device, in the aforementioned heating The unit is heated in two: the water gas circulation mechanism in the regeneration air after the dehumidification rotor-part is formed from the aforementioned heater: slightly, regenerated, and the dehumidification rotor is described earlier.

2148-9790-PF 8 1364520 :: Return to the aforementioned heater list via the aforementioned regenerative air condenser :: Circulating air path; rotor rotating mechanism, 4 set in the aforementioned frame; and dehumidified air blowing mechanism, formed! Wet air wind road. In addition to the effect of the invention, the dehumidifier of the present invention is rotatably mounted on the heater unit _ and 'fixed with a shaft support mechanism' fixed to the casing: the dehumidification rotor, Therefore, it is possible to minimize the rotation of the dehumidification rotor. The κ vibration is reduced so that the gap between the dehumidification rotor and the partition can be made, and the gap between the dehumidification rotor and the heater unit (4) can be made, so that the air leaking from the gap becomes = less. So - to '# regeneration in the wind road (the same as the release. The water contained in the dehumidification rotor is released to the air passing through) performance, or dehumidification in the dehumidification air path (same as sorption) to include The performance of the dehumidification rotor in the passing air is improved. Therefore, the desired dehumidification of the indoor air can be performed, and the temperature in the main body casing is not improved. Further, since the support arm for supporting the dehumidification rotor can be removed, the area of the dehumidification air path and the regeneration air path can be increased, and the air path resistance in the dehumidification air path and the regenerative air path can be reduced. [Embodiment] [First Embodiment] Figs. 1 to 9 are schematic views showing a dehumidifier according to an embodiment of the present invention.

2150-9790-PF 9 45 4520 where, Figure 1 is a side cross-sectional view, Figure 2 is a top cross-sectional view, and Figure 3 is a three-dimensional view of a component (frame) '4 (a) - parts (heater unit) rear side view, section 4 (b) is a part (heater single) rear sectional view, Fig. 5 is a three-dimensional exploded view of the part (regeneration air circulation mechanism), the sixth Figure 1 is a cross-sectional view of a member (shaft support mechanism), Figure 7 is a cross-sectional view of a member (rotor rotation mechanism), and Figure 8 is a front view of a member (regeneration air trap), item 9 (a) Figure 1 is a front view of a component (regeneration air condenser), and Figure 9 (b) is a front view of the wind flow in a component (regeneration air condenser). Further, in the respective drawings, the same or equivalent parts are given the same reference numerals, and a part thereof is omitted. In the first and second figures, the dehumidifier 1 has the outer casing 10, and the casing 20' is fixed to the outer casing W. Inside, a large opening portion 21' heater unit 30 is formed, which is fixed to the frame 20 to cover the large opening portion 21 - portion; the shaft supporting mechanism 40' is fixed to the heater unit 3'''''''''''''''' It is attached to the shaft support mechanism 4〇 freely, covering all of the large openings 21. Further, it has a regenerating air condenser 6〇, which is dew condensation by water f contained in the regeneration air which is heated in the early 3C of the twister and passed through the dehumidification rotor 5(); and the regeneration air circulation mechanism 70 The refrigerant air circulation air passage is formed, and the regeneration air circulation air passage returns the regeneration air from the heater unit 30 through the dehumidification rotor 5 to the heater unit 3 via the regeneration air condenser 60. Moreover, it has: a rotor rotating mechanism 8 〇, in order to rotate the dehumidifying rotor

2148-9790-PF 10 丄 364520 is fixed to the frame 20; and the dehumidified air blowing mechanism 9 〇 forms a dehumidified air path, and the dehumidified air path is obtained from the suction port u through the dehumidification rotor 50 Exhaust port 12. (body casing) The body casing 10 is a frame having an air suction port u on the front side and an exhaust port 12 on the top surface, wherein a drain pan approximately parallel to the bottom surface is fixed, between the bottom surface and the drain pan 14 A drain groove 15 is provided. Further, an airflow direction adjusting plate 13 for adjusting the exhaust direction is disposed at the air discharge port 12, and a control mechanism (a detection mechanism including temperature or humidity) (not shown) is provided inside the body casing 10. Further, the main body casing 10 is separated by a dehumidifying rotor 50 and a casing 2, and is separated into an intake side to the inner air (the left side in FIG. 1 and the lower side in FIG. 2), and the indoor air. Exhaust side (the right side in the i-th picture, the upper side in the second figure). (Frame) Fig. 3 is a perspective view of the frame 2 of the frame 2 from the back side, and has a rectangular plate shape on the outer circumference. In the figure, a peripheral flange is formed on the upper and lower edges to the suction side f. 2〇a. Further, a large circular opening portion 2 is formed in the center portion of the casing 20, and a circular small opening portion 22 is formed around the periphery (the lower left side in the drawing), and a peripheral portion (the upper left in the figure) is formed around the circular opening portion 2 A rectangular recess 23 is formed. A large tubular portion 21a' projecting toward the intake side is formed on the periphery of the large opening portion 21, and a large tubular portion annular ring 21b is formed at the tip end of the large tubular portion 2ia. Moreover, it is large in shape. The inner circumference of the ring 21 b is folded back toward the exhaust side to form a large cylindrical shape.

The 2148-9790-PF 11-part circular flange 21 is passed through the chamber portion 21d"). C' is an air passage in the opening surrounded by the large cylindrical annular flange 21c (hereinafter referred to as "opening of indoor air"

In the small opening, the field α, the side gas system is opened to η, and the peripheral edge ' is also formed with a small cylindrical portion 22a which protrudes toward the exhaust side and the suction side, and the missing portion such as the Z small homomorphous portion 22a is formed by regeneration. Part of the empty circulation wind road. P 23 is a rectangular disk body projecting toward the suction side, wherein it has a space of the rotor rotating mechanism 8 (). Further, the portion is connected to the large f5 21, and the outer periphery of the dehumidifying rotor 5 is invaded into the recess 23 by the aforementioned continuous portion. Further, in the peripheral edge of the large opening portion 21, in the drawing, a mounting seat 24 for arranging the heater unit 3A is formed at a position approximately 1/4 of a circle on the lower right side. (heater unit) Figure 4 (a) shows the rear view of the dehumidifier of the heater unit; Figure 4 (b) shows the cross-sectional view of the dehumidifier of the heater unit; Figure 5 shows the three-dimensional view of the regenerative air circulation mechanism Exploded map. In the fourth and fifth figures, the heater unit 3 has a disk-shaped heater case 32 which is approximately 1/4 circle (fan-shaped) viewed from the back side, and a heat generating body housed in the heater case 32. 31. The heater casing 32 has a heater casing rear portion 33 and a heater casing side portion 34 forming a disk-shaped recess, and a heater casing flange 35° formed at the tip end of the heater casing side portion 34. The portion 34 has a circular arc-shaped side surface 2148-9790-PF 12 1364520 portion 34a, and a linear cross-section (planar shape), one pair of planar side surface portions 34b, 34d, and the other side planar side portion 34b A heater case opening portion 36 constituting a part of the circulation air path is formed. The heater housing flange 35' has an arc-shaped flange portion 35a, a part of the ring 'a pair of rectangular flange portions 35b, 35d; and an important flange portion 35c, a rectangular flange portion 35b and a rectangular shape The flange portion 35d intersects and is equivalent to an important part of the fan.

Further, the arcuate flange portion 35a is fixed to the installation seat 24 of the casing. At this time, the heater case 32 is formed in a disk shape of the heater case flange 35, and thus has a predetermined rigidity. (Shaft support mechanism) In the important flange portion of the heater unit 30, a shaft support mechanism 4 that rotatably supports the shaft dehumidification rotor 5G is provided. The shaft support mechanism 4 () supports the dehumidification rotor 5 无法 through the rotor center hole 51' of the dehumidification rotor 50 so as not to be pulled out. Fig. 6 shows an example of the shaft support mechanism 40. In Fig. 6(a), the stepped screw 4i has a head 仏, =r:/lb, and a thread forming the head end portion 41 of the cylindrical shaft portion 4lb. 卩41 c. Also, the thread The portion 41 of the blue portion 35. The upper female snail, the text (not shown) is formed on the important method, the cylindrical shaft portion 41b penetrates the rotor center hole 51 of the dehumidification rotor 50,

Rn * 彡 二 二. The 卩41a prevents the dehumidification rotor 50 from coming loose. Further, it is also possible to form a perforation by the flange 邛35c of the 嫂π r soil group, so that the thread (not shown) is screwed into the threaded portion 41c of the λΛ] river perforation, so that the P is a white snail, and the 糸41 It is provided in the heater unit 3〇. VIII In Figure 6(b), there is a step-by-step pirate 4 2 with a large diameter

2148-9790-PF \Λ 13 1364520 and small diameter portion 42b. Further, the screw 4 42c formed on the important inter-part 35c of the perforated material 49 〃 m (four) is screwed onto the small-diameter figure). In the female thread (not: 6 U), the cylindrical sleeve 43 is attached to the important method as c 03 % green 4 4 , ^ ° ^. The through-hole screw 42c is formed on the female thread (not shown) of the small-diameter portion 42b. Hand and screw in shape (dehumidification rotor)

',...the rotor 50' is a ventilating disc, the rotor center member 52 of the center hole 51, and the outer peripheral support frame W « l , 11 7 having the rotor formed into a broken gear 53 The frame 54 and the outer circumference are pressed down by the frame 55. And the outer circumference is the outer spear 'wet rotor 50'. The support frame 54 and the outer peripheral pressing frame 55 are used to hold the rotor 50, and are provided by the shaft support mechanism 4g, and are disposed in the large opening of the frame 20. Also p, the large cylindrical portion 21a of the dehumidification rotor 5〇' J σΡ 21. At this time, the suction side end surface of the dehumidification rotor 50 has a cylindrical flange 2丨c, π is close to the large passage indoor #气用Λ } Most of the indoor air that is attracted is passed through the dehumidification rotor, and the exhaust side of the rotor 50 (the flat heater housing flange 35 is closed), so that the system is close to the heater unit 30. After the wet rotor 5 turns, most of the air passing through the chamber passes through the opening to the inner air opening portion 21d. That is, as described above, the shaft support mechanism 40 is provided in the DO branch mechanism 40. It has a predetermined rigidity: heating...3°, the heater unit 3 is firmly fixed to the body, so it can be minimized in the frame < morning movement.

2148-9790-PF 14 χ364520 The suction side end face (plane) of the dehumidification rotor 50 is close to the ring method 诘91 Two bottles of the same heart thirsty rotor 5: The heater casing flange 35 can be approached to the exhaust side end face (planar), and it is twisted on the frame 20. Compared with those who previously set the shaft support mechanism to the cross-arm arm, the amount of indoor air or regeneration air leakage will be greatly reduced without passing through the dehumidification rotor 5G. Moreover, the dehumidification rotor 50 is dehumidified by zeolite or silicone. The agent (with the same d = d) is carried by a substrate made of a honeycomb structure such as paper, and the dangling dish has dehumidification (the same as the suction. The self-accepting air captures the moisture temporarily, ▲ J, regenerative at high temperature (same as detachment. The sorbed water is released to the passing of the air, and __ <<J. Biomass of Gongkong A). The invention is not limited to a desiccant or a substrate. (Regeneration Air Condenser) The regeneration air condenser 60' is disposed on the suction side of the body casing 10, and is enclosed therein. The crucible has a hollow stack for passing the space of the regeneration air. Further, on the surface of the exhaust side, a regeneration air level inlet 61 for flowing in the regeneration air, and a regeneration air outlet port 62 for discharging the regeneration air are formed, and the lower surface is formed with a condensed water outlet 6 for discharging the condensed water. 3. That is, to The inner air passes through the gap between the stack and the stack, so that the regenerative air flowing in the machine can be cooled by the monthly J iC to the inner air to condense the water contained in the regenerated two gas. Moreover, the condensed water passes through the condensation. The indoor air that is attracted by the water outlet 63' passes between the drain pan and the stack, and is dripped into the drain pan 14', and is stored in the drain tank 15.

2148-9790-PF 15 1364520 The spider and the 'regeneration air outlet 62' are in communication with the suction side formed on the small portion 22a of the casing. (Regeneration Air Circulation Mechanism) The regenerative air circulation mechanism 7A includes a regenerative fan, and delivers (same as suction) regenerative air (same as indoor air); regeneration = fan motor 72, rotationally drives regenerative fan 71. The regeneration fan 73 accommodates the regeneration fan 71; and the regeneration air collection unit 74 holds the dehumidification rotor 50 and faces the heater unit 30. The regeneration fan module 73 has a fan casing disk. The portion 73a, has a hollow disc shape (the same as the cup body which partially lacks σ on the side surface); the outer fan of the fan is 4 73b, and the groove from the side of the fan casing disc portion 73a to the tangential direction thereof is slightly U-shaped. And the fan case flat portion 73c abuts against a flange formed on the fan case disk portion w and the fan case blow-out 73b to form a frame. Further, the fan motor 72 for regeneration with the fan case flat portion 73c The opposite position 'is formed with a fan case for the person to regenerate air flowing in '73d, and the fan case inlet 73d is connected to the small portion 22a formed on the frame body' to communicate with the small opening portion 22 Further, the tip end of the fan case blowing portion 73b is connected to the heater unit 3, and the heater case side portion 34b' communicates with the heater case opening portion % of the heating unit 3A. The regeneration air trap portion 74 is heated and heated. The heater casing 32 of the unit 30 is substantially planarly symmetrical about a quarter-circle (fan-shaped) disk body, wherein the trap portion of the trap portion forming the disk-shaped recess is a 75-degree self-collecting portion. a side portion 76 of the trap portion protruding from the exhaust side and a side surface of the trap portion

2148-9790-PF 16 1364520 76 Tip trap flange 77. Further, the "regeneration air collecting portion 74" is a portion of the collecting portion flange portion (four) which is a portion of the ring portion of the collecting portion flange 77, and is fixed in a state of being in contact with the frame body 20. At this time, in the collecting portion front surface 75, a collecting portion opening portion 78 for feeding and collecting the collected regeneration air is formed, and the collecting portion opening portion 78 is a regeneration air inflow port 6 of the reconditioning air condenser 60. Connected.

As described above, the regeneration blower casing 73' is connected to the heater casing side surface portion 34b of the heater unit 73 at the tip end of the fan casing blowing portion 73b, so that the regeneration blower casing 73 and the heater unit 3 are In the rear side view (same as the front view), it can be seen as an object that is slightly semi-circular. Further, the object is fixed to the casing 20 in a range close to j 8 degrees in which the arc-shaped flange portion 35a and the fixed portion of the casing 20 of the fan outer disk portion 73a are assembled. That is, the shaft support mechanism 40 is attached to the aforementioned object rigidly fixed to the frame body 2, so that the vibration of the dehumidification rotor 50 can be minimized. Therefore, the end face (plane) of the suction side of the dehumidification rotor 50 can be brought close to the large cylindrical annular flange 21c of the frame body 2, and the heater casing flange % can be brought close to the exhaust side end surface of the dehumidification rotor 50 (plane) ), the heater unit 30 is fixed to the casing 2〇. Further, in the same manner, the regeneration air collecting portion 74' is a collecting portion flange 77 which is provided close to the suction side end surface of the dehumidifying rotor 5''. (Circulation air passage) Therefore, the regeneration air sent from the regeneration fan 71 flows into the heater unit 30 and is heated by the heating element 31.

2148-9790-PF 17 1364520. The unit 30 is in the range of the opposing direction and flows into the regeneration air trap 74. Further, the trap portion opening portion 78 and the regeneration air inflow port 61 flow into the reconditioning air condenser 60, and the contained moisture is discharged as condensed water, and passes through the regeneration air outflow port 62 and the small tubular portion 22a. The casing flow inlet 73d is returned to the fan casing disk #73a. Therefore, on the way, a regenerative air circulation path with a small amount of leakage is formed. (rotor rotation mechanism) The rotor rotation mechanism 80 is housed in the small recess 23 of the casing 20, and has a drive gear 83' engaged with a driven gear 53 formed on the outer circumference of the dehumidification rotor 5, and a drive motor 82. The drive gear 83 is rotationally driven. Moreover, the invention is not limited to the form of the rotor rotating mechanism 8〇. For example, in Fig. 7, a disk having an outer diameter larger than the toroidal circle (hereinafter referred to as "drive gear flange") 84 is provided on the side surface of the drive tooth 3583_. The drive gear flange 84 abuts against the end surface of the driven gear on the side of the dehumidification rotor 5, so that the vibration of the dehumidification rotor 5〇 can be suppressed. Therefore, by using the drive gear 83' provided with the drive gear flange 84, the distance between the dehumidification rotor 50 and the large cylindrical ring flange 21c can be made narrower, and leakage of indoor air or the like can be suppressed. Further, the drive gear flange 84 is formed with an entry surface (the same as the escape surface) 84a which is inclined further away from the end surface of the driven gear 53 as the outer circumference. Therefore, the abutment of the drive gear flange 84 and the end face of the driven gear 53 becomes easy. Alternatively, the calling surface 84a may be replaced, and the same bearing surface (the same as the escape surface) may be formed in the driven gear 53. Moreover, it is also possible to provide the drive 2148-9790-PF 18 1364520 gear flange 84 on both end faces of the drive gear, thereby clamping the driven gear 53 ° (dehumidifying air blowing mechanism). The dehumidifying air blowing mechanism 90' has: a dehumidified air duct (not shown) is formed from the large opening portion 21 of the casing 20 (correctly, in addition to the range of the large opening portion 21 of the heater unit 30) to the air passage of the exhaust port 12; The fan 9 is disposed in the aforementioned dehumidified air duct. (Dehumidification and Regeneration Operation) As described above, since the dehumidification rotor 50 rotates, it is regenerated by being heated when it is located in the regeneration air passage (the range in which the heater unit 30 and the regeneration air collection unit 74 are sandwiched). The air, in the dehumidified air path (out of the range of the aforementioned clamping range) 会 'will pass the relatively low temperature indoor air. Therefore, at the portion of the dehumidification rotor 50 where the dehumidification air passage is located, the moisture of the air is sucked (taken) on the dehumidification rotor (10), and the indoor air becomes dry, so that it is dried in the air chamber. The jade is discharged from the exhaust port 12, and is released in the dehumidification air passage of the dehumidification rotor 50 in the dehumidification air passage, and is contained in the above-mentioned port. The amount of water in the P-knife itself will decrease. Moreover, the knives of the eight##本匕3 moisture reduction are moved to the dehumidification wind path. In addition, a large amount of the broadcaster, the entrant, and the regenerative air of the water jet, the scoop condensing device 60, causes the contained moisture to condense, and the reduced amount of regeneration air is returned to the heater unit 30 again. And the water that is dew condensation is dripping into the drainage drain! r ^ 0 is shouted at the loading and unloading slot 15 ° and the drain tank 15 is provided with the amount of stored water plus

2148-9790-PF 1364520 'The fixed trap (not shown), ... When the 罝 is full, the dehumidification operation will be stopped. 』The Detector detects the water. So, when using the present invention, the amount of water is full. Or urging the drainage. The twisted rotor 4 on the disk body of the flange is formed in the heat unit (10), and is directly connected to the regeneration air supply casing 73 of the fixed frame 2G, and is fixed to South rigidity. Therefore, it can make dehumidification turn: support 'so have

The dehumidification rotor 5 can be made. With frame 2. Or add 2 minus 5 to the minimum, so, small, can make indoor air or regenerative air ... 3 gap between the gaps # # ^ s "employment leakage is minimized. Therefore, can be: dehumidification efficiency is very high In addition, in the above, a large circular opening portion is formed in the casing 20, which simplifies the molding die and reduces the manufacturing cost. It is also possible to provide a slightly cross-shaped (radial) arm body in the large opening portion 21. [Industrial Applicability] When the field is used in this month, the dehumidification efficiency is high and energy-saving is extremely high, so that it can be widely used. Various dehumidifiers for home use and business use, and various devices equipped with the above-described dehumidifiers are used. 1. By using regenerative air, various humidifiers for home use and business use can be widely used. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic side cross-sectional view of a dehumidifier according to an embodiment of the present invention. Fig. 2 is a plan view of a dehumidifier according to an embodiment of the present invention. 9790-PF 20 1364520 . Fig. 3 1(a) and 2(b) are perspective views showing one of the dehumidifiers (frames) shown in Figs. 1 and 2; Rear view of the heater unit. Fig. 5 is an exploded perspective view showing one part (regeneration air circulation mechanism) of the dehumidifier shown in Fig. 4. Fig. 6(a) to (c) are diagrams showing Fig. 1 Fig. 7 is a cross-sectional view showing one of the components (rotor mechanism) of the dehumidifier shown in Fig. 1 and Fig. 2. 8 is a front view showing one of the components (regeneration air trapping unit) of the dehumidifier shown in Fig. 1 and Fig. 2. Fig. 9(a) and Fig. 2(b) are diagrams showing Figs. 1 and 2; Front view of one of the components of the dehumidifier (regeneration air condenser).

[Main component symbol description] 10 Main body casing 11 Intake port 12 Exhaust port 13 Wind direction adjustment plate 14 Drain pan 15 Drain groove 20 Frame 2148-9790-PF 21 1364520 2 0 a Peripheral flange 21 Large opening 21 a large cylinder Large portion 21b large tubular portion annular ring 21c large tubular portion annular flange 21d indoor air opening portion 22 small opening portion 22a small tubular portion

23 Small recess 24 Setting seat 30 Heater unit 31 Heating element 32 Heater housing 33 Heater housing back side 34 Heater housing side part

35 Heater housing flange 35a arc-shaped flange part 35b rectangular flange part 35c important flange part 35d rectangular flange part 36 heater housing opening 40 shaft support mechanism 41 screw 41 a head

2148-9790-PF 1364520

41b cylindrical shaft portion 41c threaded portion 42 gripper 42a large diameter portion 42b small diameter portion 42c screw 43 sleeve 44 screw 50 dehumidification rotor 51 rotor center hole 52 rotor center member 53 driven gear 54 outer peripheral support frame 55 outer peripheral pressing frame 60 regeneration air condenser 61 regeneration air inlet 62 regeneration air outlet 63 condensate outlet 70 regeneration air circulation mechanism 71 regeneration fan 72 regeneration fan motor 73 regeneration fan casing 73a fan casing disk portion 73b fan casing Blowing out

2148-9790-PF 23 1364520 73c Fan casing flat portion 73d Fan casing inlet 74 Regeneration air trap 75 Traps front side 76 Collection side 77 Obtaining section flange 77a Traction part flange arc 78 Collection Opening portion 80 Rotor rotating mechanism 82 Driving motor 83 Driving gear 84 Driving gear flange 84a Calling surface 90 Dehumidifying air blower 91 Dehumidifying air blower 100 Dehumidifier

2148-9790-PF 24

Claims (1)

1^04520 December 12, 100, revised replacement page No. 097123678 X. Patent application scope: .: 1. A dehumidifier with a body casing with an air inlet and an exhaust port; the frame is fixed in the body casing , having an opening; the heater is 7G early, fixed to the frame, covering a part of the opening; the shaft supporting mechanism, In the dehumidification rotor, all of the openings are fixed to the heater unit, rotatably attached to the shaft support mechanism, and covered with a reconditioning air condenser, and heated in the heater unit to be included in the dehumidification rotor. a part of the rear dew condensation water in the regeneration air; and a regenerative milk circulation mechanism formed by the heater unit passing through the aforementioned sub-portion p and returning to the heater unit via the regenerative air condenser An air circulation air passage; a rotor rotation mechanism fixed to the frame body for rotating the dehumidification rotor; and a dehumidification air supply mechanism to form a dehumidified air wind from the intake port through the exhaust port portion The heater unit has a slightly fan-shaped disk shape and a heat generating body housed in the heater casing, and the slightly fan-shaped arc portion is fixed to the frame body 'the aforementioned shaft branch mechanism It is important to be fixed to the aforementioned heater casing (4), and the regenerative air circulation machine is described in the month J. , Air regeneration system having a blower fan, 2J48-9790-PF1 25 No. 097123678 for the supply of the above-mentioned regenerative air is supplied by the wind, and the outer casing of the air supply and the dehumidification rotor are opposite to each other, and the outer surface of the fan is m, ^ φ ^ , L... The regenerative air trapping unit, in which the regeneration air is sent, #冰μ^r, ^ θ, ^ L 迗, the fan outside is fixed to the frame and is freely joined. In the description of the heater unit, a convex tube is formed on the periphery of the opening portion formed in the body of the frame body. The circular inner circumference of the ring is also folded back to form a close to the above-mentioned removal. The thirsty Han Zhuang, the soil % ... the rotor-like round core flange, the opening portion surrounded by the aforementioned annular ring flange forms a dehumidified air path. The dehumidifier according to the above-mentioned item, wherein the above-mentioned body casing is fixed with Jiang Tai- _, +. $^ 100 will be condensed by the condensed water in the regenerative air condenser. The drain pan has a part of the frame fixed to the drain pan. 3. The dehumidifier according to claim 1, wherein the rotor rotating mechanism has a driving motor, and the driving motor rotates to drive the u wheel and protrudes outward from the tooth tip of the driving gear. a driving gear flange; a driven gear that is engaged with the driving gear is formed on the outer circumference of the dehumidifying rotor, and a side surface of the driving gear flange abuts against the end surface of the passive gear 4. In the dehumidifier, a conical trapezoidal inclination that is inclined in a direction in which the end face of the driven gear is separated is formed in the vicinity of the outer periphery of the abutting range of the side surface of the drive gear flange. 5. For the dehumidifier described in the third or fourth aspect of the patent application, the 2148 «9790-PF1 26 December 12 曰 revised replacement 茛 1364520 '' No. 097123678, after the aforementioned passive gear end face The vicinity of the outer periphery of the abutting range 'forms κ has a trapezoidal trapezoidal inclination inclined from the direction in which the side of the drive gear flange is separated. 6. The dehumidifier according to claim 1, wherein a dehumidification rotor center hole penetrating through the center of the dehumidification rotor is formed, and the shaft support mechanism has a shaft portion that can freely penetrate the center hole of the dehumidification rotor, and cannot a large diameter portion of the center hole of the dehumidification rotor formed at one end portion of the shaft portion, and a male screw or a female thread formed at the other end portion of the shaft portion. 7. The dehumidifier according to claim 6, wherein the center hole of the dehumidification rotor is disposed with a first hollow space and a cylindrical sleeve through which the shaft portion is inserted. 2148-9790-PF1 27