JP3601410B2 - Humidifier - Google Patents

Description

[0002]
TECHNICAL FIELD OF THE INVENTION
[0003]
TECHNICAL FIELD The present invention relates to a humidifying device used in a prefabricated refrigerator or the like.
[Prior art]
[0004]
As a conventionally well-known humidifier, there is a spontaneous evaporation humidifier that imparts humidity to air by bringing water into a humidifying element formed of a porous plate member and bringing the humidifying element into contact with air. In this case, humidification efficiency is limited because water must always flow through the humidification element, and it is not suitable for use in a prefabricated refrigerator because water supply work or the like is required.
[0005]
On the other hand, a humidifier comprising a water container for storing water and a number of hollow tubes having water vapor permeability and supported through the water container has been developed. In the case of this type of humidifier, the water contained in the water container is vaporized and vaporized as water vapor into the hollow tube to impart humidity to the air flowing through the hollow tube, so that the humidification efficiency is 100%. It becomes something close to. Further, when used in a prefabricated refrigerator, it is humidified at a low temperature, so the amount of humidification per unit time is limited, and the consumption of water is limited, which is suitable for use in a prefabricated refrigerator.
[Problems to be solved by the invention]
[0006]
However, in the case of the above-described humidifier, it is customary to replace the humidifier element from the side surface orthogonal to the air flow. However, when the humidifier is used for a prefabricated refrigerator, as shown in FIG. in a, cold air W and humidified air W and they are often arranged side by side and a humidifier C refrigeration system B so as to be parallel _second delivery direction ₁ of the delivery direction. Then, when the humidifying element is replaced from the side surface orthogonal to the flow of air, the refrigeration apparatus B gets in the way or the stored items get in the way, resulting in a problem that workability deteriorates.
[0007]
The present invention has been made in view of the above points, and has as its object to facilitate operations such as replacement of a humidifying element.
[Means for Solving the Problems]
[0008]
In the invention of claim 1, as means for solving the above problems, a casing 1 of substantially rectangular parallelepiped shape having an air inlet 2 and the air outlet 3 in two surfaces facing each other, inside of the air inlet 2 A humidifier provided with a blower 4 disposed opposite to the humidifier, and a humidifying element 5 for imparting humidity to the air flow fed by the blower 4, wherein the humidifying element 5 is provided in a water container containing water. 6 and a large number of hollow tubes 7, 7,... Having a water vapor permeability and supported through the water container 6 in the direction of air flow from the air suction port 2 to the air outlet 3. the air outlet 3, between the humidifying element 5 and to and the air outlet 3 formed by openings sized to out the humidifying element 5, the humidifier from humidification element 5 Water is holding the spacing D of dimensions so as not to scatter.
[0009]
By the structure described above, the air W, which is pumped by blower 4 is humidified while passing through the humidifying element 5 humidified air W _2, and the blown out from the air blow-out port 3, an indoor (for example, prefabricated refrigerator Humidification of (A) is performed. If such a humidifying operation is continued for a predetermined time, the humidifying element 5 needs to be replaced. At that time, the humidifying element 5 can be replaced from the air outlet 3. That is, the replacement work of the humidifying element 5 is facilitated. Further, since the humidified air W ₂ is blown out from the air outlet 3 having a large opening, the wind speed of the humidified air W ₂ can be reduced, and the humidified air W ₂ can be stored in a storage object stored in the prefabricated refrigerator A or the like. can humidified air W ₂ is to prevent the occurrence of degradation of the storage product by directly striking.
[0010]
The air W pumped by the blower 4 is a humidified air W ₂ is humidified by water vapor pervaporation in hollow tubes 7,7 in ... in the process of passing through the hollow tube 7, 7 in .. . Therefore, the humidification efficiency is close to 100%. Moreover, the hollow tubes 7, 7,... In the humidifying element 5 can be visually checked from the air outlet 3, so that it is easy to determine the replacement time and the like or to cause a failure.
[0011]
Further, by maintaining a space D between the air outlet 3 and the humidifying element 5 such that water does not scatter outside the humidifying device, the hollow tubes 7, 7. When water is damaged, water does not scatter from the air outlet 3 to the outside of the humidifier.
[0012]
As in the invention of claim 2, in humidifying device of claim 1 Symbol placement, when using a plurality of said humidifying elements 5, separately humidifying element 5 can be replaced from the air outlet 3.
BEST MODE FOR CARRYING OUT THE INVENTION
[0013]
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0014]
The humidifier C are that as shown in FIG. 1, delivery direction of the humidified air W ₂ is disposed alongside the refrigeration apparatus B into prefabricated refrigerator A so as to be parallel to the blowing direction of the cool air W ₁ As shown in FIGS. 2 to 4, a casing 1 having a substantially rectangular parallelepiped shape having an air inlet 2 and an air outlet 3 on two opposing surfaces (ie, a back plate 1a and a front plate 1b). A blower 4 is provided to face the inside of the air suction port 2, and two humidifying elements 5, 5 for imparting humidity to an air flow fed by the blower 4.
[0015]
Each of the humidifying elements 5 is made of a rectangular parallelepiped water container 6 in which water is stored and a water vapor permeable material that is supported through the water container 6 (for example, an ethylene-tetrafluoroethylene copolymer as a main component). And a plurality of hollow tubes 7, 7,... Which are arranged side by side in the casing 1 while being supported on the element mount 8 as described later. . At this time, each humidifying element 5 is arranged such that the hollow tubes 7, 7,... Are parallel to the direction of air flow from the air suction port 2 to the air outlet 3.
[0016]
As shown in FIG. 3, the air inlet 2 is constituted by a large number of slit-shaped holes formed in the center of the casing back plate 1b. Further, the air outlet 3 is formed substantially on the front surface of the casing front plate 1a and has an height slightly higher than the height of the humidifying element 5 (in other words, an opening large enough to allow the humidifying element 5 to be taken in and out). It has been.
[0017]
A hose connection portion 18 (see FIG. 3) to which a water supply hose 17 for supplying water to the water container 6 is connected is provided on a bottom portion of the water container 6 near the air outlet 3 . ing. In this manner, even when the humidifying element 5 is replaced, the water supply hose 17 can be easily removed from the hose connection portion 18 from the air outlet 3 , and the replacement operation of the humidifying element 5 becomes easy. When the water supply hose 17 is removed, the water remaining in the water container 6 is discharged, but the discharged water is received by the drain pan constituted by the casing bottom plate 1d, and leaks out of the humidifier. That is no longer true.
[0018]
The bottom plate 1d of the casing 1 is fixed to the casing back plate 1b and the lower ends of the casing side plates 1c, 1c with screws, and the surface thereof is coated with rust prevention to function as a drain pan. As shown in FIG. 4 , a piping chamber 10 partitioned by a partition 9 is formed in the casing 1, and an electromagnetic valve 11 for controlling water supply in a water supply line is provided in the piping chamber 10. A storage tank 12 is provided with a float switch (not shown) for temporarily storing the water supply to the humidifying element 5 and controlling the opening and closing of the electromagnetic valve 11. Reference numeral 13 denotes a drain outlet.
[0019]
A left and right bypass prevention plate is provided between both sides of the humidifying elements 5 and 5 and the casing side plate 1c and between the partition wall 9 to prevent air from the blower 4 from bypassing the humidifying elements 5 and 5. 14, 14 are provided (see FIG. 4) . An upper bypass prevention plate 15 for preventing air from the blower 4 from bypassing the humidifying elements 5 and 5 is also provided between the upper surfaces of the humidifying elements 5 and 5 and the casing top plate 1e . (See FIG. 3) .
[0020]
Both end portions of the element mounting base 8 are fixed with screws to lower end portions of the left and right bypass prevention plates 14, 14, and a rear portion of the element mounting base 8 is in contact with the casing bottom plate 1d. A lower bypass prevention plate 16 that is in contact with and prevents air from the blower 4 from bypassing the humidifying elements 5 and 5 is integrally formed (see FIGS. 3 and 4) . This eliminates the need to weld a member such as a bypass prevention plate to the casing bottom plate 1d functioning as a drain pan, so that rust-preventive painting can be performed completely, and the function as a drain pan is maintained for a long time. be able to. At the lower end of the bypass prevention plates 14 and 14 on the side of the partition wall 9 and located on the leeward side of the humidifying elements 5 and 5, drain collected in the casing bottom plate 1d functioning as a drain pan is provided. A cut-out hole 19 is formed to lead to the pipe chamber 10 where the drain outlet 13 is provided. In this way, after the residual water discharged when the water supply hose 17 is removed when the humidifying element 5 is replaced as described later is received by the casing bottom plate 1d functioning as a drain pan, the notch hole 19 is closed. Thus, it is easily moved to the piping chamber 10 side, and is discharged from the drain discharge port 13.
[0021]
On the other hand, as shown in FIGS. 3 and 5, the blower 4 is an axial blower in which an impeller 21 is directly connected to a fan motor 20, and a fan guide 22 that covers the outer periphery of the impeller 21 and a fan motor 22. 20 are integrally connected. The blower 4 is attached to a support base 23 having a U-shaped cross section fixed to the inner surface of the air suction port 2 formed in the casing back plate 1b by screwing the fan guide 22 with screws. . That is, a gap S having a size corresponding to the height of the support base 23 is formed between the air suction port 2 and the impeller 21 of the blower 4. Reference numeral 24 denotes an opening formed in the support 23. With this configuration, even when the slit width of the air suction port 2 is increased to suppress the suction resistance, the finger pressed against the air suction port 2 does not contact the impeller 21. Thus, it is possible to achieve both the reduction of the blowing noise and the securing of safety.
[0022]
By the way, as described above, if the blower 4 is attached to the support base 23 fixed to the inner surface of the casing back plate 1b, the space between the discharge port 4a of the blower 4 and the back surfaces of the humidifying elements 5 and 5 will approach. It will be. Then, the air from the blower 4 may pass through a limited range of the humidifying elements 5 and 5. Therefore, in the present embodiment, the air from the blower 4 is humidified between the upper and lower bypass prevention plates 15 and 16 at a position facing the discharge port 4a of the blower 4 as shown in FIG. A rectifying plate 25 for diffusing on the back side of the elements 5 and 5 is attached. The rectifying plate 25 covers fixing portions 25a and 25b screwed to the upper and lower bypass preventing plates 15 and 16 and covers the back side of the connecting portion of the humidifying elements 5 and 5 between the fixing portions 25a and 25b, and And a rectifying portion 25c having two rectangular openings 26, 26 arranged side by side. In this way, the air from the blower 4 is diffused in the rectifying section 25c of the rectifying plate 25, and passes through the hollow tubes 7, 7,... In almost all areas of the humidifying elements 5, 5, so that the humidifying efficiency is maximized. Can be secured.
[0023]
Further, the humidifying elements 5 and 5 have their upper front ends held down by an element holding plate 27 fixed by screws 29 to a mounting bracket 28 fixed to the casing top plate 1e, and the humidifying elements 8 and 5 are held in place. The space D having a predetermined dimension is held between the air outlet 3 and the humidifying elements 5 and 5. The distance D is set to such a size that water is not scattered outside the humidifier even if the water in the water container 6 jumps out when the hollow tubes 7 constituting the humidifying element 5 are damaged. It is desirable to be done.
[0024]
As shown in FIGS. 2, 3 and 7, the element pressing plate 27 is provided at the lower end of the elongated pressing plate main body 27a at both ends and a central portion thereof, and abuts on the front upper end of the humidifying element 5. Front holding parts 27b, 27b, 27b, and upper holding parts 27c, 27c, which are lower ends of the holding plate main body 27a, are located between the front holding parts 27b, 27b, and are in contact with the front end of the upper surface of the humidifying element 5. At the upper end of the pressing plate main body 27a, mounting portions 27d, 27d which are obliquely cut and raised at a portion corresponding to a central portion between the pressing portions 27c, 27c are provided. A screw hole 30a into which the screw 29 is inserted, and a guide hole 30 which is continuous with the screw hole 30a in the horizontal direction and has a size such that the head 29a of the screw 29 can come out. Potbelly hole 30 is formed comprising a. Accordingly, when the element holding plate 27 is slid in the direction of the arrow P (see FIGS. 2 and 7) after the screw 29 is loosened, the head 29a of the screw 29 can be detached from the guide hole 30b, and the screw 29 is completely removed. The element holding plate 27 can be removed without screwing off.
[0025]
As shown in FIG. 2, the humidifier C having the above-described configuration supports the hanging fittings 31, 31 attached to both side surfaces 1c, 1c of the casing 1 on the ceiling 32 of the prefabricated refrigerator A by the support bolts 33, 33. It is to be attached by. Further, in the case of the humidifier C having the above-described configuration, the water contained in the water container 6 permeates into the hollow tubes 7, 7,... As water vapor to impart humidity to the air flowing through the hollow tubes 7, 7,. Therefore, the humidification efficiency is close to 100%, and when used in the prefabricated refrigerator A, it is humidified at a low temperature. Since the consumption is limited, it is only necessary to provide a water supply tank 34 for supplying water to the humidifying elements 5 and 5 on the upper surface of the ceiling 32, and no water supply work is required. Reference numerals 35 and 36 are double nuts, 37 is a single nut, 38 is an L-shaped reinforcing member, and 39 is a silicone sealant.
[0026]
The humidifier configured as described above has the following operational effects.
[0027]
The air W pressure-fed by the blower 4 is humidified by the water vapor permeated and vaporized in the hollow tubes 7, 7,... While passing through the hollow tubes 7, 7,. air W _2, and the blown out from the air blow-out port 3 formed in the front face plate 1a of the casing 1, the indoor (e.g., prefabricated refrigerator a) humidification is performed.
[0028]
If such a humidifying operation is continued for a predetermined time, the humidifying elements 5 and 5 need to be replaced. At that time, the humidifying elements 5 and 5 need to be replaced from the air outlet 3 formed in the casing front plate 1a. Can be. The procedure for replacing the humidifying element will be described in detail below with reference to FIGS.
[0029]
First, as shown in FIGS. 8 and 9, the screw 29 fixing the element pressing plate 27 is loosened by the driver 40 from the air outlet 3, and then the element pressing plate 27 is slid in the direction of the arrow P. Then, the head 29a of the screw 29 can be detached from the guide hole 30b of the damper hole 30, so that the element pressing plate 27 is removed. Next, as shown in FIG. 10, after one of the humidifying elements 5 is slightly pulled out, the humidifying element 5 is slightly lifted up, and the water supply hose 17 is detached from the hose connection portion 18 using a tool T such as pliers. Then, although the water remaining in the humidifying element 5 is discharged, the discharged water is received by the casing bottom plate 1d functioning as a drain pan, and thus does not spill out of the humidifying device. Thereafter, the humidifying element 5 is taken out from the air outlet 3, and a new humidifying element 5 is attached by performing the reverse operation. The other humidifying element 5 is also replaced by the same operation as described above. That is, the replacement work of the humidifying element 5 is facilitated. Also, the hollow tubes 7, 7,... In the humidifying element 5 can be visually confirmed from the air outlet 3, so that it becomes easy to determine the replacement time or the like or to cause a failure.
[0030]
In addition, when the humidifying element 5 is replaced, the element pressing plate 27 can be removed by simply loosening the screw 29 and thrusting the element pressing plate 27 so that the head 29a of the screw 29 comes out of the guide hole 30b of the daruma hole 30. Therefore, the element pressing plate 27 can be removed with the screw 29 left on the casing top plate 1e (specifically, the mounting bracket 28) side. That is, the screw 29 does not fall and be lost when the element pressing plate 27 is removed.
[0031]
Also, the humidified air W _2, since that is the be blown out from the air outlet 3 consisting of a large opening, it is able to slow the velocity of the humidified air W _2, humidified storage object stored in prefabricated refrigerator A it is possible to prevent the occurrence of degradation of the storage product by striking air W ₂ directly.
[0032]
In the above description, the embodiment in which the blower is disposed in the casing is described as an embodiment of the present invention. However, it is needless to say that the present invention can be applied to a case in which the blower is disposed outside the casing.
[0033]
In the above description, the humidifying device used in the prefabricated refrigerator is described as an embodiment, but the present invention can of course be applied to a humidifying device used for other purposes.
【The invention's effect】
[0034]
According to the present invention, a casing 1 of substantially rectangular parallelepiped shape having an air inlet 2 and the air outlet 3 in two faces opposed, arranged to face inwardly of the air inlet 2 In a humidifier provided with a blower 4 and a humidifying element 5 for imparting humidity to an air flow pressure-fed by the blower 4, the humidifying element 5 is provided with a water container 6 containing water and a water container 6. And a plurality of hollow tubes 7, 7,... Having a water vapor permeability and supported in a flow direction of air from the air suction port 2 to the air outlet port 3, and the air outlet port 3 is The humidifying element 5 is constituted by an opening having a size that allows the humidifying element 5 to be taken in and out. When the humidifying element 5 is replaced, the humidifying element 5 can be replaced from the air outlet 3. There is an effect that replacement of the door 5 is facilitated. Also, the humidified air W _2, since that is the be blown out from the air outlet 3 consisting of a large opening, it is able to slow the velocity of the humidified air W _2, the storage material being stored, such as in prefabricated refrigerator A humidified air W ₂ is an effect that the occurrence of degradation of the storage product by directly hit can be prevented.
[0035]
The air W pumped by the blower 4 is a humidified air W ₂ is humidified by water vapor pervaporation in hollow tubes 7,7 in ... in the process of passing through the hollow tube 7, 7 in .. However, there is also an effect that the humidification efficiency becomes close to 100%. In addition, the hollow tubes 7, 7,... In the humidifying element 5 can be visually checked from the air outlet 3, which has the effect of facilitating the determination of the replacement time and the like or the occurrence of a failure.
[0036]
Further, by maintaining a space D between the air outlet 3 and the humidifying element 5 such that water does not scatter outside the humidifying device, the hollow tubes 7, 7. Also, when water is damaged, there is also an effect that water does not scatter from the air outlet 3 to the outside of the humidifier.
[Brief description of the drawings]
[0037]
FIG. 1 is a plan view showing a state where a humidifier according to an embodiment of the present invention is used in a prefabricated refrigerator.
FIG. 2 is a front view showing an attached state of the humidifying device according to the embodiment of the present invention.
FIG. 3 is a vertical side view of the humidifier according to the embodiment of the present invention.
FIG. 4 is a sectional view taken along line IV-IV of FIG. 3;
FIG. 5 is a front view showing a blower mounting portion in the humidifying device according to the embodiment of the present invention.
FIG. 6 is a rear view showing a main part on the back side of the humidifying element in the humidifying device according to the embodiment of the present invention.
FIG. 7 is an enlarged front view of an element pressing plate in the humidifying device according to the embodiment of the present invention.
FIG. 8 is a perspective view showing a state when an element pressing plate is removed in the humidifying device according to the embodiment of the present invention.
FIG. 9 is an enlarged perspective view of a main part showing a state when the element pressing plate is removed in the humidifying device according to the embodiment of the present invention.
FIG. 10 is a perspective view showing a state when the humidifying element is removed in the humidifying device according to the embodiment of the present invention.
[Explanation of symbols]
[0038]
1 is a casing, 1a is a back plate, 1b is a front plate, 1c is a side plate, 1d is a bottom plate, 1e is a top plate, 2 is an air inlet, 3 is an air outlet, 4 is a blower, 5 is a humidifying element, 6 is A water container, 7 is a hollow tube, 17 is a water supply hose, 18 is a hose connection portion, 27 is an element holding plate, 27a is a holding plate main body, 27b is a front holding portion, 27c is a top holding portion, 27d is a mounting portion, and 28 is a mounting portion. mounting bracket 29 bis, 29a the head, 30 dharma holes, 30a are screw holes, 30b are guide hole, D is distance, W is air, W ₁ is cold, W ₂ is humidified air.

Claims (2)

A substantially rectangular parallelepiped casing (1) having an air inlet (2) and an air outlet (3) on two opposing surfaces, and a blower disposed to face the inside of the air inlet (2). A humidifying device comprising: (4) a humidifying element (5) for imparting humidity to an air flow pumped by the blower (4), wherein the humidifying element (5) is provided with water containing water. A large number of hollow tubes having a water vapor permeability and supported through the container (6) and the water container (6) in a flow direction of air from the air suction port (2) to the air outlet (3). 7), (7),... And the air outlet (3) is formed by an opening large enough to allow the humidifying element (5) to enter and exit, and the air outlet (3) and the humidifier are formed. Between the element (5) and the humidified element (5) humidifier and wherein the holding interval of the order of dimensions water outside does not scatter the humidifying device (D) from. Claim 1 Symbol placing the humidifier characterized by using a plurality of said humidifying elements 5.

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