KR100845312B1 - Apparatus for processing condensed water of air-conditioner for an elevator - Google Patents

Abstract

The present invention relates to an apparatus for removing condensate generated from an evaporator in an air conditioner installed in an elevator, and more particularly, after the air conditioner is installed to be integrated on a bottom plate fixed to an upper side of an elevator, By installing a centrifugal atomizer together with the condensate storage tank on the bottom plate side between the condensers, the condensate generated from the evaporator of the air conditioner can be atomized and flowed to the high temperature condenser side. In addition to the efficient removal of condensate and condenser cooling, the condenser cooling system also contributes to improving the performance of the air conditioner, while providing a low-maintenance (80 watt) device that requires little maintenance. Air containing removal device The present invention relates to a condensate removal device for an air conditioner for an elevator, in which the conditioner is integrated into a single unit, thereby greatly contributing to securing facility space and improving convenience according to the facility.

To this end, according to the present invention, an air conditioner 10 is installed above the elevator 1 that moves up and down along the elevator passages 3 of various buildings or buildings to cool the internal space of the elevator 1. The air conditioner 10 includes a refrigerant circulation cycle including a compressor 11, a condenser 12, and an evaporator 13, and a heat dissipation fan 17 for dissipating the condenser 12 is installed on the condenser 12 side. In the evaporator 13 side, a cold air fan 19 for supplying cold air into the inside of the elevator 1 is provided, and the compressor 11, the condenser 12, and the evaporator 13 constituting the air conditioner 10 are provided. Including a heat dissipation fan 17 and the cold air fan 19 is installed to be integrated into one unit on the bottom plate 22 is fixed to the upper side of the elevator (1), on one side of the bottom plate 22 Condensate storage with a level sensor 28 23 is formed to protrude to the lower portion of the bottom plate 22 at a position corresponding between the heat radiating fan 17 and the condenser 12, the atomizer of the condensate 24 in the upper portion of the condensate reservoir 23 25 is fixedly installed, and the atomizer 25 has an impeller 30 fixedly installed on the lower motor shaft 29a of the drive motor 29 inserted into the motor casing 31. The dispersing net 32 of the condensate 24 is a centrifugal atomizer installed below the casing 31 so as to surround the outer side of the impeller 30, and the dispersing net 32 of the atomizer 25 is lower than the casing 31. In the state in which the suction pipe 27 of the condensate 24 is connected to the central portion, a dish-shaped dispersion tray 26 for guiding the flow of atomized vapor discharged through the dispersion network 32 in an upward direction is installed. It is done.

Elevator, Air Conditioner, Condensate

Description

Condensate removal device for air conditioners for elevators {Apparatus for processing condensed water of air-conditioner for an elevator}

1 is a perspective view showing an installation state of a condensate removal device of a conventional air conditioner for an elevator.

Figure 2 is a perspective view showing the installation state of the condensate removal device of an air conditioner for an elevator according to the present invention.

Figure 3 is a side sectional view showing a condensate removal device of an air conditioner for an elevator according to the present invention.

Figure 4 is a side cross-sectional view showing a condensate removal device of an air conditioner for an elevator according to another embodiment of the present invention.

Figure 5 is a side cross-sectional view of the atomizer applied to the condensate removal device of an air conditioner for an elevator according to the present invention.

<Explanation of symbols for main parts of drawing>

1: Elevator 2: Opening and closing door 3: Lift passage

4: lifting cable 5: balancing weight 6: rope

7 shock absorber 8 operator 9 drain

9a: drain pipe 10: air conditioner 11: compressor

12 condenser 13 evaporator 14 cold air passage

15: cold air duct 16: condensate tank 16a: condensate discharge pipe

16b: discharge valve 17: heat dissipation fan 18: fan motor

19: cold air fan 20: atomizer duct 21: suction duct

21a: suction passage 22: bottom plate 23: condensate reservoir

24: condensate 25: atomizer 26: dispersion tray

27: suction pipe 28: water level sensor 28a: float

29: drive motor 29a: motor shaft 29b: fastening bolt

30 impeller 31 motor casing 32 dispersion network

33: reinforcing plate 34: suction chamber 35: cold air chamber

36: connection duct 37: cold air cover

The present invention relates to an apparatus for removing condensate generated from an evaporator in an air conditioner installed in an elevator, and more particularly, after the air conditioner is installed to be integrated on a bottom plate fixed to an upper side of an elevator, By installing the centrifugal atomizer together with the condensate storage tank on the bottom plate side between the condensers, the condensate generated from the evaporator of the air conditioner can be atomized and flowed to the high temperature condenser side. In addition to the efficient removal of condensate from treatment and contributors to the performance improvement of the air conditioner by cooling the condenser, the application of a centrifugal atomizer provides a low-maintenance (80 watt) device that requires little maintenance. With condensate removal device Relates to the conditioner was integrated into a single unit of plant space and facilities to obtain a condensate removal of the elevator for the air conditioner to greatly contribute to improve usability of the device.

In general, elevators are provided so that people or visitors living in various buildings or buildings can move more conveniently to the required floors without using stairs. The trend is to install and use an air conditioner on the upper side of the elevator so that it can be maintained.

When the air conditioner is installed and used in the elevator as described above, the condensate removing device generated from the evaporator of the air conditioner should be accompanied by a bar. The conventional condensate removing device installed in the air conditioner for the elevator is shown in FIG. The condensed water generated from the evaporator 13 of the air conditioner 10 installed on the upper side of the (1) is stored in the condensate tank 16 so that it can be discharged to the outside of the elevator passage (3) if necessary.

Referring to the prior art as described above in more detail with reference to Figure 1, the elevator (1) having an opening and closing door (2) by the elevating cable (4) and not shown hoist (Hoist) various buildings It is installed to move up and down along the elevator passage (3) of the building, the lower side of the elevator (1) is provided with a counterweight (5) connected by a rope (6) for the stable operation of the elevator (1), The lower floor (1st floor or basement) of this building or building is provided with the buffer 7 of the elevator 1, and the drain port 9 and the drain pipe 9a for discharging condensate.

In addition, an air conditioner 10 using a refrigerant circulation cycle by the compressor 11, the condenser 12, and the evaporator 13 is installed above the elevator 1, and from the evaporator 13 of the air conditioner 10. The generated cold air is made to be introduced into the interior space of the elevator 1 through the cold air passage 14 and the cold air duct 15 by a cold wind fan (not shown), the elevator including an air conditioner 10 ( An operator 8 for controlling the overall operation of 1) is provided on the upper side of the elevator 1 together with the air conditioner 10.

In addition, the condensate discharge pipe 16a for discharging the condensate generated from the evaporator 13 side is extended from the bottom side of the casing 10a of the air conditioner 10 so that the condensate discharge pipe 16a of the elevator 1 is extended. It is connected to the condensate tank 16 is fixed to the side portion, the condensate discharge pipe 16a having a discharge valve 16b from the lower side of the condensate tank 16 is additionally installed.

Accordingly, the condensate generated from the evaporator 13 is first stored in the condensate tank 16 through the condensate discharge pipe 16a according to the operation of the air conditioner 10, and then the amount of condensed water stored in the condensate tank 16 is fixed. At this point, the elevator 1 is lowered to the lowest floor of the building or building to open the discharge valve 16b so that the condensed water stored in the condensate tank 16 is lifted through the drain 9 and the drain pipe 9a. It is to be discharged out of the passage (3).

However, in the conventional condensate removal device installed in the elevator air conditioner as described above, the operator 8 (or other control unit) lowers the elevator 1 to the lowest floor of the building or building, and then to the condensate discharge pipe 16a. There was a problem that the operation of the elevator (1) is impossible during the time to open the discharge valve (16b) installed to discharge the condensed water, thereby causing an undesirable problem in terms of efficient operation of the elevator (1) On the other hand, when the means such as the drainage hole 9 is not provided on the elevator path 3, there was a problem that removal of condensate was almost impossible.

In order to supplement the above problems, by charging a heating wire inside the condensate tank 16 or installing an ultrasonic vibrator, the water stored in the condensate tank 16 is vaporized by heating or ultrasonic vibration, and then It is known to discharge to the outside of the condensate tank 16, but a lot of power is consumed in the heating of the condensate by the hot wire, and in the case of the ultrasonic vibrator, the service life and replacement cycle of the ultrasonic vibrator is very short, There was an issue that raised the overall expense.

In addition, in the case of hot wire, damage of the hot wire itself and short circuit of the hot wire connection part easily occur due to contact with heat, overheating, various vibrations or shocks, and a traveling cable (power line) for the hot wire should be additionally installed. In this case, since foreign matters such as scales are significantly reduced in functionality, the manufacturing and installation of the condensate removal device using a heating wire and an ultrasonic vibrator becomes difficult, and the service life of the installed device is also relatively short. However, frequent maintenance work due to frequent failures of the condensate removal unit should be performed.

However, since the elevator 1 is not only formed in a narrow space on various buildings or buildings, but also is installed inside the elevator passage 3 in which free entry and exit of a person is restricted, an operator directly enters the elevator passage 3. Not only was there a problem that it was very difficult to enter and perform the maintenance work of the condensate removal device, but also the elevator 1 could not be used during such maintenance work, which would cause a lot of trouble to the efficient operation of the elevator 1. There was a problem.

The present invention has been made to solve the conventional problems as described above, the condensate removal device of the air conditioner for elevators according to the present invention is installed so that the air conditioner is integrated on the bottom plate fixed to the upper side of the elevator, the heat radiating fan of the air conditioner By installing a centrifugal atomizer together with the condensate reservoir on the bottom plate side between the condenser and the condenser, the condensate generated from the evaporator of the air conditioner can be atomized and flowed to the high temperature condenser side. In addition to the efficient removal of the condenser, the condenser cooling system contributes to improving the performance of the air conditioner while providing a low-maintenance (80 watt) device that requires little maintenance. Air conditioner included And that to contribute to the integration in a single unit greatly improve the convenience of the secured facility and the facility space as a technical problem.

The present invention for achieving the above technical problem is an air conditioner for cooling the interior space of the elevator is installed above the elevator to move up and down along the elevator passage of various buildings, the air conditioner is a compressor, a condenser and an evaporator And a heat dissipation fan for dissipating the condenser on the condenser side, and a cold air fan for supplying cold air to the inside of the elevator on the condenser side, wherein the compressor and the condenser constitute the air conditioner. Including an evaporator, the heat dissipation fan and the cold wind fan are installed to be integrated as a unit on the bottom plate fixed to the upper side of the elevator. Above between Is formed to protrude to the bottom of the bottom plate, the atomizer of the condensate is fixed to the upper portion of the condensate reservoir, the atomizer is fixed to the impeller is installed on the lower motor shaft of the drive motor inserted into the motor casing, the motor The lower side of the casing is a centrifugal atomizer is installed so that the dispersion network of condensate surrounds the outer side of the impeller. Dispersion tray in the shape of a dish to guide the flow of the atomized steam to the upper direction is installed, the condensate reservoir 23 is the bottom plate 22 corresponding between the heat dissipation fan 17 and the condenser 12. On the lower side of the connection duct 36 is connected to the bottom plate 22 to be installed and at the same time, the atomizer 25 together with the water level sensor 28 to store the condensate Characterized in that one to be installed inserted into the tank 23.

Hereinafter, described in detail with reference to the accompanying drawings, the present invention for achieving the above object is as follows.

Figure 2 is a perspective view showing the installation state of the condensate water removing device of the elevator air conditioner according to the present invention, Figure 3 is a side cross-sectional view showing a condensate water removing device of an elevator air conditioner according to the present invention, Figure 4 is another embodiment of the present invention Fig. 5 is a side sectional view showing a condensate removal device of an elevator air conditioner according to an example, and Fig. 5 is a side sectional view of an atomizer applied to the condensate removal device of an elevator air conditioner according to the present invention.

First, the condensate removal device of an elevator air conditioner according to the present invention, as shown in Figure 2, the elevator (1) having an opening and closing door (2) by a lifting cable (4) and a not shown hoist (Hoist) Is installed so as to be able to move up and down along the elevator passage (3) of various buildings or buildings, the balance weight (5) for the stable operation of the elevator (1) connected to the lower side of the elevator (1) by the rope (6) In the existing elevator (1) facility in which the buffer (7) of the elevator (1) is installed on the lowest floor (first floor or basement) of the building or building, together with the air conditioner (10) above the elevator (1) Installed as a single unit.

In FIG. 2, the air conditioner 10 including the condensate removing device according to the present invention is located in the upper center portion of the elevator 1, and an operator 8 for the overall operation of the elevator 10 on both sides and in an emergency or It is shown that during the maintenance of the elevator 1, an emergency opening (not shown by reference numeral) is installed to allow a safety officer or worker to enter the interior of the elevator 1 through the upper side of the elevator 1. have.

However, under the condition that the air conditioner 10 including the condensate removal device according to the present invention is installed as a single unit on the upper side of the elevator 1, the installed position is determined by the positions of the operator 8 and the emergency switchgear. It is possible to adjust arbitrarily in consideration of the above, and the operator 8 may be fixedly installed on the side of the elevator 1 so as to secure a wider space according to the installation of the emergency opening and closing.

The condensate removal device which forms the main part of this invention is based on the well-known refrigerant circulation cycle which consists of the compressor 11, the condenser 12, and the evaporator 13, as shown in FIG. 2 and FIG. On the bottom plate 22 fixed to the upper side of the elevator 1 together with an air conditioner 10 equipped with a heat radiating fan 17 for radiating heat 12 and a cold air fan 19 for supplying cold air. Installed to be integrated into the unit.

As the refrigerant circulation cycle is widely used in the field of air conditioning equipment, the refrigerant gas (hot gas) compressed at high temperature and high pressure in the compressor 11 is radiated and condensed in the process of passing through the condenser 12, and thus The condensed refrigerant takes advantage of the principle of evaporation while absorbing the surrounding heat (reducing the ambient temperature) in the course of passing through the evaporator (13).

Accordingly, a refrigerant pipe connecting the compressor 11, the condenser 12, and the evaporator 13, an expansion valve (expansion valve) installed on the refrigerant pipe connecting the condenser 12 and the evaporator 13, and a refrigerant circulation Although the receiver tank (receiver), accumulator (accumulator) and refrigerant filter for smooth operation of the cycle are not shown in the drawing, they are installed for the operation of the refrigerant circulation cycle substantially or as required by the user. This is obvious to those of ordinary skill in the art.

Condensate removal device according to the present invention, as shown more clearly in Figure 3, the heat dissipation fan 17 on one side (back side on the drawing) of the bottom plate 22 is fixed to the upper side of the elevator (1) The bottom plate 22 is bent and protruded downward to form a condensate reservoir 23 at a position corresponding to the condenser 12, and a water level sensor 28 is installed inside the condensate reservoir 23. In the space corresponding to the upper portion of the condensate storage tank 23, that is, between the heat radiating fan 17 and the condenser 12, the condensed water 24 stored in the condensate storage tank 23 is sucked and atomized. The atomizer 25 is made of a configuration fixedly installed on the bottom plate (22).

As described above, the condensate removal device according to the present invention is installed so as to be integrated on the bottom plate 22 together with the air conditioner 10, so that the condensate removing device according to the present invention can provide a more compact system. The cold air fan 19 and the heat dissipation fan 17 to be operated simultaneously by one fan motor 18, the front side of the evaporator 13, the internal air of the elevator (1) to the evaporator 13 side The suction duct 21 for guiding the cover is installed so that the lower suction passage 21a of the suction duct 21 is connected to the suction chamber 34 provided on the upper side of the elevator 1. At the same time, it is preferable to install the cold air chamber 35 for supplying the cold air into the inside of the elevator 1 so as to communicate with the bottom plate 22 side that is directly below the cold air fan 19.

However, since the components corresponding to the essential part of the present invention are related to the condensate removal device installed on the air conditioner 10, a pipe, duct or chamber structure for guiding the internal air of the elevator 1 to the evaporator 13 side and The piping, duct or chamber structure for supplying the cool air generated from the evaporator 13 to the inside of the elevator 1 is a matter that can be arbitrarily changed by the user, and there are various applications in accordance with the cooling passages of the various elevators 1. It is to be noted that, in order to smoothly supply the cold air to the interior space of the elevator (1) in accordance with the operation of the cold air fan 19, the cold air cover (37) outside the cold air fan (19) cold air chamber It is preferable to form a closed blow route with (35).

In addition, the bottom plate 22 is formed to be inclined downward from the evaporator 13 to the condensate storage tank 23 so that the condensed water 24 generated from the evaporator 13 can easily flow into the condensate storage tank 23. Preferably, the cold wind cover 37 and the atomizer 25 is fixed to the bottom plate 22 is formed in the inlet passage for the inlet of the condensate water 24, the bottom plate 22 The outer periphery of the portion and the bottom plate 22 is connected to the cold wind chamber 35 is preferably formed with a rim having a constant height to prevent the outflow of the condensate (24).

In addition, the condensate reservoir 23 is preferably formed in a cylindrical shape covered by the dispersion tray 26 installed below the atomizer 25, but does not interfere with the installation of the atomizer 25. The size or shape of the condensate storage tank 23 can be arbitrarily adjusted within the range, and the condensate 12 of the condensate 24 atomized by the atomizer 25 is operated in accordance with the operation of the heat radiating fan 17. It is preferable that the heat radiating fan 17, the atomizer 25, and the condenser 12 are covered by the atomizer duct 20 serving as a cover so as to flow to the side.

In addition, the water level sensor 28 installed in the condensate reservoir 23 detects the amount of the condensate 24 stored in the condensate reservoir 23 and uses any kind if it can operate the atomizer 25. Although it is possible, the water level detection using a float (28a) so as to prevent the malfunction of the sensor due to the surrounding moisture to the maximum regardless of the inflow direction of the condensate 24 through the condensate reservoir (23) Most preferably, a sensor 28 or a position sensor or proximity sensor for detecting the floating height of the float 28a by the condensate 24 is used.

In addition, the condensate removal device according to another embodiment of the present invention, as shown in Figure 4, the condensate reservoir 23 is the bottom plate 22 corresponding to the heat sink between the fan 17 and the condenser 12. It is connected to the bottom plate 22 by the connecting duct 36 at the lower side of the connection, and the atomizer 25 is inserted into the condensate reservoir 23 together with the water level sensor 28 to be installed. Made of one configuration, the atomizer 25 is installed to be stably supported by a separate support means such as the support (25a) in the condensate reservoir (23).

The condensate removing device according to another embodiment of the present invention is manufactured as an air conditioner (10) including a radiator fan (17) and a cold air fan (19) together with a compressor (11), a condenser (12), and an evaporator (13). In the case of using a manufactured product, since there is a case where a space for inserting the atomizer 25 is not secured between the heat radiating fan 17 and the condenser 12, in this case, the structural change of the pre-fabricated air conditioner 10 Without the condensate removal device according to the invention to be installed as a unit united with the air conditioner (10).

In addition, the detailed structure of the atomizer 25 applied to the condensate removal device according to the present invention, as shown in Figure 5 more clearly, the drive motor 29 is inserted and fixed inside the motor casing 31 The lower motor shaft (29a) of the) is installed to penetrate the bottom of the motor casing 31, the impeller 30 is fixed to the motor shaft (29a) extending through the bottom of the motor casing 31 to the lower in this way It is installed, the lower side of the motor casing 31 is a centrifugal atomizer is installed so that the dispersion network 32 of the condensate 24 surrounds the outer side of the impeller (30).

In the drawings, the dispersion network 32 for atomization of the condensate 24 is shown as a number of fine dispersion holes penetrated in the horizontal direction, the dispersion network 32 may have the form of a mesh, condensate 24 Bars may be formed in the vertical direction along the dispersion network 32 at regular intervals, bar to disperse the condensed water 24 supplied to the dispersion network 32 by the impeller 30 into fine particles As long as it can be used, any kind of thing may be used, and the driving motor 29 is connected to the water level sensor 28 by an electric wire (not shown) so that its operation is controlled by the water level sensor 28.

In addition, the atomization vapor (condensed water particles) discharged through the dispersion network 32 in a state in which the suction pipe 27 of the condensate 24 is connected to the central portion under the dispersion network 32 of the atomizer 25. Dispersion tray 26 in the form of a plate for guiding the upper direction is provided, and the support strength of the atomizer 25 by the dispersion network 32 is improved between the dispersion network 32 and the distribution tray 26. A reinforcement plate 33 is installed to allow the suction pipe 27 to pass through the reinforcement plate 33 and the dispersion tray 26 at a position facing the motor shaft 29a and to the bottom of the condensate storage tank 23. It extends to the side.

Hereinafter, the working relationship of the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

In the state in which the air conditioner 10 to which the condensate removing device according to the present invention is applied is installed on the upper side of the elevator 1, the air conditioner 10 is operated by the operator 8 when the elevator 1 is operated mainly during the summer period. When operating the, it is possible to perform the cooling of the interior space of the elevator (1) by the refrigerant circulation cycle including the compressor (11), the condenser (12) and the evaporator (13).

That is, when the compressor 11 of the air conditioner 10 is operated by the operator 8 installed in the elevator 1, the high temperature and high pressure refrigerant gas (hot gas) discharged from the compressor 11 passes through the condenser 12. In the process of heat dissipation and condensation, the condensed refrigerant is evaporated while absorbing the surrounding heat (decreasing the ambient temperature) in the process of passing through the evaporator 13 and then recovered back into the compressor 11. In this way, the refrigerant cycle is operated.

At the same time, the heat radiating fan 17 and the cold wind fan 19 are operated by the fan motor 18, so that the heat dissipated from the condenser 12 radiates heat inside the elevator passage 3 by the heat radiating fan 17. After cooling through the evaporator 13, the internal air of the elevator 1 introduced into the evaporator 13 through the suction chamber 34, the suction passage 21a and the suction duct 21 is cooled. It is supplied to the interior of the elevator (1) via (35), thereby allowing cooling of the interior space of the elevator (1).

As described above, in the process of cooling the elevator 1 by the air conditioner 10 according to the refrigerant circulation cycle, water in the air existing on the lift passage 3 is condensed on the surface of the evaporator 13. In this way, the condensed water 24 generated on the surface of the evaporator 13 flows down the bottom plate 22 side along the surface of the evaporator 13 and then along the surface of the bottom plate 22 (an alternative embodiment of the present invention). By way of example, the bottom plates 22 and the connecting ducts 36 are collected into the condensate reservoir 23.

When a certain amount of condensate 24 is collected in the condensate storage tank 23 in the same manner as described above, the position of the float 28a installed in the water level sensor 28 is increased by a certain height by the condensate 24 and At the same time, the water level sensor 28 detects this and operates the driving motor 29 of the atomizer 25, so that the impeller 30 fixed to the lower motor shaft 29a of the driving motor 29 has a high speed. To rotate.

As described above, when the impeller 30 rotates at a high speed, air existing in the space formed by the dispersion network 32, that is, the space between the motor casing 31 and the dispersion tray 26 is dispersed in the dispersion network 32. The pressure of the space is reduced by being pushed to the outside through the), which causes the condensate 24 of the condensate reservoir 23 to be sucked up to the impeller 30 through the suction pipe 27. do.

As described above, the condensed water 24 introduced into the impeller 30 through the suction pipe 27 is sprayed at a high speed toward the dispersion network 32 according to the rotational force of the impeller 30, and at the same time, to the dispersion network 32. In the process of passing through the formed fine dispersion hole is atomized, the atomized condensed water 24 particles are scattered upward along the inner circumferential surface of the dispersion tray 26, in another embodiment of the present invention Condensate 24 particles dispersed from the dispersion tray 26 are scattered along the connection duct 36 to a space corresponding to the space between the heat radiating fan 17 and the condenser 12.

As described above, the atomization vapor of the condensed water 24 scattered into the space corresponding to the space between the heat radiating fan 17 and the condenser 12 by the distribution tray 26 is formed between the heat radiating fan 17 and the condenser 12. The atomizer duct 20 installed in the form of a cover is prevented from escaping to the outside, so that the total amount of atomized vapor scattered from the dispersion tray 26 is reduced by the blowing force of the heat radiating fan 17 to the condenser ( 12) flows to the side.

Thus, each atomized condensate 24 particles are brought into contact with the surface of the hot condenser 12, where the atomized vapor of the condensate 24 is formed into dry air and then discharged to the lift passage 3 side, and at the same time, heat dissipation According to the simultaneous application of air blown by the fan 17 and the particles of the condensate 24, efficient cooling of the condenser 12 may be performed, and the condensate 24 stored in the condensate storage tank 23 is thus processed. If most of the) is removed, the water level sensor 28 detects the lowered position of the float (28a) is to stop the operation of the drive motor (29).

Not only can the condensate 24 stored in the condensate reservoir 23 be continuously removed in the above manner, but the condensate 24 particles atomized by the atomizer 25 can be removed from the dispersion tray 26. By the fire duct 20, the heat dissipation fan 17 and the condenser 12 can be processed more intensively, the condensate 24 generated by the use of the air conditioner 10 for the elevator (1) can be quickly and efficiently Can be processed.

In addition, the refrigerant by the condenser 12 by allowing the condensed water 24 particles atomized by the atomizer 25 to be used for cooling the condenser 12 together with the air blown by the heat radiating fan 17. It is possible to further improve the heat dissipation and condensation performance of this, which will greatly contribute to the performance improvement of the air conditioner 10 using the refrigerant circulation cycle.

In particular, as the centrifugal atomizer 25 is used as a means for atomizing the condensate 24, only about 80 watts of low power is required when the condensate removal device is operated. Operational failure rarely occurs, which makes it possible to provide a power saving type condensate removal device with little maintenance.

Therefore, a troublesome and cumbersome procedure that a worker must frequently enter and exit the narrow elevator passage 3, which is restricted to a person, for frequent maintenance of the condensate removal device as in the conventional case, and the elevator 1 resulting therefrom By minimizing the problems such as the suspension of the operation, it is possible to meet various requirements for the condensate removal device of the air conditioner 10 for the elevator (1).

In addition, the condensate removal device according to the present invention can be integrated into a single unit together with the air conditioner 10 at a position between the heat radiating fan 17 and the condenser 12, the air conditioner 10 itself It is possible to make a very compact (Compact) and to downsize the size, thereby making it easy to secure a space for installing the air conditioner 10 including the condensate removal device on the elevator (1) In this case, the air conditioner 10 can be quickly and easily installed on the elevator 1.

As described above, the condensate removal device of an air conditioner for an elevator according to the present invention is an atomizer which is automatically controlled by a water level sensor so as to continuously atomize the condensate stored in the condensate reservoir, and then the condensed water particles thus treated are atomized. There is an effect that can be concentrated and vaporized by the condenser, and thereby has the effect to quickly and efficiently remove the condensate generated by the use of the elevator air conditioner.

In addition, the condensate particles atomized by the atomizer are additionally used for cooling the condenser together with the air blown by the heat radiating fan, thereby greatly improving the heat dissipation and condensation performance of the refrigerant caused by the condenser and thereby improving the performance of the air conditioner. There is a contributing effect, and by using a centrifugal atomizer as a means for atomizing the condensate, there is an effect that can provide a power saving type condensate removal device with little maintenance.

Therefore, there is an effect that can minimize the trouble, such as the troublesome and cumbersome procedures that the operator has to enter the elevator passage frequently for frequent maintenance of the condensate removal device and the disruption of the elevator caused by this, and the condensate removal By integrating the device into a single unit together with the air conditioner, the air conditioner itself can be configured very compactly to reduce its size, thereby facilitating the space of the air conditioner including the condensate removal device. At the same time, it is possible to secure an air conditioner on an elevator quickly and easily.

Claims (2)

An air conditioner 10 is installed above the elevator 1 that moves up and down along the elevator passages 3 of various buildings or buildings, and the air conditioner 10 is configured to cool the internal space of the elevator 1, and the air conditioner 10 is a compressor. And a refrigerant circulation cycle including a condenser 12 and an evaporator 13, and a heat dissipation fan 17 for dissipating the condenser 12 is installed on the condenser 12 side, and the evaporator 13 In the side in which the cold air fan 19 for supplying cold air to the inside of the elevator 1 is provided, The bottom plate 22 including the compressor 11 constituting the air conditioner 10, the condenser 12, and the evaporator 13, and the heat radiating fan 17 and the cold air fan 19 are fixed to the upper side of the elevator 1. Installed in one unit on top of At one side of the bottom plate 22, the condensate reservoir 23 having a water level sensor 28 therein is located at the bottom of the bottom plate 22 at a position corresponding to the heat radiating fan 17 and the condenser 12. Is formed to protrude, the atomizer 25 of the condensate 24 is fixed to the upper portion of the condensate reservoir 23, The atomizer 25 has an impeller 30 fixedly installed on the lower motor shaft 29a of the drive motor 29 inserted into the motor casing 31, and condensed water is disposed below the motor casing 31. Dispersion net 32 of 24 is a centrifugal atomizer that is installed to surround the outer side of the impeller 30, In the state in which the suction pipe 27 of the condensate 24 is connected to the center portion of the atomizer 25 under the dispersion network 32, the flow of atomized vapor discharged through the dispersion network 32 is directed upward. Condensate removal device of an elevator air conditioner, characterized in that the plate-shaped distribution tray 26 is installed. An air conditioner 10 is installed above the elevator 1 that moves up and down along the elevator passages 3 of various buildings or buildings, and the air conditioner 10 is configured to cool the internal space of the elevator 1, and the air conditioner 10 is a compressor. And a refrigerant circulation cycle including a condenser 12 and an evaporator 13, and a heat dissipation fan 17 for dissipating the condenser 12 is installed on the condenser 12 side, and the evaporator 13 In the side in which the cold air fan 19 for supplying cold air to the inside of the elevator 1 is provided, The bottom plate 22 including the compressor 11 constituting the air conditioner 10, the condenser 12, and the evaporator 13, and the heat radiating fan 17 and the cold air fan 19 are fixed to the upper side of the elevator 1. Installed in one unit on top of On one side of the bottom plate 22, a condensate reservoir 23 having a water level sensor 28 therein is located at the lower side of the bottom plate 22 corresponding to between the heat radiating fan 17 and the condenser 12. It is installed to communicate with the bottom plate 22 by the connecting duct 36, the atomizer 25 is inserted into the condensate reservoir 23 is installed, The atomizer 25 has an impeller 30 fixedly installed on the lower motor shaft 29a of the drive motor 29 inserted into the motor casing 31, and condensed water is disposed below the motor casing 31. Dispersion net 32 of 24 is a centrifugal atomizer that is installed to surround the outer side of the impeller 30, In the state in which the suction pipe 27 of the condensate 24 is connected to the center portion of the atomizer 25 under the dispersion network 32, the stream of atomized vapor discharged through the dispersion network 32 is directed upward. Condensate removal device of an elevator air conditioner, characterized in that the plate-shaped distribution tray 26 is installed.

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