KR20110035231A - Super vibration isolating type cooling tower - Google Patents

Abstract

PURPOSE: A vibration isolating type cooling tower is provided to prevent the vibration from a fan from becoming transferred to a body and a building. CONSTITUTION: A vibration isolating type cooling tower comprises a casing(10), a diaphragm(12), an air exhaust unit(16), an air supply unit(11), a fan, a heat exchange unit, a water tank(90), a base, a coupling unit, an opening, an elastic vibration isolating member, and a vibration isolating assembly. The coupling unit is formed along the outer end an air supply outlet(22a). The opening is formed on one of the casing or the diaphragm facing the coupling unit and comprises an isolating gap along the outer end of the coupling unit. The elastic vibration isolating member comprises a first elastic fixing unit, a second elastic fixing unit, and a vibration isolating part. The first elastic fixing unit comprises a groove, which makes tight contact with the bonding unit of the opening.

Description

Super vibration isolating type cooling tower

The present invention relates to a cooling tower, and in particular, it is possible to isolate the vibration of the blower fan from being transmitted to the cooling tower body and the building structure, to reduce the height of the installation of the cooling tower, and to prevent the falling cooling water from staying in the fan housing. The present invention relates to an ultra-dustproof cooling tower capable of reducing airflow downward airflow, simplifying assembly and disassembly of a blower fan, reducing dustproofing cost and cooling tower hiding facility cost, and saving maintenance cost.

Generally air conditioning and refrigeration. Refrigerators or industrial heat exchangers operating in refrigeration equipment, etc., are accompanied by waste heat to be removed, and in order to remove the waste heat, the waste heat must be released to the atmosphere using a cooling medium.

The cooling method of cooling tower is divided into air-cooled cooling that performs convective cooling by forced convection of atmospheric air that is lower than the fluid to be cooled, and evaporative cooling that uses cooling latent heat by contact of cooling water and air. Cooling towers are widely used because they provide greater cooling and economical efficiency than any other cooling system.

Conventional evaporative cooling towers have a counter flow type cooling tower in which air flows vertically and coolant flows vertically downward, and a cross flow in which air flows horizontally and the cooling water flows vertically downward. type) It is divided into cooling tower, and the flow method of cooling water includes an open circuit type for evaporative heat exchange by mutual contact while flowing a heat exchanger (filler) in which cooling water and air are opened, and a cooling fluid (cooling water or refrigerant). Although it is generally classified into a closed circuit type in which evaporative heat exchange is performed while contacting cooling water and air on the outer surface of a flowing sealed heat pipe, in recent years, an improvement in the heat exchange efficiency of a cooling tower, a decrease in water drop, and water Development of hybrid circuit type cooling tower employing open heat exchanger and closed heat exchanger for the purpose of reducing energy consumption And there.

In the ventilation method, a suction ventilation type is installed at an exhaust port of the cooling tower and passes through a heat exchange part (such as a filler or a heat transfer pipe) to suck and discharge hot air after heat exchange, and is installed in communication with an air supply port of the cooling tower. It is divided into pressurized ventilation type that discharges high-temperature air that has completed heat exchange by pressurizing and venting external air toward the exhaust.

 Next, it will be described with respect to the prior art for the dustproof of the cooling tower of the present invention.

The construction of the press-in ventilated cooling tower is the same as reference 1, cited in the 2000 ASHRAE System and Equipments Handbook, CHAPTER 35.Condensers and CHAPTER 36.Cooling towers, of the American Society of Refrigeration and Air Conditioning Technology (ASHRAE). The air supply and discharge outlet coupling structure of a typical blower fan is shown in Fig. 1.

Reference Figure 1. Configuration of Press-In Vent Cooling Tower

Reference Photo 1. Combination structure of air supply air outlet

Press-in ventilation cooling tower reduces the installation area (15-20% reduction) compared to the suction ventilation cooling tower, ease of outdoor installation with obstacles (single suction air supply structure), easy to install indoors (in this case, duct supply and exhaust), steel structure The structure is solid, more stable to fire, and has the advantages of reducing environmental incidence by recycling waste materials.

Since the power consumption of the blower fan is two to three times higher than that of the suction cooling cooling tower of the same cooling capacity, there is a problem that a vibration corresponding to the size is caused by installing a larger motor.

The cooling tower is usually installed on the roof of a building in consideration of the building and the beauty of the surroundings.

As such, the cooling tower installed on the roof does not adversely affect the structure of the building in the long term unless vibration is properly restrained, and vibration is transmitted to the building, causing severe inconvenience to building occupants.

In particular, as shown in Reference Figure 1 and Reference Photo 1, the air supply discharge port penetrates the diaphragm partitioning the soft exchange area, and directly connects the fan discharge port to the diaphragm. There is a problem delivered to the piping and buildings.

Since the problems of the press-fitted ventilation cooling tower are inevitably typical due to the press-fitted ventilation cooling tower, the basic structure has been maintained almost until now.

Next, with reference to the accompanying drawings for the cooling tower dust protection of the prior art will be described.

FIG. 8 is a schematic side cross-sectional view of dustproofing of a conventional open cooling tower, and FIG. 9 is a schematic side cross-sectional view of dustproofing of a conventional hermetic cooling tower. As shown in these figures, a casing 210 forming a heat exchange area with the air supply area 214; An inclined diaphragm 212 partitioning the air supply region 213 and configured to be inclined downward in the air supply direction; An exhaust port 216 formed at an upper end of the casing 210; An air supply port 211 provided at one side of the casing; A hot fluid inlet header 253 having an open heat exchanger 250a or a hot fluid inlet 252 which is disposed in the heat exchange area and is configured to have a coolant and air in contact with each other, and a coolant fluid outlet 254. The cooling fluid outflow header 255 having one end is sealed to the high temperature fluid inflow header 253 and the other end is composed of a plurality of heat pipes 251 coupled to the cooling fluid outflow header 255. expression A heat exchanger configured of any one of the heat exchanger 250b; The spraying water pipe 262 disposed in the upper region of the heat exchanger to spray cooling water, having a cooling water inlet 261, a spraying pipe 263 branched from the spraying water pipe 262, and the spraying pipe 263. A spraying unit 260 composed of a plurality of spraying nozzles 264 coupled thereto; An eliminator 270 provided on an upper portion of the watering unit; The fan housing 221a or the inclined diaphragm 212 having a rectangular air supply outlet 222 configured to be inclined in the air supply direction through the inclined diaphragm 212 and accommodating a centrifugal fan (unsigned) A fan housing having a circular air supply discharge port 222 configured to be horizontally formed in the air supply direction and configured to accommodate an axial fan (unsigned) and a fan housing 221b; and a motor 225 and a motor fixing. A blowing fan portion configured of a frame 228; A water collecting tank 290 configured at a lower portion between the inner surface of the casing 210 and the inclined diaphragm 212 in the air supply direction, and having a cooling water outlet 291 provided at one region, and an upper portion of the casing 210. The base (unsigned) fixed to the bottom of the sump 290 is provided.

In addition, a plurality of dustproof members 237 are installed between the bottom of the base and the base so that vibration transmission of the blower fan unit is not transmitted to the base.

In addition, a plurality of dustproofs are provided between the cooling water inlet 261, the cooling water outlet 291, the high temperature fluid inlet 252, and the cooling fluid outlet 254 so that the vibration transmission of the blower fan is not transmitted to the pipe connected through the casing. The joint is installed.

However, in the prior art, by installing a plurality of dustproof members having a dustproof standard corresponding to the operating load of the cooling tower between the base and the base, and in addition to the installation of a plurality of dustproof joints at each connection portion of the pipe, dustproof installation and repair There is a problem that the cost of complex and excessive dustproof facilities.

In addition, by installing a plurality of dustproof members between the base and the base, the height of the cooling tower is increased by the height of the dustproof member to increase the facility cost of the concealed wall or louver to conceal external exposure.

In addition, the air supply outlet is a structure that is inclined in the air supply direction to penetrate through the diaphragm, the installation of the blower fan and the sealing coupling is complicated, as well as difficult to work when separating for repair.

According to the structure in which the narrow air supply region and the downward air supply discharge outlet formed between the inclined diaphragm and the casing extend close to the inner surface of the casing, the discharge air reaches the inner wall of the casing and then moves upwards, downwards, leftwards, and the air discharge outlets. As it flows to the heat exchanger as it diffuses, the turbulence and flow resistance of the air supply increases, thereby increasing the flow deflection and consumption power of the cooling air, and causing the wave to cool the surface of the cooling water of the collection tank by the downward discharge airflow. There are problems such as causing side effects (water loss and damage) to the operation of the water supply ball tap.

The present invention is to solve the above conventional problems,

An object of the present invention, it is possible to isolate the vibration of the blower fan from being transmitted to the cooling tower body and the building structure, to reduce the height of the installation of the cooling tower, to prevent the falling coolant stay in the fan housing, the air blowing downward It is possible to reduce the airflow, easy assembly and disassembly of the blower fan, reduce the cost of dustproof facilities and cooling towers, and provide an ultra-dustproof cooling tower that can reduce maintenance costs.

The present invention provides a casing and diaphragm for cooling the cooling water or cooling and condensing the refrigerant, and forming an air supply region and a heat exchange region to achieve the above object; An exhaust port formed at an upper end of the casing; An air supply port provided at one side of the casing; A fan housing fixed through the diaphragm and having any one of a rectangular air supply outlet and a centrifugal fan wing or a cylindrical air supply outlet and an axial fan wing; and a motor and a motor fixing frame for driving the fan wing. A blowing fan unit; A heat exchanger disposed in the heat exchange region; A sump having a cooling water outlet; In the cooling tower having a base fixed to the base and the bottom is fixed to the lower portion of the casing and the sump,

Coupling portion formed along the outer edge of the air supply discharge port; An isolation opening formed in one of the diaphragm or the casing facing the coupling portion and having an isolation gap along an outer surface of the coupling portion; A first elastic fixing part having a close contact groove fixed to the close contact part of the isolation opening, a second elastic fixing part having a close contact groove fixed to the joining part, and the first elastic fixing part and the second elastic fixing part An elastic vibration isolating member which is formed between the governments and is composed of a vibration isolating unit which blocks the vibration transmitted from the fan housing to the diaphragm; It provides an ultra-dust-proof cooling tower, characterized in that the fan part dustproof assembly for dustproofing the blower fan unit alone.

Here, the heat exchanger, according to the cooling system, an open heat exchanger composed of a filler,

A high temperature fluid inlet header having a high temperature fluid inlet, a cooling fluid outlet header having a cooling fluid outlet, and one end thereof are coupled to the high temperature fluid inlet header, and the other end is composed of a plurality of heat pipes coupled to the cooling fluid outlet header. Sealed Heat exchanger or

It is preferable that the open heat exchanger and the closed heat exchanger are mixed with one of the mixed heat exchanger.

Next, the saturated humid air exhausted through the exhaust port of the cooling tower may condense moisture in the process of mixing with the low temperature outside air where plume is generated and generate white lead.

Therefore, as a means for heating the exhausted saturated humid air to lower the contained humidity to reduce white smoke, the exhaust port has a fluid inflow header having a fluid inlet, a fluid outflow header having a fluid outlet, and one end thereof to the fluid inflow header. It is preferable to further include a dry heat exchanger connected to the other end and having a plurality of heat transfer tubes connected to the fluid outlet header, a plurality of heat transfer fins configured to receive the heat transfer tubes, and a case in which the heat transfer tubes are accommodated. .

Next, the isolation opening, it is preferable that the isolation opening to which the square air supply outlet is connected is formed in a square, and the isolation opening to which the circular air supply outlet is connected is preferably formed in a circle.

In addition, the rectangular isolation opening is preferably formed to have a curved surface at four corners in order to easily install the elastic vibration isolating member and improve the adhesion with the elastic vibration isolating member.

The isolation gap provided between the tight contact portion of the isolation opening and the coupling portion, that is, the width of the space between the close end portion of the isolation opening and the coupling portion, can vary depending on the size of the blowing fan. It is preferably formed in the range of ~ 300mm.

Here, the "close part" of the isolation opening refers to a region into which the close contact groove of the first elastic fixing part is inserted.

The close contact portion and the coupling portion of the isolation opening are preferably configured to face each other vertically, but may be configured to be inclined to be inclined in the mutual air supply direction to be inclined or parallel to each other.

Next, the coupling portion provided in the rectangular air supply discharge port, it is preferable to have a curved surface at the four corners in order to easily install the elastic vibration isolation member and improve the adhesion with the elastic vibration isolation member.

Here, the shape having a curved surface at the four corner portions of the rectangular isolation opening so that the isolation gap has a constant interval and shape, and the shape having a curved surface at the four corner portions of the coupling portion provided at the rectangular air supply outlet, are sized only. More preferably, they are different and the same shape.

Next, it is preferable that the contact portion of the coupling portion and the isolation opening have the same thickness.

Here, when the close contact portion of the coupling portion and the isolation opening is thin and the close contact grooves of the first elastic fixing portion and the second elastic fixing portion are difficult to elastically close to the contact portion of the coupling portion and the isolation opening, It is preferable that the end portion of the coupling portion and the contact portion end portion of the isolation opening are folded in a "∪" shape.

Next, the elastic vibration isolating member is preferably a silicon (silicone) material having heat resistance, cold resistance, recovery and compressibility, it can be applied to other materials such as rubber (rubber).

And the elastic vibration isolating member, it is preferable that the strip structure (strip type used to cut by the required length) to be cut in close contact with one end after being installed in the coupling portion and the isolation opening, It is also applicable to the integral structure consisting of the same shape as the isolation opening is mounted and coupled by the elastic elastic.

Here, it is preferable that the elastic vibration isolating member of the strip structure is manufactured by extrusion molding.

In addition, the close contact grooves of the first elastic fixing part and the second elastic fixing part are preferably configured to be perpendicular to each other outward, but may be configured to be inclined to each other or to be parallel to each other.

The width of the close contact grooves formed in the first elastic fixing part is preferably formed to be narrower than the thickness of the close contact portion of the isolation opening so as to facilitate elasticity and close contact.

 In addition, the width of the contact grooves formed in the second elastic fixing part is preferably formed to be narrower than the thickness of the coupling part so as to facilitate elastic contact, and the width of the inlet width is narrower than the inner width.

In addition, the first elastic fixing portion and the second elastic fixing portion, it is preferable to further include an insertion guide portion for guiding insertion to the close contact portion and the coupling portion of the isolation opening.

The vibration isolating portion supporting the first elastic fixing portion and the second elastic fixing portion and isolating vibration transmission by elasticity is preferably formed of a vibration isolating portion having a curved portion, but has a hollow vibration isolating portion or an elastic groove. It can also be formed as a vibration isolator.

The first elastic fixing part and the second elastic fixing part are preferably tightly coupled to the close contact portion and the engaging portion of the isolation opening by the contraction elasticity of the close contact groove, but in the case where the static pressure is large in the casing, or the long term In order to prevent the close contact with the elastic lowering of the contact grooves by use, further comprising a reinforcing fixing member of any one of a fixing clamp, a fixing pin or a fixing screw to the reinforcing fixing portion of the isolation opening or of the isolation opening It is preferable to reinforce and fix each of the close contact portion and the engaging portion.

In addition, the first elastic fixing part and the second elastic fixing part for fixing and further including the fixing pin, it is preferable to further comprise a fixing groove for fixing the fixing pin.

Here, it is preferable that the fixing pin has a spring stress in which the length is contracted as long as the pinch is pinched by the hand or a tool, and the length is restored by elasticity when the pinch is released.

As another means of strengthening the coupling of the first elastic fixing part and the second elastic fixing part, the close contact grooves of the first elastic fixing part and the second elastic fixing part are adhesive parts of the isolation opening and the coupling part. It can also be fixed by gluing it.

Here, it is preferable that the adhesion part of the isolation opening and the bonding surface of the coupling part are subjected to a scratch treatment to enhance adhesion.

Next, the fan blade drive is preferably a belt drive, but can also be applied as a direct drive.

And it is preferable to further comprise a plurality of fixing brackets for fixing the fan housing in both sides of the fan housing is composed of the centrifugal fan wings.

In addition, it is preferable that the fan housing of the axial fan wing is configured to further include a plurality of fixing brackets fixing the fan housing to a lower surface.

The fan housing having the rectangular air supply outlet is a means for preventing water, such as the falling cooling water, from staying in the fan housing, wherein the upper surface of the air supply outlet in the fan rotational direction is disposed downward in the base direction, and the cutoff ( Cutoff) is preferably provided to be arranged in the upper direction in the heat exchanger direction.

Here, in the structure in which the upper side of the air supply discharge port of the fan housing is disposed in the upper direction of the heat exchange part, the water may be accumulated in the fan housing, which may cause noise and vibration due to friction with the fan blades. It may adversely affect.

And it is preferable that the fan housing in which the axial fan blade is comprised has a gradient within 5% in the air supply direction in order to prevent water droplets.

Next, the fan part dustproof assembly for independently dusting the blower fan unit includes a fan housing support member for fixing the fan housing, a dustproof frame to which the fan housing support member and the motor fixing frame are fixed, and a bottom of the dustproof frame. It is preferably composed of a plurality of dustproof members fixed to.

Here, the fan housing in which the centrifugal fan blade is configured, the fan housing support member is preferably configured to support both sides of the fan housing in the direction of the drive shaft, and the fan housing support member has a plurality of horizontal support members and a plurality of lower end portions. It is preferable that the fastening plate having a bolt hole of is composed of four vertical support members.

 The fan housing is preferably configured such that the fan housing support member supports the lower surface of the fan housing, and the fan housing support member includes a fastening plate having a plurality of bolt holes at a lower end thereof. It is preferable that it is composed of a pair of vertical support member bent and a horizontal support member for fixing between the pair of vertical support member, the fastening plate having two or more horizontal support members and a plurality of bolt holes in the lower end It can also be composed of four vertical support members.

The base may further include a base frame configured to face the bottom of the anti-vibration frame to support the anti-vibration frame.

An upper surface of the dustproof frame and a lower surface of the fastening plate may further include a dustproof pad.

In addition, the fan housing support member may be fixed to the fan housing by further fixing a plurality of fixing brackets to the fan housing, and may be fixed by welding to the fan housing.

In addition, the anti-vibration member is preferably installed on the base, it may be installed on the base frame, it may be installed by directly fastening to the anchor bolt embedded in the concrete foundation provided on the base bottom.

According to the present invention, the ultra-dustproof cooling tower of the present invention can isolate the vibration of the blower fan from being transmitted to the cooling tower body and the building structure, can reduce the installation height of the cooling tower, and that the falling cooling water stays in the fan housing. It can prevent, reduce the downwind air flow, easy assembly and disassembly of the blower fan, can reduce the cost of the dustproof facility and cooling tower concealment facility, and reduce the maintenance cost.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Prior to the description, the objects, features and advantages of the present invention, and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings, and accordingly, Those skilled in the art will be able to easily practice the present invention. In the following description of the present invention, a detailed description of functions and functions of the known technology that may unnecessarily obscure the subject matter of the present invention will be omitted.

In various embodiments, components having the same configuration will be representatively described in one embodiment by applying the same reference numerals, and other embodiments will be described only in the configuration different from the embodiment.

FIG. 1 is a schematic side cross-sectional view of a super dustproof cooling tower according to a first exemplary embodiment of the present invention, and FIG. 2 is a partial front schematic view of fracture 'A'-'A' of FIG. 1. As shown in these figures, the first embodiment of the present invention is a configuration in which the ultra-dustproof cooling tower 1a having an open heat exchanger is an example.

A casing 10 and a diaphragm 12 forming a heat exchange area with the air supply area 14; An exhaust port 16 formed at an upper end of the casing 10; An exhaust area 15 formed below the exhaust port 16; An air supply port 11 provided on one side of the casing 10; An open heat exchanger (50a) disposed in the heat exchange area and configured of a filler; It is disposed above the heat exchanger (50a) to spray cooling water, the cooling water inlet 61, the watering main pipe 62, the watering distribution pipe (63) branched from the watering main pipe (62), and A spraying unit (60) composed of a plurality of spraying nozzles (64) mounted on the spraying distribution pipe (63); An eliminator (70) disposed in the exhaust port (16) and collecting water droplets scattered into the casing (10); A collecting tank 90 having a cooling water outlet 91 in one region; A base (unsigned) is provided at the lower part of the casing 10 and the water collecting tank 90 and the lower part is fixed to the base (unsigned).

 Next, the fan housing 21a, which is disposed between the air supply port 11 and the diaphragm 12, is configured with a rectangular air supply outlet 22a and a centrifugal fan blade (unsigned), and the fan housing 21a. And a blower fan unit having a plurality of fixing brackets 24 provided at the fan housing supporting member 31a to be described later, a motor 27 and a motor fixing frame 28 for driving the fan blades (unsigned). 20a) is provided.

And the engaging portion 23a is formed perpendicularly along the outer edge of the end portion of the air supply discharge port 22a facing the diaphragm 12 is provided.

In addition, the fan housing 21a has an upper surface of the air supply outlet 22a in the rotational direction of the fan disposed below the base direction (unsigned), and a cutoff part (unsigned) is uppermed in the heat exchange part 50a direction. Installed in the

Next, the vertical support member 32a is fixed to the fixing bracket 24 provided in the fan housing 21a and includes a fastening plate (unsigned) having a plurality of bolt holes at a lower end thereof, and a horizontal support member ( A fan housing support member 31a consisting of 33a), a dustproof frame 35 to which the fan housing support member 31a and the motor fixing frame 28 are fixed, and a bottom of the dustproof frame 35, respectively. The fan part dustproof assembly 30a comprised from the several dustproof member 37 is provided.

In addition, a bearing block 26 for supporting a fan blade drive shaft (unsigned) is provided at the upper center of the horizontal support member 33a.

The base (unsigned) has a base frame 34 which faces the bottom of the dustproof frame 35 and supports the dustproof frame 35.

Here, the lower part of the dustproof member is fixed to the base frame 34.

Next, the diaphragm 12 facing the engagement portion 23a is provided with an isolation opening 13a having an isolation gap 46a along the outer surface of the engagement portion 23a.

Next, the first elastic fixing portion (41a) having a close contact (unsigned) in close contact with the close contact (not shown) of the isolation opening (13a), and the close contact groove tightly fixed to the coupling portion (23a) It is integrally formed between the 2nd elastic fixing part 42a which has (unsigned), and the said 1st elastic fixing part 41a and the 2nd elastic fixing part 42a, The said partition from the fan housing 21a. An elastic vibration isolating member (40a) composed of a vibration isolating portion (43a) having an elastic bending portion (unsigned) to block the vibration transmitted to the (12) is the close contact (unsigned) of the isolation opening (13a) and the It is closely attached to the engaging portion 23a.

The isolation opening 13a and the first elastic fixing portion 41a are provided with a plurality of reinforcing fixing members 47 made of clamps fixed by screw (or bolt) fastening.

In addition, the isolation opening 13a is formed to have a curved surface at four corners in order to easily install the elastic vibration isolating member 40a and to improve adhesion with the elastic vibration isolating member 40a.

The close contact portion (not shown) forming the circumference of the isolation opening 13a is formed perpendicularly to face the engaging portion 23a.

Next, the coupling portion 23a provided at the rectangular air supply outlet 22a has four corner portions for easily installing the elastic vibration isolating member 40a and improving the adhesion with the elastic vibration isolating member 40a. It is formed to have a curved surface.

Next, installation and removal of the blower fan unit, the fan unit dustproof assembly and the vibration isolation member according to the first embodiment of the present invention will be described.

First, the fan part dustproof assembly 30a to which the blower fan part 20a is assembled is bolted to the base frame 34 so as to be constant in the four directions of the isolation gap between the isolation opening and the coupling part.

Next, the close groove of the first elastic fixing part 41a is fitted to the close contact portion of the isolation opening 13a at one end of the strip-shaped elastic vibration isolating member 40a, and the second elastic fixing part 42a is provided. After fitting the contact grooves of the coupling portion 23a is inserted into each of the close contact grooves along the circumference of the isolation gap 46 so as to be tightly fixed to the close contact portion and the coupling portion 23a of the isolation opening 13a, After cutting the other side to be in close contact with one end of the elastic vibration isolating member (40a) and combines both ends of the elastic vibration isolating member (40a) with an adhesive material.

Then, when the plurality of reinforcement fixing members 47 are fixed to the diaphragm by fastening members (bolts or screws) to reinforce and secure the second elastic fixing part 42a tightly fixed to the close contact portion of the isolation opening 13a, the installation is performed. It's easy to complete.

The removal can be done in the reverse order of installation.

3 is a schematic side cross-sectional view of a super dustproof cooling tower according to a second embodiment of the present invention. As shown in the figure, the second embodiment of the present invention is a configuration in which an ultra-dustproof cooling tower 1b having a hermetic heat exchanger and a dry heat exchanger is an example, and unlike the above-described embodiment, The second embodiment has a configuration in which an ultra-dustproof cooling tower 1b having a sealed heat exchanger and a dry heat exchanger is an example, comprising: a casing 10 and a diaphragm 12 forming an air supply region 14 and a heat exchange region; An exhaust port 16 formed at an upper end of the casing 10; An exhaust area 15 formed below the exhaust port 16; An air supply port 11 provided on one side of the casing 10; A high temperature fluid inflow header 53 disposed in the heat exchange area and having a high temperature fluid inlet 52, a cooling fluid outlet header 55 having a cooling fluid outlet 54, and one end of the high temperature fluid inflow header ( 53, the other end is a closed type consisting of a plurality of heat transfer pipes 51 coupled to the cooling fluid outflow header 55 A heat exchange part 50b; A fluid inlet header 82 having a fluid inlet 81, a fluid outlet header 83 having a fluid outlet 84, and one end thereof are disposed at the exhaust port 16, and one end thereof is connected to the fluid inlet header 81. The other end is connected to the plurality of heat pipes 85, the heat transfer pipes (85) configured to receive the heat pipes (85) connected to the fluid outlet header 83, the heat pipes 86 are accommodated Dry heat exchange unit 80 is composed of a case (87); It is disposed above the heat exchanger (50a) to spray cooling water, the cooling water inlet 61, the watering main pipe 62, the watering distribution pipe (63) branched from the watering main pipe (62), and A spraying unit (60) composed of a plurality of spraying nozzles (64) mounted on the spraying distribution pipe (63); An eliminator (70) disposed in the exhaust port (16) and collecting water droplets scattered into the casing (10); A collecting tank 90 having a cooling water outlet 91 in one region; A base (unsigned) is provided at the lower part of the casing 10 and the water collecting tank 90 and the lower part is fixed to the base (unsigned).

 Next, a fan housing 21a disposed between the air supply port 11 and the diaphragm 12, the fan housing 21a having a rectangular air supply outlet 22a and a centrifugal fan wing (unsigned), and the fan wing (not shown). Is provided with a blower fan portion 20a having a motor 27 and a motor fixing frame 28 for driving.

A coupling part 23b is formed to be inclined outwardly of the air supply outlet 22a along the outer edge of the air supply outlet 22a facing the diaphragm 12.

Next, the diaphragm 12 facing the engaging portion 23b is provided with an isolation opening 13b having an isolation gap 46a along the outer surface of the engaging portion 23b.

The close contact portion (not shown) forming the circumference of the isolation opening 13b is inclined outward from each other to face the engaging portion 23b.

Next, the first elastic fixing part 41b having a close contact groove (unsigned) that is tightly fixed to the close contact portion (unsigned) of the isolation opening 13b, and the close contact groove that is tightly fixed to the coupling portion 23b. It is integrally formed between the 2nd elastic fixing part 42b which has an unsigned symbol, and the said 1st elastic fixing part 41b and the 2nd elastic fixing part 42b, The said partition from the said fan housing 21a. An elastic vibration isolating member 40b composed of a vibration isolating portion 43b having an elastic hollow part (unsigned) to block the vibration transmitted to the (12) and the close contact (unsigned) of the isolation opening (13b) and It is closely attached to the engaging portion 23b.

The isolation opening 13b is formed to have a curved surface at four corners in order to easily install the elastic vibration isolating member 40b and to improve the adhesion with the elastic vibration isolating member 40b.

Next, the coupling portion 23b provided at the rectangular air supply outlet 22a has four corner portions for easily installing the elastic vibration isolating member 40b and improving the adhesion with the elastic vibration isolating member 40b. It is formed to have a curved surface.

Next, a cooling water supply pipe 66 is connected between the cooling water outlet 91 and the cooling water inlet 61.

In the cooling water supply pipe 66, a spraying pump 65 is disposed.

Next, a connection pipe 67 is connected between the high temperature fluid inlet 54 and the fluid outlet 84.

Description of the installation and removal of the blower fan unit, the fan unit dustproof assembly and the vibration isolation member according to the second embodiment of the present invention is the same as or similar to that of the first embodiment, and a description thereof will be omitted.

4 is a schematic side cross-sectional view of a super dustproof cooling tower according to a third embodiment of the present invention. As shown in the figure, the third embodiment of the present invention is a configuration in which an ultra-dustproof cooling tower 1c having a mixed heat exchanger is an example. ) Is arranged, and a sealed heat exchanger 50b is disposed below the open heat exchanger 50a.

Next, the engaging part 23c formed horizontally along the outer periphery of the edge part of the air supply discharge opening 22a which faces the diaphragm 12 is provided.

Next, the diaphragm 12 facing the coupling part 23c is provided with an isolation opening 13c having an isolation gap 46a along the outer surface of the coupling part 23c.

The close contact portion (not shown) forming the circumference of the isolation opening 13c is horizontally formed to face the engaging portion 23c.

Next, the first elastic fixing part 41c having a close contact groove (unsigned) that is tightly fixed to the close contact portion (unsigned) of the isolation opening 13c, and the close contact groove tightly fixed to the engaging portion 23c. It is formed integrally between the second elastic fixing part 42c having an unsigned symbol and the first elastic fixing part 41c and the second elastic fixing part 42c, and the diaphragm is formed from the fan housing 21a. 12 is an elastic vibration isolating member 40c composed of a vibration isolating portion 43c having an elastic groove 44 for blocking the vibration transmitted to the contact portion (unsigned) and the coupling portion of the isolation opening 13c. It is closely attached to 23c.

Description of the installation and removal of the blower fan unit, the fan unit dustproof assembly and the vibration isolation member according to the third embodiment of the present invention is the same as or similar to the above-described embodiment, and a description thereof will be omitted.

FIG. 5 is a schematic side cross-sectional view of the ultra-vibration type cooling tower according to the fourth embodiment of the present invention, and FIG. 6 is a partially broken front view of 'B'-'B' of FIG. 5. As shown in these figures, the fourth embodiment of the present invention is a configuration in which an ultra-dustproof cooling tower 1d having an open heat exchanger and an axial fan is an example, and unlike the above-described embodiment,

 The fan housing 21b is disposed between the air supply port 11 and the diaphragm 12, and includes a circular air supply outlet 22b and an axial fan blade (unsigned), and the fan blade (unsigned). A blowing fan portion 20b having a motor 27 and a motor fixing frame 28 is provided.

And the coupling part 23d which is formed perpendicularly along the outer periphery of the edge part of the said air supply discharge port 22b facing the diaphragm 12 is provided.

Next, the diaphragm 12 facing the engaging portion 23d is provided with an isolation opening 13d having an isolation gap 46b along the outer surface of the engaging portion 23d.

The close contact portion (not shown) forming the circumference of the isolation opening 13d is formed perpendicularly to face the engaging portion 23d.

Next, a first elastic fixing part 41a having a close contact groove (unsigned) and a fixed groove 45 that are tightly fixed to the close contact portion (not shown) of the isolation opening 13d, and the coupling portion 23d. A second elastic fixing part 42a having an adhesive groove (unsigned) and a fixing groove 45 fixed to the upper part and integrally between the first elastic fixing part 41a and the second elastic fixing part 42a. Is formed, the elastic vibration isolating member (40d) composed of a vibration isolating portion (43a) having a bent portion (unsigned) to block the vibration transmitted from the fan housing 21b to the diaphragm 12 is the isolation opening ( 13d) is tightly fixed to the contact portion (unsigned) and the engaging portion 23d.

The pair of fixing grooves 45 are provided with fixing pins 48 fixed by spring stress.

Next, a pair of vertical support members 32b welded to the fan housing 21b and including fastening plates (not shown) having a plurality of bolt holes at lower ends thereof, and the pair of vertical support members ( 32b) a fan housing support member 31b composed of a horizontal support member 33b fixed therebetween, a dustproof frame 35 to which the fan housing support member 31b and the motor fixing frame 28 are fixed; The fan dustproof assembly 30b including the plurality of dustproof members 37 fixed to the bottom of the dustproof frame 35 is provided.

And the lower part of the anti-vibration member 37 is fastened and fixed directly to the anchor bolt embedded in the base.

Next, installation and removal of the blower fan unit, the fan unit dustproof assembly and the vibration isolation member according to the fourth embodiment of the present invention will be described.

First, the fan part dustproof assembly 30b, to which the blowing fan part 20b is assembled, is fixed to the anchor bolt embedded in the foundation by being fixed in the four directions of the isolation gap between the isolation opening and the coupling part.

Next, the close contact groove of the first elastic fixing part 41a is fitted to the close contact part of the isolation opening 13d at one end of the strip-shaped elastic vibration isolating member 40d, and the second elastic fixing part 42a is provided. After fitting the contact grooves of the coupling portion 23d is inserted into each of the close contact grooves along the circumference of the isolation gap (46b) to be in close contact and fixed to the contact portion 23d of the isolation opening 13d, The other side is cut to be in close contact with one end of the elastic vibration isolating member 40d, and then both ends of the elastic vibration isolating member 40d are joined by an adhesive material.

Then, when the fixing pin 48 is fixed to the fixing groove 45 of the first elastic fixing part 41a and the fixing groove 45 of the second elastic fixing part 42a, installation is simply completed.

The removal can be done in the reverse order of installation.

7 is a schematic side cross-sectional view of a super dustproof cooling tower according to a fifth embodiment of the present invention. As shown in the figure, the fifth embodiment of the present invention is a configuration in which an ultra-dustproof cooling tower 1e having an open heat exchanger and an external centrifugal fan is an example, and, unlike the above-described embodiment, a blower fan unit 20a. ) And the fan dustproof assembly 30a are installed on the base of the casing 10 outside.

Next, the coupling part 23a which is formed perpendicularly along the outer periphery of the end part of the air supply discharge opening 22a which faces the casing 10 is provided.

Next, the casing 10 facing the engaging portion 23a is provided with an isolation opening 13a having an isolation gap 46a along the outer surface of the engaging portion 23a.

The close contact portion (not shown) forming the circumference of the isolation opening 13a is formed vertically to face the engaging portion 23a.

Next, a first elastic fixing part 41d having a close contact groove (unsigned) and an insertion guide part (unsigned) that is tightly fixed to the close contact portion (unsigned) of the isolation opening 13a, and the coupling part ( A second elastic fixing part 42d having an adhesive groove (unsigned) and an insertion guide part (unsigned) which are tightly fixed to 23a), and the first elastic fixing part 41d and the second elastic fixing part 42d. The elastic vibration isolating member 40e which is formed integrally therebetween and is composed of a vibration isolating portion 43a having a bent portion (unsigned) to block the vibration transmitted from the fan housing 21a to the casing 10 is The close contact portion (unsigned) of the isolation opening 13a and the engaging portion 23a are fixed to each other.

The first elastic fixing portion 41d and the second elastic fixing portion 42d are fixed by the reinforcing fixing member 49 to the close contact portion (not shown).

By configuring the insertion guide (not shown), it is possible to simply install the elastic vibration isolating member (40e) from the outside of the casing (10).

Although the preferred embodiments have been described with reference to the accompanying drawings, the modular heat exchanger of the present invention as an example of a cooling tower, but in the technical field to which the present invention belongs without departing from the spirit or essential features of the present invention. Those skilled in the art will be able to easily implement modified configurations and applications.

And the sole vibration part vibration assembly of the elastic vibration isolating member and the blowing fan which is the core technology of the present invention, refrigeration. It is obvious that the present invention also applies to a machine (equipment) equipped with a blower fan, such as an air conditioner and an air washer unit in the air conditioning industry.

Therefore, the above-described embodiments are not limited only to the technical configuration and operation specified by the embodiments, but exemplify preferred embodiments of the present invention, and the scope of the present invention will be limited only by the contents described in the claims, and All variations within the scope equivalent to and differences from the variations will be construed as being included in the present invention.

The ultra-dustproof cooling tower according to the present invention can isolate the vibration of the blower fan from being transmitted to the cooling tower body and the building structure, can reduce the installation height of the cooling tower, and prevent the falling cooling water from staying in the fan housing. In addition, it is possible to reduce the downwind air flow, easy assembly and separation of the blower fan, reduce the cost of dustproof facilities and cooling towers, and there is an industrial advantage to reduce the maintenance costs.

1 is a schematic side cross-sectional view of a super dustproof cooling tower according to a first embodiment of the present invention;

FIG. 2 is a schematic front elevational view of some broken portion 'A'-'A' of FIG. 1, FIG.

3 is a schematic side cross-sectional view of a super dustproof cooling tower according to a second embodiment of the present invention;

4 is a schematic side cross-sectional view of a super dustproof cooling tower according to a third embodiment of the present invention;

5 is a schematic side cross-sectional view of a super dustproof cooling tower according to a fourth embodiment of the present invention;

FIG. 6 is a schematic partially broken front view of 'B'-'B' of FIG. 5;

7 is a schematic side cross-sectional view of a super dustproof cooling tower according to a fifth embodiment of the present invention;

Figure 8 is a schematic side cross-sectional view of the dustproof of the conventional open cooling tower,

9 is a schematic side cross-sectional view of dustproofing of a conventional hermetic cooling tower.

<Code Description of Main Parts of Drawing>

1a, 1b, 1c, 1d, 1e, 200a, 200b: cooling tower

10, 210: casing 12, 212: diaphragm

11, 211: air supply port 13a, 13b, 13c, 13d: isolation opening

14, 214: air supply area 15, 215: exhaust area

16, 216: exhaust port 20a, 20b, 220a, 220b: blower fan

21a, 21b, 221a, 221b: fan housing 22a, 22b, 222a, 222b: air supply outlet

23a, 23b, 23c, 23d: coupling portion 24: fixed bracket

26: bearing blocks 27, 227: motor

28, 228: motor fixing frame 30a, 30b: fan dustproof assembly

31a, 31b: fan housing support member 32a, 32b: vertical support member

33a, 33b: horizontal support member 34: base frame

35: dustproof frame 37, 237: dustproof member 40a, 40b, 40c, 40d, 40e: elastic vibration isolating member

41a, 41b, 41c, 41d: first elastic fixing part 42a, 42b, 42c, 42d: second elastic fixing part 43a, 43b, 43c: vibration isolating part

44: expansion groove 45: fixed groove

46a, 46b: isolation gap 47, 48, 49: reinforcing fixing member

50a, 50b, 250a, 250b: heat exchanger 51, 85, 251: heat transfer tube

52, 252: high temperature fluid inlet 53, 253 high temperature fluid inlet header

54, 254: Cooling fluid outlet 55, 255: Cooling fluid outlet

60, 260: watering part 61, 261: cooling water inlet

62, 262: watering control 63, 263: watering distribution pipe

64, 264: spray nozzle No. 65: spray pump

66: cooling water supply pipe 67: connection pipe

70, 270: eliminator 80: dry heat exchanger

81: fluid inlet 82: fluid inlet header

83: fluid outlet header 84: fluid outlet

86: heat transfer pin 87: case

90, 290: water collection tank 91, 291: cooling water outlet

280: Dustproof Joint

Claims (17)

A casing 10 and a diaphragm 12 for cooling the cooling water or cooling and condensing the refrigerant, and forming a heat exchange area with an air supply area; An exhaust port 16 formed at an upper end of the casing 10; An air supply port 11 provided on one side of the casing 10; The fan housing is fixed to penetrate the diaphragm 12, and any one of a rectangular air supply outlet 22a and a centrifugal fan wing or a cylindrical air supply outlet 22b and an axial fan wing is driven. A blowing fan unit having a motor 27 and a motor fixing frame 28; A heat exchanger disposed in the heat exchange region; A water collecting tank 90 having a cooling water outlet 91; In the cooling tower having a base fixed to the upper portion and the lower portion is fixed to the lower portion of the casing 10 and the sump (90), Coupling portion formed along the outer edge of the air supply discharge port (22a); An isolation opening formed in any one of the diaphragm 12 and the casing 10 facing the coupling portion, the isolation opening having an isolation gap along an outer surface of the coupling portion; A first elastic fixing part having a close contact groove fixed to the close contact part of the isolation opening, a second elastic fixing part having a close contact groove fixed to the joining part, and the first elastic fixing part and the second elastic fixing part An elastic vibration isolating member which is formed between the governments and is composed of a vibration isolating unit which blocks the vibration transmitted from the fan housing; Ultra-vibration-type cooling tower, characterized in that the fan unit dust-proof assembly constituting the blower fan alone. The method of claim 1, The isolation opening is a super dustproof cooling tower, characterized in that any one of a rectangular isolation opening (13a) or a circular isolation opening (13b) having a corner of the curved surface. The method of claim 1, The isolation gap provided between the contact portion end portion of the isolation opening and the coupling portion, ultra-vibration-type cooling tower, characterized in that formed in the range of 30 ~ 300mm. The method of claim 1, The close contact portion and the coupling portion of the isolation opening, the super-vibration-type cooling tower, characterized in that any one of the vertical configuration to face each other, bent in the direction of mutual supply air inclined to be configured to be inclined or parallel to each other. The method of claim 1, The close contact grooves of the first elastic fixing part and the second elastic fixing part are configured to be one of the ones configured to be configured to be mutually outwardly vertically, to be inclined to mutually reciprocal or to be parallel to each other. The method of claim 1, The first elastic fixing part and the second elastic fixing part, ultra-vibration type cooling tower characterized in that it further comprises an insertion guide for guiding insertion to the close contact portion and the coupling portion of the isolation opening. The method of claim 1, The vibration isolator, ultra-vibration type cooling tower, characterized in that it is composed of any one of the vibration isolating portion (43a) having a bent portion, the vibration isolating portion (43b) or the vibration isolating portion (43c) having an elastic groove (44). The method of claim 1, The first elastic fixing part and the second elastic fixing part further include a reinforcing fixing member formed of any one of a fixing clamp 47, a fixing pin 48, and a fixing screw 49. Ultra-vibration type cooling tower, characterized in that fixed to the coupling portion. The method of claim 8, The first elastic fixing part and the second elastic fixing part, ultra-vibration type cooling tower, characterized in that it further comprises a fixing groove 45 is fixed to the fixing pin. The method of claim 1, The close contact grooves of the first elastic fixing portion and the second elastic fixing portion, the ultra-dustproof cooling tower, characterized in that the adhesive portion is fixed to the close contact portion and the coupling portion of the isolation opening. The method of claim 1, The elastic vibration isolating member is characterized in that any one of a strip structure (strip structure) for joining the other end by cutting in close contact with one end after being installed in the coupling portion and the isolation opening or an integral structure of the same shape as the isolation opening. Ultra dustproof cooling tower. The method of claim 1, The fan housing 21a having the rectangular air supply outlet 22a is a means for preventing the incoming water from remaining in the fan housing 21a, and the upper surface of the air supply outlet 22a in the fan rotation direction is the base direction. Ultra dust-proof cooling tower, characterized in that configured to be disposed in the lower portion. The method of claim 1, The fan dustproof assembly includes a fan housing support member for fixing the fan housing, a dustproof frame 35 to which the fan housing support member and the motor fixing frame 28 are fixed, and a bottom portion of the dustproof frame 35. Ultra-vibration-type cooling tower, characterized in that consisting of a plurality of fixed dustproof member (37). The method of claim 13, The fan housing support member is characterized in that the fan housing further comprises a plurality of fixing brackets (24) is fixed by bolted fastening or fixed to any one of the fixed to the fan housing by welding. The method of claim 1, The dustproof member 37, the base, super-vibration-type cooling tower, characterized in that installed in any one of the base frame 34 or the base further comprising the base. The method of claim 1, The heat exchange part includes a heat exchange part 50a having a filler, a high temperature fluid inflow header 53 having a high temperature fluid inlet 52, a cooling fluid outlet header 55 having a cooling fluid outlet 54, and one side. An end is coupled to the high temperature fluid inflow header 53, and the other end is a closed type composed of a plurality of heat transfer pipes 51 coupled to the cooling fluid outflow header 54. Ultra-vibration-type cooling tower, characterized in that composed of any one of the heat exchanger (50b) or the mixed heat exchanger for mixing the open heat exchanger (50a) and hermetic heat exchanger (50b). The method of claim 1, In the exhaust port 16, the saturated wet air exhausted from the heat exchange part to the exhaust port is heated to reduce white smoke, and the fluid having the fluid inlet header 82 having the fluid inlet 81 and the fluid outlet 84 is provided. Outflow header 83, one end is connected to the fluid inlet header 82 and the other end is configured to receive a plurality of heat pipes 85 and the heat pipes 85 are connected to the fluid outlet header 83 Ultra-vibration type cooling tower, characterized in that it further comprises a plurality of heat transfer fins (86) and a dry heat exchanger (80) consisting of a case (87) in which the heat pipes (86) are accommodated.

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