CN214148970U - Axial-flow type cyclone separator assembly for cooling tower - Google Patents

Abstract

The utility model relates to an axial-flow type cyclone separator component for cooling tower, which comprises an upper air duct, a guide box and a lower air duct, wherein the upper air duct and the lower air duct are respectively and fixedly arranged at two ends of the guide box, the upper air duct and the lower air duct are coaxially arranged, a water-vapor mixture enters the lower air duct through an air hole, in the lower air duct, external cold air enters from the upper air duct and enters the lower air duct through the guide box, the external cold air and the wet-hot water-vapor mixture can be fully mixed, a guide cone is coaxially and fixedly arranged in the lower air duct, a helical blade is coaxially sleeved outside the guide cone, the helical blade is fixedly connected with the lower air duct and the guide cone, due to the action of the helical blade, a large amount of moisture is accelerated to be separated out and stored in the guide box, then flows back to a water collecting tank in the overflow port, after secondary water collection of the axial-flow type cyclone separator, the air discharged from the top of the tower almost has no moisture, and the water-saving performance is obviously improved.

Description

Axial-flow type cyclone separator assembly for cooling tower

Technical Field

The utility model belongs to the technical field of the cooling tower technique and specifically relates to an axial-flow type cyclone subassembly for cooling tower is related to.

Background

The traditional cooling tower mainly comprises a tower body, filler, a spraying device, a water collector, an air duct, a fan, a motor, a support, a hot water pipe, an automatic valve and a water collecting tank. The industrial hot water is sent to the spraying device through the hot water pipe, then is sprayed to the filler by the spraying device, and exchanges heat with air in a countercurrent manner, and the hot water is cooled and then is sent to the industrial device for recycling of equipment needing cooling. The cooling tower is in the use, in order to satisfy the heat transfer demand, the circulating water needs the evaporation heat transfer, and this in-process can cause a large amount of evaporation losses and drift loss, has leaded to the waste of water resource.

After the damp and hot air is filtered by the water collector, the water-vapor mixture continuously moves upwards, a large amount of water still exists in the water-vapor mixture primarily filtered by the water collector, only a small amount of water is separated out after the water-vapor mixture passes through the traditional separator, most of the water is discharged from the top of the tower, the water-saving performance is poor, the water resource waste is serious, the white fog is large, the environment is polluted, the human health is harmed, and the requirements of energy conservation and environmental protection cannot be met.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problems that after a water-vapor mixture passes through a traditional separator, only a small amount of water is separated out, most of water is discharged from the top of a tower, the water-saving performance is poor, the water resource waste is serious, the white fog is large, the environment is polluted, the human health is harmed, and the requirements of energy conservation and environmental protection cannot be met, the axial-flow type cyclone separator component for the cooling tower is provided.

The utility model provides a technical scheme that its technical problem adopted is: an axial-flow type cyclone separator component for a cooling tower comprises a supporting beam, wherein a supporting plate is fixedly arranged on the supporting beam, axial-flow type cyclone separators are detachably arranged on the supporting plate, and a plurality of axial-flow type cyclone separators are arranged in an array;

the axial-flow type cyclone separator comprises an upper air duct, a flow guide box and a lower air duct, wherein the upper air duct and the lower air duct are respectively and fixedly arranged at two ends of the flow guide box, the upper air duct and the lower air duct are coaxially arranged, the lower air duct is detachably arranged on a supporting plate, a vent hole is formed in the supporting plate and communicated with the outside and an inner cavity of the lower air duct, an overflow port is formed in the flow guide box, a flow guide cone is coaxially and fixedly arranged in the lower air duct, a spiral blade is coaxially sleeved outside the flow guide cone, and the spiral blade is fixedly connected with the lower air duct and the flow guide cone.

The utility model discloses an axial-flow type cyclone separator subassembly for cooling tower, when using, install in the cooling tower body, lie in between dryer and the water receiver, the axial-flow type cyclone separator of the utility model includes an upper air duct, a guide box and a lower air duct, the upper air duct and the lower air duct are respectively fixed and arranged at the two ends of the guide box, the upper air duct and the lower air duct are coaxially arranged, the vapor mixture passing through the water receiver goes on, mixes with the cold air entering from the air inlet at the upper side of the tower body in the axial-flow type cyclone separator, still has a large amount of moisture in the vapor mixture primarily filtered by the water receiver, the vapor mixture enters the lower air duct through the air vent, in the lower air duct, the external cold air enters from the upper air duct, enters the lower air duct through the guide box, the external cold air can be fully mixed with the wet and hot vapor mixture, the coaxial fixed mounting has the guiding cone in the air duct down, the coaxial cover is equipped with helical blade outside the guiding cone, air duct and guiding cone under helical blade fixed connection, because helical blade's effect, accelerate a large amount of moisture content to appear, store in the water conservancy diversion incasement, then flow back to the catch basin in the tower through the overflow mouth, after receiving water through axial-flow type cyclone secondary, the air of following the top of the tower exhaust does not have moisture content almost, the water conservation performance is showing and is promoting, this problem that water waste and white fog are big has thoroughly been solved, avoid polluting the environment and endangering human health, satisfy energy-concerving and environment-protective demand.

In order to increase the retention time of the water-vapor mixture in the guide box and enable the moisture to be better separated out, the upper air guide cylinder is inserted into the guide box, and the guide cone is inserted into the upper air guide cylinder.

In order to realize that the lower air duct is detachably mounted on the supporting plate, the supporting plate is provided with a mounting hole, the mounting hole is coaxial with the vent hole and communicated with the vent hole, the radius of the vent hole is smaller than that of the mounting hole, and the lower air duct is coaxial and is inserted in the mounting hole in an interference manner.

Preferably, the number of the helical blades is two, the two helical blades are arranged up and down, and the rotation directions of the two helical blades are opposite.

The utility model has the advantages that the axial-flow type cyclone separator component for the cooling tower is arranged in the cooling tower body and positioned between the air duct and the water receiver when in use, the axial-flow type cyclone separator comprises an upper air duct, a flow guiding box and a lower air duct, the upper air duct and the lower air duct are respectively and fixedly arranged at two ends of the flow guiding box, the upper air duct and the lower air duct are coaxially arranged, a water-vapor mixture passing through the water receiver continuously goes upwards and is mixed with cold air entering from an air inlet at the upper side of the tower body in the axial-flow type cyclone separator, a large amount of moisture is still contained in the water-vapor mixture primarily filtered by the water receiver, the water-vapor mixture enters the lower air duct through the air holes, external cold air enters from the upper air duct in the lower air duct and enters the lower air duct through the flow guiding box, the external cold air can be fully mixed with the wet and hot water-vapor mixture, the coaxial fixed mounting has the guiding cone in the air duct down, the coaxial cover is equipped with helical blade outside the guiding cone, air duct and guiding cone under helical blade fixed connection, because helical blade's effect, accelerate a large amount of moisture content to appear, store in the water conservancy diversion incasement, then flow back to the catch basin in the tower through the overflow mouth, after receiving water through axial-flow type cyclone secondary, the air of following the top of the tower exhaust does not have moisture content almost, the water conservation performance is showing and is promoting, this problem that water waste and white fog are big has thoroughly been solved, avoid polluting the environment and endangering human health, satisfy energy-concerving and environment-protective demand.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a two-dimensional schematic view of the present invention;

fig. 2 is a two-dimensional cross-sectional view of the axial flow cyclone separator of the present invention.

In the figure: 3-1 parts of a support beam, 3-2 parts of a support plate, 3-3 parts of an axial-flow cyclone separator, 3-4 parts of an upper air guide cylinder, 3-5 parts of a guide box, 3-6 parts of a lower air guide cylinder, 3-7 parts of a vent hole, 3-8 parts of an overflow port, 3-9 parts of a guide cone and 3-10 parts of a helical blade.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1 and 2, the axial-flow type cyclone separator assembly for the cooling tower comprises a support beam 3-1, a support plate 3-2 is fixedly arranged on the support beam 3-1, an axial-flow type cyclone separator 3-3 is detachably arranged on the support plate 3-2, and a plurality of axial-flow type cyclone separators 3-3 are arranged in an array;

the axial-flow type cyclone separator 3-3 comprises an upper air guide cylinder 3-4, a guide box 3-5 and a lower air guide cylinder 3-6, the upper air guide cylinder 3-4 and the lower air guide cylinder 3-6 are respectively and fixedly arranged at two ends of the guide box 3-5, the upper air guide cylinder 3-4 and the lower air guide cylinder 3-6 are coaxially arranged, the lower air guide cylinder 3-6 is detachably arranged on a support plate 3-2, a vent hole 3-7 is arranged on the support plate 3-2, the vent hole 3-7 is communicated with the outside and an inner cavity of the lower air guide cylinder 3-6, an overflow port 3-8 is arranged on the guide box 3-5, a guide cone 3-9 is coaxially and fixedly arranged in the lower air guide cylinder 3-6, a spiral blade 3-10 is coaxially sleeved outside the guide cone 3-9, the spiral blade 3-10 is fixedly connected with the lower air guide cylinder 3-6 and the guide cone 3-9, the spiral blades 3-10 are provided with two spiral blades 3-10 which are arranged up and down, and the rotating directions of the two spiral blades 3-10 are opposite.

The upper air guide cylinder 3-4 is inserted into the guide box 3-5, and the guide cone 3-9 is inserted into the upper air guide cylinder 3-4.

The supporting plate 3-2 is provided with a mounting hole which is coaxial and communicated with the vent hole 3-7, the radius of the vent hole 3-7 is smaller than that of the mounting hole, and the lower air duct 3-6 is coaxial and inserted in the mounting hole in an interference manner.

The utility model relates to an axial-flow type cyclone separator component for a cooling tower, which is arranged in a cooling tower body and positioned between an air duct and a water collector when in use, and comprises an upper air duct 3-4, a diversion box 3-5 and a lower air duct 3-6, wherein the upper air duct 3-4 and the lower air duct 3-6 are respectively and fixedly arranged at two ends of the diversion box 3-5, the upper air duct 3-4 and the lower air duct 3-6 are coaxially arranged, a water vapor mixture passing through the water collector continuously goes upwards and is mixed with cold air entering from an air inlet at the upper side of a tower body in the axial-flow type cyclone separator, a large amount of moisture is still contained in the water vapor mixture primarily filtered by the water collector, a water vapor mixture air hole enters the lower air duct 3-6, and outside cold air enters from the upper air duct 3-4 in the lower air duct 3-6, the air enters a lower air guide cylinder 3-6 after passing through a flow guide box 3-5, external cold air and a damp and hot water-vapor mixture can be fully mixed, a flow guide cone 3-9 is coaxially and fixedly arranged in the lower air guide cylinder 3-6, a spiral blade 3-10 is coaxially sleeved outside the flow guide cone 3-9, the spiral blade 3-10 is fixedly connected with the lower air guide cylinder 3-6 and the flow guide cone 3-9, a large amount of water is accelerated to be separated out under the action of the spiral blade 3-10, the water is stored in the flow guide box 3-5 and then flows back to a water collecting tank in a tower through an overflow port 3-8, after secondary water collection is carried out through an axial flow type cyclone separator, the air discharged from the top of the tower almost has no water, the water saving performance is obviously improved, the problems of water resource waste and large white fog are thoroughly solved, the pollution to the environment and the harm to the human health are avoided, the requirements of energy conservation and environmental protection are met.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (4)

1. An axial-flow type cyclone separator component for a cooling tower is characterized in that: the device comprises a supporting beam (3-1), wherein a supporting plate (3-2) is fixedly arranged on the supporting beam (3-1), axial-flow type cyclone separators (3-3) are detachably arranged on the supporting plate (3-2), and a plurality of axial-flow type cyclone separators (3-3) are arranged in an array;

the axial-flow type cyclone separator (3-3) comprises an upper air guide cylinder (3-4), a guide box (3-5) and a lower air guide cylinder (3-6), the upper air guide cylinder (3-4) and the lower air guide cylinder (3-6) are respectively and fixedly arranged at two ends of the guide box (3-5), the upper air guide cylinder (3-4) and the lower air guide cylinder (3-6) are coaxially arranged, the lower air guide cylinder (3-6) is detachably arranged on a support plate (3-2), a vent hole (3-7) is formed in the support plate (3-2), the vent hole (3-7) is communicated with the outside and an inner cavity of the lower air guide cylinder (3-6), an overflow port (3-8) is formed in the guide box (3-5), a guide cone (3-9) is coaxially and fixedly arranged in the lower air guide cylinder (3-6), the guide cone (3-9) is coaxially sleeved with spiral blades (3-10), and the spiral blades (3-10) are fixedly connected with the lower air duct (3-6) and the guide cone (3-9).

2. An axial flow cyclonic separator assembly for a cooling tower as claimed in claim 1, wherein: the upper air guide cylinder (3-4) is inserted into the guide box (3-5), and the guide cone (3-9) is inserted into the upper air guide cylinder (3-4).

3. An axial flow cyclonic separator assembly for a cooling tower as claimed in claim 1, wherein: the air guide device is characterized in that the supporting plate (3-2) is provided with a mounting hole, the mounting hole and the vent hole (3-7) are coaxial and communicated, the radius of the vent hole (3-7) is smaller than that of the mounting hole, and the lower air guide cylinder (3-6) is coaxial and is inserted into the mounting hole in an interference manner.

4. An axial flow cyclonic separator assembly for a cooling tower as claimed in claim 1, wherein: the number of the spiral blades (3-10) is two, the two spiral blades (3-10) are arranged up and down, and the rotating directions of the two spiral blades (3-10) are opposite.

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