CN215087200U - Anti-fouling grid filler - Google Patents

Abstract

The utility model discloses an anti-soil grid packs for the crossing current tower, anti-soil grid packs including the packing layer, the packing layer has a plurality ofly, the crisscross setting of a plurality of packing layers, the packing layer includes the frame, frame and rib, the frame separates the inside of frame and forms a plurality of frame element, the rib includes that first splash circle and second splash the circle, first splash the circle with the second splash the adjacent setting of circle, first diameter size that splashes the circle is greater than the diameter size that the second splashes the circle, first splash circle and second splash the circle on all be connected with two splash the strip, two splash strip cross arrangement, the both ends that splash the strip respectively with adjacent first splash circle or second splash the circle and be connected. The utility model discloses an anti-soil grid packs, through setting up first splash the water circle, the second splashes the water circle and spatters the water strip, can increase the joint strength of packing layer, also can make the shower nozzle splash the water impact that comes out simultaneously and pack the dispersion effect of the tiny water droplet that the layer formed better, make the heat transfer of crossing flow tower is effectual.

Description

Anti-fouling grid filler

Technical Field

The utility model relates to a pack technical field, in particular, relate to an anti-soil grid packs.

Background

The filler is mainly used for the cross flow tower, and because the airflow direction in the cross flow tower is vertical to the water flow direction, the air flow enters the inner cavity of the cross flow tower from the two sides of the cross flow tower, so that the air flow flows transversely and longitudinally, water splashed by the spray head collides with the filler to form fine water drops, and the fine water drops and cold air are subjected to evaporative heat dissipation. However, in the prior art, the filler is designed to be a simple transverse rib and a simple vertical rib, and the contact area between a fine water drop and the transverse rib is small, so that the heat exchange time of water vapor is short, and the cooling efficiency of the transverse flow tower is low.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide an anti-fouling grid filler with a large contact area.

The utility model provides a technical scheme that its technical problem adopted is: an anti-pollution grating filler for a cross flow tower comprises a plurality of filler layers which are arranged in a staggered manner, the filler layer comprises an outer frame, a frame arranged in the outer frame and ribs arranged in the frame, the frame divides the interior of the outer frame into a plurality of frame units, the ribs comprise a first water splashing ring and a second water splashing ring which are fixedly connected in each frame unit, the first water splashing ring is arranged adjacent to the second water splashing ring, the diameter size of the first water splashing ring is larger than that of the second water splashing ring, the first water splashing ring and the second water splashing ring are both connected with two water splashing strips which are arranged in a crossed manner, two ends of the water splashing strip are respectively connected with the adjacent first water splashing ring or the second water splashing ring.

Furthermore, the frame comprises a plurality of first fixing strips parallel to each other and a plurality of second fixing strips parallel to each other, two ends of the first fixing strips and two ends of the second fixing strips are fixedly connected with the inner side wall of the outer frame, the first fixing strips and the second fixing strips are perpendicular to each other, and the frame unit is formed by intersecting the plurality of first fixing strips and the plurality of second fixing strips.

Further, the frame unit is rectangular or triangular or trapezoidal.

Furthermore, the four edges of the outer frame are provided with clamping grooves which are of triangular structures, each edge of the outer frame is formed by inwards sinking, and the clamping grooves are located in the middle of the outer frame.

Furthermore, the outer frame is further provided with a connecting piece which is of a rectangular structure and is arranged inside the outer frame.

Furthermore, two clamping pieces which are oppositely arranged are connected to the connecting piece.

Furthermore, a reinforcing piece is arranged at the joint between the first fixing strip and the second fixing strip, the reinforcing piece is of a circular cylindrical structure, and the reinforcing piece is vertically arranged between the first fixing strip and the second fixing strip.

The utility model has the advantages that: the utility model provides an anti-soil grid packs, through the first adjacent setting of circle that splashes with the second that splashes water circle, the first diameter size that splashes water circle is greater than the diameter size that the second splashes water circle, first circle and the second that splashes water all are connected with two strips that splash on the circle, two strip cross arrangement that splash, the both ends that splash the strip are connected with adjacent first circle or the second that splashes water circle respectively, compare with current simple horizontal vertical bar, through setting up first circle, the second that splashes water circle and splash the strip, can increase the joint strength of packing layer, the water impact packing layer's that also can make the shower nozzle splash simultaneously fine water droplet's that the layer formed dispersion effect is better, and then makes the heat transfer of cooling tower is effectual.

Drawings

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

FIG. 1 is a schematic structural view of an anti-fouling grid packing of the present invention;

fig. 2 is a top view of the anti-fouling grid packing shown in fig. 1.

The names and the numbers of the parts in the figure are respectively as follows:

packing layer 100 outer frame 10 neck 11

Connector 12 frame 20 frame unit 201

First fixing strip 21 and second fixing strip 22 reinforcement 23

Rib 30, first water splashing ring 31 and second water splashing ring 32

Splash bar 33 fastener 121

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

Referring to fig. 1 and 2, the present invention provides an anti-fouling grid packing for a cross flow tower, the anti-fouling grid packing includes a plurality of packing layers 100, and the packing layers 100 are disposed in a staggered manner (the staggered manner means that the packing layer 100 is mounted by rotating 90 ° with respect to two adjacent upper and lower packing layers 100).

Packing layer 100 includes outer frame 10, frame 20, and ribs 30, with frame 20 disposed within outer frame 10 and ribs 30 disposed within frame 20.

The outer frame 10 is roughly a quadrilateral frame structure, the four edges of the outer frame 10 are all provided with the clamping grooves 11, the clamping grooves 11 are in a triangular structure, each edge of the outer frame 10 forms the clamping groove 11 in an inward concave mode, and the clamping grooves 11 are located in the middle of the outer frame 10. Set up draw-in groove 11, on the one hand can prevent that frame 10 from being in the landing has the antiskid effect on the inner wall of crossing current tower, and on the other hand can increase frame 10 and be in connection stability between the inner wall of crossing current tower.

Further, the outer frame 10 is further provided with a connecting member 12, the connecting member 12 is a rectangular structure, and the connecting member 12 is disposed inside the outer frame 10, so that the outer frame 10 does not affect the outer frame 10 adjacent to the outer frame 10. In addition, two clamping pieces 121 which are oppositely arranged are connected to the connecting piece 12, and the clamping pieces 121 can increase the connection stability between two adjacent outer frames 10.

The frame 20 is fixedly connected to the inside of the outer frame 10, and the frame 20 partitions the inside of the outer frame 10 to form a plurality of frame units 201. It will be appreciated that the frame cell 201 may be rectangular or triangular or trapezoidal. It is to be understood that, in the present embodiment, the shape of the frame unit 201 located at the middle position inside the outer frame 10 is a square, the shape of the frame unit 201 located at the edge position inside the outer frame 10 is a triangle, and the shape of the frame unit 201 located at the edge position inside the outer frame 10 is a trapezoid.

Specifically, in the present embodiment, the frame 20 includes a plurality of first fixing bars 21 parallel to each other and a plurality of second fixing bars 22 parallel to each other, and the frame unit 201 is formed by intersecting the plurality of first fixing bars 21 and the plurality of second fixing bars 22 with each other. Both ends of first fixed strip 21 and the both ends of second fixed strip 22 all with the inside wall fixed connection of frame 10, first fixed strip 21 and the setting of second fixed strip 22 mutually perpendicular. In order to strengthen the connection strength between the first fixing strip 21 and the second fixing strip 22, a reinforcing member 23 is arranged at the connection part between the first fixing strip 21 and the second fixing strip 22, the reinforcing member 23 is of a circular cylindrical structure, and the reinforcing member 23 is vertically arranged between the first fixing strip 21 and the second fixing strip 22. In addition, the frame 20 is integrally formed for the convenience of processing the frame 20. Through setting up frame 20, form a plurality of frame cell 201 with the inner space segmentation of frame 10, promoted the structural strength who packs to life has been prolonged.

Rib 30 includes that first splash circle 31 and second splash circle 32, and first splash circle 31 and second splash circle 32 fixed connection are in every frame cell 201, and first splash circle 31 and second splash circle 32 adjacent setting, and first splash circle 31 diameter size of splashing circle is greater than the second and splashes the diameter size of circle 32, and first splash circle 31 and second splash all be connected with two splash the strip 33 on circle 32, and two splash the strip 33 cross arrangement, splash the both ends of strip 33 respectively with adjacent first splash circle 31 or second splash the circle 32 and be connected. Understandably, through setting up first circle 31, the second that spatters of splashing circle 32 and spatters water strip 33, can increase the joint strength of packing layer 100, also can make the water that the shower nozzle splashes out strike the dispersion effect of the tiny water droplet that packing layer 100 formed better simultaneously, and then make the heat transfer of cooling tower is effectual.

When the cross flow tower works, water falls onto the packing layer 100 from the upper part of the cross flow tower, the water splashed by the spray head impacts the packing layer 100 to form fine water drops, and the fine water drops and cold air are evaporated for heat dissipation.

The utility model provides an anti-soil grid packs, through the first diameter size that spatters water circle 31 and the adjacent setting of second splash water circle 32 that spatters water circle 31, the first diameter size that spatters water circle 31 is greater than the second and spatters the diameter size that water circle 32, first splash water circle 31 and second spatter and all be connected with two on the water circle 32 and spatter water strip 33, two spatter water strip 33 cross arrangement, the both ends that spatter water strip 33 are connected with adjacent first splash water circle 31 or second splash water circle 32 respectively, compare with current simple horizontal vertical retort, spatter water circle 32 and spatter water strip 33 through setting up first splash water circle 31, second, can increase packing layer 100's joint strength, also can make the shower nozzle splash the water impact packing layer 100 that forms the dispersion effect better simultaneously, and then make the heat transfer effect of cooling tower is good.

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 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 (7)

1. An anti-fouling grid packing for a cross-flow tower, characterized by: the anti-soil grid packs including the packing layer, the packing layer has a plurality ofly, and is a plurality of the crisscross setting of packing layer, the packing layer includes the frame, sets up frame in the frame and setting up rib in the frame, the frame will the inside of frame is separated and is formed a plurality of frame element, the rib includes fixed connection and every first splash ring and second in the frame element splash the circle, first splash the circle with the second splashes the adjacent setting of circle, first diameter size that splashes the circle is greater than the diameter size that the second splashes the circle, first splash the circle with the second splashes the circle on all be connected with two and splash the strip, two splash the strip cross arrangement, the both ends that splash the strip respectively with adjacent first splash the circle perhaps the second splash the circle is connected.

2. An anti-fouling grid filler according to claim 1, wherein: the frame comprises a plurality of first fixing strips parallel to each other and a plurality of second fixing strips parallel to each other, the two ends of the first fixing strips and the two ends of the second fixing strips are fixedly connected with the inner side wall of the outer frame, the first fixing strips and the second fixing strips are perpendicular to each other, and the frame unit is formed by a plurality of first fixing strips and a plurality of second fixing strips which are intersected with each other.

3. An anti-fouling grid filler according to claim 2, wherein: the frame unit is rectangular or triangular or trapezoidal.

4. An anti-fouling grid filler according to claim 1, wherein: the four edges of the outer frame are provided with clamping grooves which are of triangular structures, each edge of the outer frame is formed by inwards sinking, and the clamping grooves are located in the middle of the outer frame.

5. An anti-fouling grid filler according to claim 4, wherein: the frame is also provided with a connecting piece, the connecting piece is of a rectangular structure, and the connecting piece is arranged inside the frame.

6. An anti-fouling grid filler according to claim 5, wherein: the connecting piece is connected with two clamping pieces which are oppositely arranged.

7. An anti-fouling grid filler according to claim 2, wherein: the joint between the first fixing strip and the second fixing strip is provided with a reinforcing piece, the reinforcing piece is of a circular cylindrical structure, and the reinforcing piece is vertically arranged between the first fixing strip and the second fixing strip.

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