CN115183621A - Cooling tower filler water content on-line measuring device - Google Patents

Abstract

The invention relates to the technical field of cooling tower filler detection, in particular to an online measuring device for the water content of cooling tower filler. Through communicating a plurality of main measuring pieces and the inner chamber in main drain pipe of violently managing of inferior measuring piece, when the interior water content of cooling tower filler reduces, the inside rivers of being located cooling tower filler can be dredged along the recess that first collection received a and second collection and received an inner chamber, and finally in three cavity commentaries on classics of main drain pipe inside carried to a plurality of main measuring pieces and the inferior measuring piece of vertical distribution, utilize the water storage scale bin of rectangle in main measuring piece and the inferior measuring piece to the observation of the inside water yield of the different cooling tower fillers of water content, thereby can make things convenient for the on-line estimation of maintenance personal to cooling tower filler efficiency.

Description

Cooling tower filler water content on-line measuring device

Technical Field

The invention relates to the technical field of cooling tower filler detection, in particular to an online measuring device for the water content of a cooling tower filler.

Background

The filler is the most important component of the cooling tower, the efficiency of the filler depends on whether cooling water and air are in full contact in the filler, and the filler is made of Xiaoshu materials, asbestos cement, cement grids, plastics, glass fiber reinforced plastics, set words and the like.

At present, the cooling tower packs in the use, receives the silting up and the shutoff of incrustation scale to the packing in the cooling water, further can lead to the fact very big influence to the packing to the shower water membrane formation, and at this moment, the area of contact will reduce between water after spraying and air and the packing, in case the reduction of water content in the packing will further lead to the fact the efficiency reduction of temperature conversion.

According to the above, how to facilitate the maintenance personnel to accurately observe the water content in the filler so as to estimate whether the filler is silted up by the scale is the technical difficulty to be solved by the invention.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

Therefore, the technical scheme adopted by the invention is as follows:

the utility model provides a cooling tower packs water content on-line measuring device, including the cooling tower filler, the water yield is dredged the mechanism, supporting mechanism and filler water delivery mechanism, the centre gripping is dredged the mechanism at the outside water yield of cooling tower filler and is included the adaptation assembly at the first piece of gathering of the outside one side of cooling tower filler, the assembly is packed the second of outside opposite side at the cooling tower and is received the honeycomb duct at first piece of gathering or second and receive a both ends, install main drain pipe on a honeycomb duct and connect on another honeycomb duct and keep away from the vice drain pipe of main drain pipe, install the supporting mechanism outside the cooling tower filler, supporting mechanism includes the location planking of centre gripping at the outside one end of cooling tower filler, install the roof of increasing stability inboard in the location planking, connect the location bottom plate on the location planking, install a plurality of main measuring pieces and a plurality of secondary measuring pieces on location planking lateral wall, install the filler water delivery mechanism in the water yield is dredged the mechanism, the filler water delivery mechanism is including installing the horizontal violently managing between the pipe between the first piece of gathering and the second and violently managing, install the outside both ends radian of the horizontal tub and be located the supplementary inside groove between two outer grooves.

The present invention in a preferred example may be further configured to: three groups of transverse conduit end sockets are respectively arranged at the top, the middle and the bottom of the main liquid drainage pipe, and three sealed cavities are arranged inside the vertical pipe in the main liquid drainage pipe.

Through adopting above-mentioned technical scheme, the cavity of three departments in main drain pipe top, middle part and bottom communicates with three main measuring part of group and the inferior measuring part of installing on location planking lateral wall respectively, and when using, in case incrustation scale silts up in the cooling tower packs, the inside water storage rate of cooling tower packing will feed back through main drain pipe, main measuring part and inferior measuring part, finally can follow main measuring part and inferior measuring part outer scale and show.

The invention in a preferred example may be further configured to: the auxiliary liquid discharge pipe is formed by combining three groups of transverse pipes and water pipes, and a vertical cavity is formed in the water pipe in the auxiliary liquid discharge pipe.

Through adopting above-mentioned technical scheme, the inboard three groups of violently pipes of vice fluid-discharge tube are connected respectively in three groups first gather receive with the second gather on the piece, utilize vertical three groups of first gathering that pile up to receive the piece, the second gathers and receives the piece and can further unify to gather together in the first gathering of bottommost and the second of the water in the cooling tower filler under the state of piling up to a set of main measuring piece and the demonstration of inferior measuring piece to the water content of bottommost on the planking lateral wall of location conveniently installing.

The invention in a preferred example may be further configured to: first gather and receive a whole ripple construction that is of piece and second collection, and first gather and receive the outside both sides of piece and second collection and offer the recess on adaptation centre gripping cooling tower filler both sides limit, and the first middle part of gathering and receiving a piece and second collection and offer the basin of guide rivers.

Through adopting above-mentioned technical scheme, the recess that adaptation in the outside both sides of cooling tower filler is seted up with first gathering and receiving the outside both sides of piece and second gathering to set up evenly distributed's cross bore on first gathering and receiving two baffles in the middle part of piece and the second gathering, wherein, first gathering is received the piece and the second gathering is received the inside basin that is used for dredging rivers of seting up of going of piece.

The present invention in a preferred example may be further configured to: the main measuring part and the secondary measuring part are formed by welding an L-shaped through pipe and a rectangular water storage bin, and a transparent scale layer is arranged on the outer side surface of the rectangular water storage bin.

Through adopting above-mentioned technical scheme, utilize main measuring part and time measuring part outside to set up transparent scale layer, when the water level rose in the rectangle water storage storehouse, combine the demonstration of scale layer to the water level to can make things convenient for maintenance personal's online observation.

The present invention in a preferred example may be further configured to: the inside of radian water delivery's cavity has been seted up to the inside of radian water jacket and supplementary inside groove, and the top of radian water jacket and supplementary inside groove is seted up evenly distributed and is laminated in the hole groove of cooling tower filler bottom.

By adopting the technical scheme, whether the cooling tower filler is normal or not is compared by regularly and repeatedly detecting the speed and the flow of the spraying water flow flowing through the cooling tower filler in the same time, and when the measured water flows in the plurality of cooling tower fillers are different in the set time, the use efficiency of each cooling tower filler can be rapidly distinguished.

By adopting the technical scheme, the invention has the beneficial effects that:

1. according to the invention, as shown above, the main measuring parts and the secondary measuring parts are arranged on the positioning outer plate, the main measuring parts and the secondary measuring parts are vertically assembled along the outer side wall of the positioning outer plate, the inner ends of the main measuring parts and the secondary measuring parts are communicated with the inner cavity of the main liquid drainage pipe, the inner cavity of the main liquid drainage pipe is divided into three cavities by using two cushion parts arranged in the middle of the main liquid drainage pipe, when the water content in the cooling tower filler is reduced, the water flow in the cooling tower filler can be dredged along the grooves of the inner cavities of the first collecting part and the second collecting part, and finally conveyed to the main measuring parts and the secondary measuring parts which are vertically distributed along the three cavities in the main liquid drainage pipe, and the water storage scale bins in the main measuring parts and the secondary measuring parts are used for observing the water content in different cooling tower fillers, so that maintenance personnel can conveniently estimate the filling efficiency of the cooling tower on line.

2. According to the invention, as shown above, a plurality of first sodium gathering parts and second sodium gathering parts are vertically arranged, the positioning outer plate, the stabilizing top plate and the positioning bottom plate are utilized to fix the plurality of vertically arranged first sodium gathering parts and second sodium gathering parts, a plurality of guide pipes are arranged at one ends of the first sodium gathering parts and the second sodium gathering parts, which are far away from the positioning outer plate, and the guide pipes at the outer ends of the first sodium gathering parts and the second sodium gathering parts are communicated by utilizing the auxiliary liquid discharge pipes.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present invention;

FIG. 2 is a schematic view of a partial mechanical dispersion and its cross-section according to an embodiment of the present invention;

FIG. 3 is a schematic partial dispersion view of FIG. 2 in accordance with one embodiment of the present invention;

FIG. 4 is a schematic diagram of the overall assembly of one embodiment of the present invention;

FIG. 5 is a schematic view of the assembly of the components in a decentralized arrangement according to one embodiment of the present invention;

fig. 6 is a schematic partial cross-sectional view of a mechanism according to an embodiment of the present invention.

Reference numerals:

100. cooling tower packing;

200. a water volume dredging mechanism; 210. a first polynner element; 220. a main liquid discharge pipe; 230. a secondary drain pipe; 240. a flow guide pipe; 250. a second nano-piece;

300. a support mechanism; 310. positioning the outer plate; 320. a stable top plate is added; 330. positioning a bottom plate; 340. a primary measurement member; 350. a secondary measurement member;

400. a filler water delivery mechanism; 410. a horizontal tube; 420. a radian outer groove; 430. an auxiliary inner tank.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

The following describes an online measuring device for the water content of the cooling tower packing according to some embodiments of the invention with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1-6, the device for measuring the water content of the cooling tower filler provided by the present invention includes a cooling tower filler 100, a water volume dredging mechanism 200, a supporting mechanism 300 and a filler water delivery mechanism 400, wherein the water volume dredging mechanism 200 is installed on the cooling tower filler 100, the supporting mechanism 300 is installed on the water volume dredging mechanism 200, and the filler water delivery mechanism 400 is installed in the water volume dredging mechanism 200.

The water volume dredging mechanism 200 comprises a first collecting part 210, a main liquid discharging pipe 220, an auxiliary liquid discharging pipe 230, a liquid guiding pipe 240 and a second collecting part 250, the supporting mechanism 300 comprises a positioning outer plate 310, a stability-increasing top plate 320, a positioning bottom plate 330, a main measuring part 340 and a secondary measuring part 350, and the filler water conveying mechanism 400 comprises a horizontal transverse pipe 410, an arc outer groove 420 and an auxiliary inner groove 430.

Specifically, the first collecting part 210 is adapted to be assembled on one side of the outside of the cooling tower filler 100, the second collecting part 250 is assembled on the other side of the outside of the cooling tower filler 100, multiple groups of guide pipes 240 are respectively installed at two ends of the first collecting part 210 or the second collecting part 250, the main liquid discharge pipe 220 is installed on one guide pipe 240, the auxiliary liquid discharge pipe 230 is connected to the other guide pipe 240, the positioning outer plate 310 is clamped at one end of the outside of the cooling tower filler 100, the stability-enhancing top plate 320 is installed at the inner side of the positioning outer plate 310, the positioning bottom plate 330 is connected to the positioning outer plate 310, the multiple main measuring parts 340 and the multiple auxiliary measuring parts 350 are installed on the outer side wall of the positioning outer plate 310, the horizontal pipe 410 is installed between the first collecting part 210 and the second collecting part 250, the outer arc grooves 420 are installed at two ends of the outside of the horizontal pipe 410, and the auxiliary inner grooves 430 are installed on the horizontal pipe 410 and are located between the two outer arc grooves 420.

Example two:

referring to fig. 3 and 4, on the basis of the first embodiment, three sets of transverse conduit ends are respectively disposed at the top, middle and bottom of the main liquid drainage pipe 220, and three sealed cavities are disposed inside the vertical pipe in the main liquid drainage pipe 220.

The cavities at the top, middle and bottom of the main liquid discharge pipe 220 are respectively communicated with the three groups of main measuring parts 340 and the secondary measuring parts 350 which are arranged on the outer side wall of the positioning outer plate 310, so that when the cooling tower filler 100 is used, once scale silts up in the cooling tower filler 100, the water storage rate in the cooling tower filler 100 can be fed back through the main liquid discharge pipe 220, the main measuring parts 340 and the secondary measuring parts 350, and the maintenance personnel can observe the cooling tower filler in time.

Example three:

with reference to fig. 3-5, on the basis of the first embodiment, the auxiliary liquid discharge pipe 230 is formed by combining three groups of horizontal pipes and three groups of water pipes, a vertical cavity is formed inside the water pipe in the auxiliary liquid discharge pipe 230, meanwhile, the first sodium collecting piece 210 and the second sodium collecting piece 250 are integrally of a corrugated structure, grooves adapted to clamp two sides of the cooling tower packing 100 are formed in two external sides of the first sodium collecting piece 210 and the second sodium collecting piece 250, and a water tank for guiding water flow is formed in the middle of the first sodium collecting piece 210 and the second sodium collecting piece 250.

Utilize the vertical three first of the three groups of piling up to gather and receive a 210, the second is gathered a 250 to the water meeting in the cooling tower filler 100 under the stacked state in unified gathering in the first of bottommost is gathered and is received a 210 and the second and is received a 250 in, thereby conveniently install on location planking 310 lateral wall a set of main measuring part 340 and the demonstration of inferior measuring part 350 to the water content of bottommost, in addition, utilize and set up the recess in the outside both sides of cooling tower filler 100 with first gathering and receiving a 210 and second gathering and receiving a 250 outside both sides, and set up evenly distributed's cross bore on two baffles in the middle part of first gathering and receiving a 210 and second gathering and receiving a 250, thereby can make things convenient for the dredging and drainage of the interior rivers of cooling tower filler 100 of basin in the first gathering and receiving a 210 and second gathering and receiving a 250 inner chamber middle part.

Example four:

referring to fig. 3, in the first embodiment, the main measuring unit 340 and the sub measuring unit 350 are formed by welding an L-shaped pipe and a rectangular water storage bin, and a transparent scale layer is disposed on an outer side surface of the rectangular water storage bin.

Transparent scale layers are arranged outside the main measuring part 340 and the secondary measuring part 350, and when the water level in the rectangular water storage bin rises, the scale layers are combined to display the water level, so that maintenance personnel can conveniently observe the water level on line.

Example five:

referring to fig. 5, on the basis of the first embodiment, the arc outer tank 420 and the auxiliary inner tank 430 are provided with water-conveying cavities inside, and the top of the arc outer tank 420 and the auxiliary inner tank 430 are provided with holes uniformly distributed and attached to the bottom of the cooling tower packing 100.

When the cooling tower filler 100 is used, the use efficiency of each cooling tower filler 100 can be quickly distinguished when the water flow measured in a plurality of cooling tower fillers 100 is different within a specified time by using the mode that the speed and the flow flowing through the inside of the cooling tower filler 100 at the same time are used as reference to compare whether the cooling tower filler 100 is normal.

The working principle and the using process of the invention are as follows:

firstly, an operator needs to assemble two arc-shaped outer grooves 420 and three auxiliary inner grooves 430 by using a horizontal transverse pipe 410 in advance, so that the inner cavities of the horizontal transverse pipe 410, the arc-shaped outer grooves 420 and the auxiliary inner grooves 430 are combined and communicated, then two ends of the horizontal transverse pipe 410 are installed in the grooves on the inner sides of the first collecting piece 210 and the second collecting piece 250, then the cooling tower filler 100 is placed in a stabilizing manner along the right upper sides of the horizontal transverse pipe 410, the arc-shaped outer grooves 420 and the auxiliary inner grooves 430, then two side corners of the outer part of the cooling tower filler 100 are inserted and connected along the grooves on the inner sides of the first collecting piece 210 and the second collecting piece 250, then a plurality of guide pipes 240 are installed at two ends of the first collecting piece 210 and the second collecting piece 250, so that the adjacent three guide pipes 240 can be distributed along the vertical state, then the auxiliary liquid discharge pipe 230 is installed on the guide pipes 240 at one end of the outer parts of the first collecting piece 210 and the second collecting piece 250 in the assembled state, then, a plurality of combined water diversion mechanisms 200 and filler water delivery mechanisms 400 are installed inside the positioning outer plate 310, the bottoms of the arc outer tank 420 and the auxiliary inner tank 430 are pressed against the top of the positioning bottom plate 330, the ends of the outer ends of the first focusing member 210 and the second focusing member 250 are fitted and pressed on the bottom of the stabilizing top plate 320, then an operator needs to fix and assemble the cooling tower fillers 100 fixed in the water diversion mechanisms 200 and the filler water delivery mechanisms 400 in a matrix manner, so that a plurality of stacked cooling tower fillers 100 can be assembled into a box body state, and then a plurality of assembled cooling tower fillers 100 are assembled along the slotted holes reserved on the cooling tower, so that a plurality of groups of cooling tower fillers 100 in the box body state can be assembled into a sealed cooling tower, after the water in the cooling tower is conveyed to the inside of the cooling tower and is uniformly sprayed on the cooling tower filler 100 through the water pipe, the water is subjected to the water film forming state of the spray water flow by the multi-group combined cooling tower filler 100, the formed water film is subjected to heat exchange treatment by the dry air flow, and a large amount of steam is evaporated into the air to realize the discharge of the heat energy in the water film, when the use is finished, the filler state is conveniently and timely observed by maintainers, therefore, the residual water flow in the cooling tower filler 100 is conveyed to the horizontal transverse pipe 410 along the plurality of radian outer grooves 420 and the auxiliary inner grooves 430 and is conveyed to the grooves in the middle of the inner cavities of the first collecting part 210 and the second collecting part 250 from the horizontal transverse pipe 410, at this time, water inside the first collecting member 210 and the second collecting member 250 is delivered to the main measuring member 340 and the secondary measuring member 350 in advance along the main drain pipe 220, and simultaneously, the auxiliary drain pipe 230 communicates the inner cavities of the plurality of vertically distributed first collecting members 210 and the plurality of vertically distributed second collecting members 250, so that the first collecting member 210 and the second collecting member 250 located at the lowest position can deliver the water amount located at the highest position in the stacked state to the two main measuring members 340 and the secondary measuring members 350 located at the lowest position outside the positioning outer plate 310, and the main measuring members 340 and the secondary measuring members 350 at the position are used for detecting the stored water amount, so that an operator can conveniently observe the water content in each cooling tower packing 100 in the stacked state.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (6)

1. The utility model provides a cooling tower packs water content on-line measuring device which characterized in that includes:

the water quantity dredging mechanism (200) is clamped outside the cooling tower filler (100), and the water quantity dredging mechanism (200) comprises a first collecting part (210) which is matched and assembled at one side outside the cooling tower filler (100), a second collecting part (250) which is assembled at the other side outside the cooling tower filler (100), guide pipes (240) which are arranged at two ends of the first collecting part (210) or the second collecting part (250), a main liquid discharge pipe (220) which is arranged on one guide pipe (240) and an auxiliary liquid discharge pipe (230) which is connected to the other guide pipe (240) and is far away from the main liquid discharge pipe (220);

the supporting mechanism (300) is arranged outside the cooling tower filler (100), and the supporting mechanism (300) comprises a positioning outer plate (310) clamped at one end of the outside of the cooling tower filler (100), a stability-enhancing top plate (320) arranged on the inner side of the positioning outer plate (310), a positioning bottom plate (330) connected to the positioning outer plate (310), a plurality of main measuring parts (340) arranged on the outer side wall of the positioning outer plate (310) and a plurality of secondary measuring parts (350);

install filler water delivery mechanism (400) in water yield dredging mechanism (200), filler water delivery mechanism (400) including install the horizontal pipe (410) of violently managing between first collection piece (210) and second collection piece (250), install radian outer tank (420) of violently managing (410) outside both ends of level and install and violently manage (410) on the level and be located two radian inner tanks (430) between outer tank (420).

2. The cooling tower packing water content online measuring device according to claim 1, wherein three sets of transverse conduit ends are respectively disposed at the top, middle and bottom of the main liquid drainage pipe (220), and three sealed cavities are disposed inside a vertical pipe in the main liquid drainage pipe (220).

3. The cooling tower filler water content online measuring device according to claim 1, wherein the auxiliary liquid discharge pipe (230) is formed by combining three groups of transverse pipes and water pipes, and a vertical cavity is formed inside the water pipe in the auxiliary liquid discharge pipe (230).

4. The cooling tower packing water content online measuring device according to claim 1, wherein the first sodium collecting piece (210) and the second sodium collecting piece (250) are integrally of a corrugated structure, grooves adapted to clamp two side edges of the cooling tower packing (100) are formed in two outer sides of the first sodium collecting piece (210) and the second sodium collecting piece (250), and water grooves for guiding water flow are formed in the middle parts of the first sodium collecting piece (210) and the second sodium collecting piece (250).

5. The cooling tower filler water content online measuring device according to claim 1, wherein the main measuring part (340) and the secondary measuring part (350) are formed by welding an L-shaped through pipe and a rectangular water storage bin, and a transparent scale layer is arranged on the outer side surface of the rectangular water storage bin.

6. The device for on-line measurement of water content in cooling tower filler according to claim 1, wherein the radian outer groove (420) and the auxiliary inner groove (430) are internally provided with water conveying cavities, and the top of the radian outer groove (420) and the auxiliary inner groove (430) are provided with hole grooves which are uniformly distributed and are attached to the bottom of the cooling tower filler (100).

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