CN217110652U - Ball loading system with adjustable quantity - Google Patents

Abstract

The utility model discloses a quantity adjustable dress ball system, this dress ball system include that the rubber ball pump, rubber ball pump divide ball ware, divide ball ware filter screen, ball receiving net, condenser and condenser cooling tube bank etc.. When the ball is loaded, the outlet valve of the rubber ball counter and the by-pass valve of the ball distributor are opened, the rubber ball flows into the ball distributor along with water flow through the ball taking pipe under the pressure of the rubber ball pump, a filter screen is arranged in the ball distributor, the water flow flows through the by-pass pipe, and the rubber ball is remained in the ball distributor. When the rubber balls pass through the rubber ball counter, the rubber ball counter can measure the number of the passing rubber balls, when the number of the rubber balls reaches the requirement, the outlet valve of the rubber ball counter is closed, and the ball loading is finished. The process can change the quantity of the balls loaded each time according to the requirement, and the quantity of the loaded balls can be adjusted. Through the adjustable of dress ball quantity, can guarantee to have sufficient gluey ball quantity to satisfy the requirement of complete washing tube bank, can not cause the waste of gluey ball quantity again.

Description

Ball loading system with adjustable quantity

Technical Field

The utility model belongs to the technical field of thermal power cold junction optimization, concretely relates to quantity adjustable dress ball system.

Background

Daily physics of present condenser tube bank washs mainly through the rubber ball washing, through the cooling tube bank in the clean condenser of regularly running rubber ball system, keeps the cleanness of condenser. Therefore, the stability and accuracy of the rubber ball system have great influence on the performance of the condenser, and further influence the back pressure and the economical efficiency of the turboset. The rubber balls are used as consumable articles, abrasion and loss are easy to occur, the ball collecting rate of a part of systems is low, the number of the input effective rubber balls is insufficient, and the cleaning effect is influenced.

Meanwhile, the current rubber ball pump system is difficult to rapidly obtain the accurate running rubber ball quantity, so that the quantity of the filled balls is adjusted, manual counting is needed when the quantity of the rubber balls is obtained, and the accurate quantity of the filled balls is difficult to timely obtain on line. On the other hand, because a row of cooling pipes are cleaned each time, the number of the cooling pipes of the condenser is different, so that the number of the balls thrown each time is different.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art's shortcoming, provide a quantity adjustable dress ball system to solve the problem that current gluey ball quantity is difficult to the fine management.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

a quantity-adjustable ball loading system comprises an A-side rubber ball collecting net and a B-side rubber ball collecting net;

the output end of the A side rubber ball collecting net is connected with an A side rubber ball pump, the output end of the A side rubber ball pump is connected with an A side rubber ball counter, the output end of the A side rubber ball counter is connected with an A side rubber ball separator, and an A side rubber ball output pipeline of the A side rubber ball separator is connected with an A side condenser; the side A glue ball separator is internally provided with a side A ball separator filter screen, and the side A condenser is internally provided with an A condenser cooling tube bundle;

the output end of the B side rubber ball collecting net is connected with a B side rubber ball pump, the output end of the B side rubber ball pump is connected with a B side rubber ball counter, the output end of the B side rubber ball counter is connected with a B side rubber ball separator, and a B side rubber ball output pipeline of the B side rubber ball separator is connected with a B side condenser; a B-side ball separator filter screen is arranged in the B-side rubber ball separator, and a B-side condenser cooling tube bundle is arranged in the B-side condenser;

the side A rubber ball output pipeline and the side B rubber ball output pipeline are communicated through a connecting pipe, and a connecting valve is arranged on the connecting pipe.

The invention is further improved in that:

preferably, an A-side rubber ball pump outlet valve is arranged between the A-side rubber ball pump and the A-side rubber ball counter.

Preferably, an outlet valve of the A-side rubber ball counter is arranged between the A-side rubber ball counter and the A-side rubber ball distributor.

Preferably, the side A glue ball separator is provided with a side A drainage pipeline, and the terminal of the side A drainage pipeline is converged into the side A glue ball output pipeline.

Preferably, a side A ball separator drain valve is arranged on the side A drain pipeline, and a side A ball separator outlet valve is arranged on the side A rubber ball output pipeline.

Preferably, a B side rubber ball pump outlet valve is arranged between the B side rubber ball pump and the B side rubber ball counter.

Preferably, a B-side rubber ball counter outlet valve is arranged between the B-side rubber ball counter and the B-side rubber ball distributor.

Preferably, the side B rubber ball separator is provided with a side B drainage pipeline, and the terminal of the side B drainage pipeline is converged into the side B rubber ball output pipeline.

Preferably, a B-side ball separator drain valve is arranged on the B-side drain pipeline, and a B-side ball separator outlet valve is arranged on the B-side rubber ball output pipeline.

Preferably, the main structure of the ball distributor is a tubular pipe body, one part of the pipe body is a net core, holes are formed in the net core, and the diameter of each hole is smaller than that of each rubber ball; the net core is sleeved with a packaging pipe, and the packaging pipe is provided with a bypass pipe.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a quantity adjustable dress ball system, this dress ball system include that the rubber ball pump, rubber ball pump divide ball ware, divide ball ware filter screen, ball receiving net, condenser and condenser cooling tube bank etc.. When the ball is loaded, the outlet valve of the rubber ball counter and the by-pass valve of the ball distributor are opened, the rubber ball flows into the ball distributor along with water flow through the ball taking pipe under the pressure of the rubber ball pump, a filter screen is arranged in the ball distributor, the water flow flows through the by-pass pipe, and the rubber ball is remained in the ball distributor. When the rubber balls pass through the rubber ball counter, the rubber ball counter can measure the number of the passing rubber balls, when the number of the rubber balls reaches the requirement, the outlet valve of the rubber ball counter is closed, and the ball loading is finished. The process can change the quantity of the balls loaded each time according to the requirement, and the quantity of the loaded balls can be adjusted. Through the adjustable of dress ball quantity, can guarantee to have sufficient gluey ball quantity to satisfy the requirement of complete washing tube bank, can not cause the waste of gluey ball quantity again. Through the setting of counter, can in time discover the concrete loss of gluey ball, when receiving the ball rate and cross lowly, need maintain whole gluey ball system, prevent further influence the cleaning performance of gluey ball. The problem of washing the pipe bundle difference at every turn is solved, guarantee that can both accomplish thorough washing each time, realize carrying out the management that becomes more meticulous to the rubber ball quantity, guarantee that the condenser is in better clean state.

Drawings

FIG. 1 is a system configuration diagram of the present invention;

FIG. 2 is a schematic structural view of the ball distributor of the present invention;

wherein: 1-A side rubber ball collecting net; 2-a side rubber ball pump; 3-A side rubber ball pump outlet valve; 4-A side glue ball counter; 5-A side rubber ball counter outlet valve; 6-A side rubber ball separator; 7-A side ball separator filter screen; 8-A side ball separator drain valve; 9-a side ball divider outlet valve; a 10-A side condenser; cooling the tube bundle in a condenser at the 11-A side; cooling the tube bundle in a condenser at the 12-B side; 13-a side condenser; 14-a communication valve; 15-side ball splitter outlet valve; a 16-B side ball separator drain valve; 17-B side ball separator filter screen; 18-B side glue ball separator; 19-B side rubber ball counter outlet valve; 20-B side glue ball counter; 21-B side rubber ball pump outlet valve; 22-B side glue ball pump; 23-B side rubber ball collecting net; a 24-A side rubber ball output pipeline; 25-A side drain line; a 26-B side rubber ball output pipeline; 27-B side drain line; 28-a communication pipe; 29-a water inlet; 30-a tube body; 31-a mesh core; 32-holes; 33-a bypass pipe; 34-a water outlet; 35-encapsulating the tube.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings:

in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and encompass, for example, both fixed and removable connections; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides a ball system of adorning of quantity adjustable, this ball system of adorning includes the cooling tube bank of two condensers, and the corresponding has two ways ball cooling system of adorning, and the rubber ball in two ways condensers uses quantity can be according to the demand and contacts the adjustment each other.

Referring to fig. 1, the ball loading system comprises an a-side rubber ball collecting net 1 and a B-side rubber ball collecting net 23, the rubber ball output end of the a-side rubber ball collecting net 1 is connected with an a-side rubber ball pump 2, the output end of the a-side rubber ball pump 2 is connected with an a-side rubber ball counter 4, an a-side rubber ball pump outlet valve 3 is arranged between the a-side rubber ball pump 2 and the a-side rubber ball counter 4, the outlet end of the a-side rubber ball counter 4 is connected with the inlet of the a-side rubber ball separator 6, an a-side rubber ball counter outlet valve 5 is arranged between the a-side rubber ball counter 4 and the a-side rubber ball separator 6, an a-side rubber ball separator filter screen 7 is arranged in the a-side rubber ball separator 6, two outlet pipelines are arranged on the a-side rubber ball separator 6, one is an a-side rubber ball outlet pipeline 24, one is an a-side drainage pipeline 25, the a-side rubber ball outlet pipeline 24 is connected with the inlet of the a-side condenser 10, an a-side rubber ball separator pipeline 9 is arranged on the a-side rubber ball outlet pipeline 24, the side A drain pipeline 25 is provided with a side A ball separator drain valve 8, the terminal end of the side A drain pipeline 25 is converged into a side A rubber ball output pipeline 24 after an side A ball separator outlet valve 9, and the side A condenser 10 is internally provided with a side A condenser cooling pipe bundle 11. The outlet end of the A side condenser 10 is connected with the inlet of the A side rubber ball collecting net 1.

The output end of the B side rubber ball collecting net 23 is connected with a B side rubber ball pump 22, the output end of the B side rubber ball pump 22 is connected with a B side rubber ball counter 20, a B side rubber ball pump outlet valve 21 is arranged between the B side rubber ball pump 22 and the B side rubber ball counter 20, the outlet end of the B side rubber ball counter 20 is connected with the inlet of the B side rubber ball separator 18, a B side rubber ball counter outlet valve 19 is arranged between the B side rubber ball counter 20 and the B side rubber ball separator 18, a B side rubber ball separator filter screen 17 is arranged in the B side rubber ball separator 18, the B side rubber ball separator 18 is provided with two output pipelines, one is a B side rubber ball output pipeline 26, the other is a B side water drainage pipeline 27, the B side rubber ball output pipeline 26 is connected with the inlet of the B side condenser 13, a B side ball separator 15 is arranged on the B side rubber ball output pipeline 26, and a B side ball separator drain valve 16 is arranged on the B side water drainage pipeline 27, the terminal end of the B-side drainage pipeline 27 is converged into the B-side rubber ball output pipeline 26 after the outlet valve 15 of the B-side ball separator, and the B-side condenser internal cooling tube bundle 12 is arranged in the B-side condenser 13.

The a side rubber ball output pipeline 25 and the B side rubber ball output pipeline 26 are communicated through a connection pipe 28 after the outlet valves of the respective ball distributors, and the connection pipe 28 is provided with a connection valve 14.

The utility model adopts the structure of the A side rubber ball separator 6 and the B side rubber ball separator 18 as shown in figure 2, the main structure of the rubber ball separator is tubular, and one part of the main structure is net-shaped; the structure is that the main structure of the rubber ball distributor is a tubular pipe body 30, a water inlet 29 and a water outlet 34 are respectively arranged at two ends of the main structure, the water inlet 29 is connected with the outlet valve 5 of the rubber ball counter at the A side or the outlet valve 21 of the rubber ball pump at the B side, and the water outlet 34 is connected with the outlet valve 9 of the rubber ball distributor at the A side or the outlet valve 15 of the rubber ball distributor at the B side; a part of the pipe wall of the pipe body 30 is provided with a hole 32 which is a net core 31, the pipe wall of the part where the hole 32 is distributed is full of the hole, the diameter of the hole 32 is smaller than that of the rubber ball, a packaging pipe 35 is arranged outside the net core 31, a bypass pipe 33 is arranged on the packaging pipe 35, the axis of the bypass pipe 33 is vertical to the axis of the pipe body 30, and the bypass pipe 33 is communicated with the A-side drainage pipeline 25 or the B-side drainage pipeline 27. When the whole pipeline is normally circulated, the drain valve 8 of the ball separator at the side A and the outlet valve 15 of the ball separator at the side B are closed, and water and rubber balls flow through the pipe body 30; when it is desired to drain the water leaving the glue ball in the wick 31, the outlet valve 9 of the ball divider on the a side or the outlet valve 15 of the ball divider on the B side is closed, the water flows out through the wick 31 via the bypass pipe 33, and the packing pipe 35 prevents the water from flowing out of the other parts of the wick 31, leaving the glue ball in the ball divider.

The utility model discloses a theory of operation does:

taking the condenser A side as an example for introduction, a rubber ball is pressurized by the rubber ball pump 2 at the A side, the outlet valve 3 of the rubber ball pump at the A side is opened, the rubber ball enters the rubber ball counter 4 at the A side, the outlet valve 5 of the rubber ball counter at the A side is opened, the rubber ball passes through the rubber ball separator 6 at the A side, the filter screen 7 of the rubber ball separator at the A side is arranged in the rubber ball separator 6 at the A side, the drain valve 8 of the rubber ball separator at the A side is opened, water flows through the bypass pipe, and the rubber ball is left in the rubber ball separator 6 at the A side. When the rubber balls pass through the A side rubber ball counter 4, the rubber ball counter counts the number of the passing rubber balls, when the number of the rubber balls reaches the requirement, the outlet valve 5 of the A side rubber ball counter is closed, and the ball loading is finished. The process can change the quantity of the balls loaded each time according to the requirement, and the quantity of the loaded balls is adjustable. The rubber balls pass through an outlet valve 9 of the A-side ball separator and enter a condenser 10 at the A side, cooling tube bundles 11 in the condenser at the A side are respectively cleaned, and the rubber balls return to a rubber ball collecting net 1 at the A side after cleaning.

The cleaning operation of the condenser 13 at the side B and the cleaning of the condenser 10 at the side A are carried out simultaneously, and the communication valve 14 is closed; when one condenser 13 stops running and does not need cleaning, the connecting valve 14 is opened, and the two cleaning routes clean one condenser at the same time.

Effect of commissioning

The ball loading system with the adjustable quantity is used, the ball loading quantity is adjustable, the problem that the pipe bundle is different when the pipe bundle is cleaned at every time is solved, thorough cleaning can be completed every time, fine management on the rubber balls is achieved, the condenser is guaranteed to be in a good cleaning state, the vacuum degree of the unit is improved, and the coal consumption rate of the unit is further reduced.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The quantity-adjustable ball loading system is characterized by comprising an A-side rubber ball collecting net (1) and a B-side rubber ball collecting net (23);

the output end of the A-side rubber ball collecting net (1) is connected with an A-side rubber ball pump (2), the output end of the A-side rubber ball pump (2) is connected with an A-side rubber ball counter (4), the output end of the A-side rubber ball counter (4) is connected with an A-side rubber ball separator (6), and an A-side rubber ball output pipeline (24) of the A-side rubber ball separator (6) is connected with an A-side condenser (10); a side A ball separator filter screen (7) is arranged in the side A ball separator (6), and an A side condenser cooling tube bundle (11) is arranged in the side A condenser (10);

the output end of the B-side rubber ball collecting net (23) is connected with a B-side rubber ball pump (22), the output end of the B-side rubber ball pump (22) is connected with a B-side rubber ball counter (20), the output end of the B-side rubber ball counter (20) is connected with a B-side rubber ball separator (18), and a B-side rubber ball output pipeline (26) of the B-side rubber ball separator (18) is connected with a B-side condenser (13); a B-side ball separator filter screen (17) is arranged in the B-side rubber ball separator (18), and a B-side condenser cooling tube bundle (12) is arranged in the B-side condenser (13);

the side A rubber ball output pipeline (24) and the side B rubber ball output pipeline (26) are communicated through a connecting pipe (28), and a connecting valve (14) is arranged on the connecting pipe (28).

2. An adjustable ball loading system according to claim 1, characterized in that an A-side ball pump outlet valve (3) is arranged between the A-side ball pump (2) and the A-side ball counter (4).

3. An adjustable ball loading system according to claim 1, characterized in that an A-side ball counter outlet valve (5) is arranged between the A-side ball counter (4) and the A-side ball distributor (6).

4. An adjustable ball loading system according to claim 1, characterized in that the A-side glue ball separator (6) is provided with an A-side drain line (25), and the terminal end of the A-side drain line (25) is connected to the A-side glue ball output line (24).

5. The adjustable-quantity ball loading system as claimed in claim 4, wherein an A-side ball distributor drain valve (8) is arranged on the A-side drain pipeline (25), and an A-side ball distributor outlet valve (9) is arranged on the A-side rubber ball output pipeline (24).

6. An adjustable ball loading system according to claim 1, wherein a B-side ball pump outlet valve (21) is provided between the B-side ball pump (22) and the B-side ball counter (20).

7. An adjustable ball loading system according to claim 1, wherein a B-side ball counter outlet valve (19) is arranged between the B-side ball counter (20) and the B-side ball distributor (18).

8. An adjustable ball loading system according to claim 1, characterized in that the B-side glue ball dispenser (18) is provided with a B-side drain line (27), and the terminal end of the B-side drain line (27) is connected to the B-side glue ball output line (26).

9. The adjustable-quantity ball loading system according to claim 8, wherein a B-side ball distributor drain valve (16) is arranged on the B-side drain pipeline (27), and a B-side ball distributor outlet valve (15) is arranged on the B-side rubber ball output pipeline (26).

10. The adjustable-quantity ball loading system according to any one of claims 1 to 9, wherein the main structure of the ball distributor is a tubular pipe body (30), one part of the pipe body (30) is a net core (31), holes (32) are formed in the net core (31), and the diameter of each hole (32) is smaller than that of each rubber ball; the net core (31) is sleeved with a packaging tube (35), and the packaging tube (35) is provided with a bypass tube (33).

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