JPS6391498A - Cleaning device - Google Patents

Abstract

PURPOSE:To ensure the performance of a ball sorting apparatus by processing surplus water at the inlet of the ball sorting apparatus and controlling the flow rate of the ball sorting apparatus to a proper flow rate. CONSTITUTION:When sorting balls, the sorting ability of a ball sorting apparatus 7 depends on the passing flow rate of water because of the characteristics of the ball sorting apparatus 7. That is, at the time of a low flow rate, the worn ball sorting ability is lowered. Further, the ball sorting apparatus has such a property that at the time of excessive flow rate, even normal balls are sorted as worn balls. Therefore, it is necessary to control the flow rate to an appropriate flow rate. In order to control the flow rate, a bypass line 8 for bypassing the ball sorting apparatus 7 is provided, and surplus water is bypassed to control the flow rate of the ball sorting apparatus 7. Further, a flow rate throttle mechanism 9 is provided for throttling the flow rate by use of an orifice, a valve or the like. When throttling of the flow rate is not necessary, the flow rate throttle mechanism may not be provided. By bypassing surplus water through the bypass line 8, the flow rate of the ball sorting apparatus can be set appropriately thereby to ensure the ball sorting performance of the ball sorting apparatus.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a cleaning device equipped with a sorter for sorting objects to be cleaned, and particularly to a cleaning device suitable for reducing the flow rate of water through the sorter.

[Conventional technology]

In the conventional apparatus, the entire amount of water discharged from the pump flows into the separator as described in Japanese Patent Laid-Open No. 58-78098.

[Problem that the invention seeks to solve]

The above-mentioned conventional technology does not take into consideration the prevention of excessive flow rate operation of the separator due to a drop in system pressure drop due to differences in water flow routes during sorting operation, and there is a problem of deterioration of sorting performance due to excessive water flow flow. Ta. Further, in order to reduce the flow rate of water, a constriction using an outlet valve or an orifice may be considered, but since the cleaning body passes through, there is a problem that the cleaning body may become clogged in the constricted portion.

SUMMARY OF THE INVENTION An object of the present invention is to provide a cleaning device that can ensure the performance of a separator by reducing the flow rate of the separator to the rated flow rate without causing clogging of the cleaning body.

[Means for solving problems]

The above object is achieved by removing excess fluid from the pump outlet between the ball sorters, bypassing the sorter, and reducing the flow rate of water flowing through the sorter.

[Effect]

The performance of the separator can be ensured by bypassing excess fluid from the ring pump of the cleaning body and the line installed between the separators so that the water flow rate of the separator becomes the specified flow rate. In addition, since there is no throttle mechanism, only the cleaning body gets clogged.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS.

The condenser cooling water is sent by a circulating water pump 1 to the condenser inlet pipe 11. Condenser 2. It is discharged through the condenser outlet piping 12 and the ball collector 3. On the other hand, when cleaning the condenser, the cleaning balls are transferred by the ball circulation pump 4, passed through the ball recovery device 5 and the switching valve 6, and then from the ball injection pipe 13 to the condensate inlet plumber 1.
The water is injected into the condenser 2 together with the condenser cooling water, and after cleaning the condenser heat transfer tubes, it is collected in the ball collector 3, and is led to the ball circulation pump 4 through the ball collection pipe 14 to collect the balls. It is collected in container 5.

In addition, when sorting out worn balls, the switching valve 6 is switched from the condenser side to the ball sorter side, and the balls are guided through the sorting pipe 15 to the ball sorter 7, where worn balls and normal balls are sorted out. The balls are guided to the inlet of the ball circulation pump 4, pass through the nine-ball circulation pump 4, and are collected in the ball recovery device 5.

During the ball sorting process, the sorting ability of the ball sorter 7 depends on the passing flow rate due to the characteristics of the ball sorter 7. That is, when the flow rate is low, the ability to sort out worn balls decreases, and when the flow rate is excessive, even normal balls are sorted out as worn balls, so it is necessary to adjust the flow rate to an appropriate level.

In this embodiment, in order to adjust the flow rate, a bypass line 8 that bypasses the ball sorter 7 is provided at M9.

This is to bypass surplus water and adjust the flow rate of the ball sorter 7. Note that 9 is a flow restricting mechanism installed to restrict the flow with an orifice, valve, or the like. Of course, if a flow restrictor is not required, it is not necessary to install it.

By bypassing excess water in the bypass line 8, the flow rate of the ball sorter can be optimized and the ball sorting performance of the ball sorter can be ensured.

FIG. 2 shows another embodiment.

In FIG. 2, surplus water on the inlet side of the ball sorter is discharged to the ball injection pipe 13 side through the bypass line 8, thereby optimizing the flow rate of the ball sorter.

In this case, since the flow rate passing through the sorting pipe 15 at the entrance and exit of the ball sorter 7 is reduced, there is an advantage that the diameter of the first sorting plumber 5 can be made smaller.

3 and 4 show a case where the outlet of the bypass line 8 is changed from FIG. 2 to the outlet of the ball recovery device 5 and the outlet of the ball circulation pump 4.

In the embodiment shown in FIGS. 2 to 4, the discharge destination of the bypass line 8 is the ball injection pipe 13, but it is directly connected to the condenser inlet/outlet pipes 11, 12, the ball recovery pipe 14, and the ball sorter 7.
．． It may be collected into the discharge ball sorting tube 15.

In FIG. 5, the inner valve of the switching valve 6 at the outlet of the ball collector 5 is used as shown in FIG. A method is shown in which the ball is allowed to flow through the ball sorter 7.

The principle of the switching valve 6 at this time is as shown in Figure 6. Normally, when balls are injected, the balls and water flow from position A of the inner valve, but when separating balls, the inner valve is rotated and water flows from position B. The figure shows a case where a large amount of excess water is discharged to side C, and a proper flow rate of water is made to flow through A on the ball sorter side. In addition, attach a strainer to C so that the balls entering from B do not flow to the C side.

In the case of this embodiment, there is an advantage that the bypass piping 8 is unnecessary.

〔Effect of the invention〕

According to the present invention, surplus water at the inlet of the ball sorter can be treated and the flow rate of the ball sorter can be adjusted to an appropriate flow rate, so that the performance of the ball sorter can be ensured.

[Brief explanation of the drawing]

Figures 1 to 5 are system diagrams showing embodiments of the present invention;
This figure is a sectional view showing the structure of the ball recovery type outlet switching valve in the embodiment of FIG. 5. 1... Circulating water pump, 2... Condenser, 3... Ball collector, 4... Ball circulation pump, 5... Ball collector, 6... Switching valve, 7...・Ball sorter, 8...
- Bypass line, 9... Throttling mechanism, 11... Condenser inlet piping, 12... Condenser outlet piping, 13 - Ball injection pipe, 14... Ball recovery pipe, 15... Sorting pipe , 20...Inner valve, 21...Strainer.
/ -”-＼l ＼1 Agent Patent Attorney Okikata Ogawa 2 trZJ 5-・Horuro LI1 Customer No. 2 Fig. 5m Fig. 6 (α), Machiru Kaii 4shihe

Claims (1)

[Claims] 1. In a cleaning device consisting of a circulation system that circulates a cleaning body in a fluid pipeline by a pump to clean the pipeline, and a sorting system that branches from the circulation system and extends to a sorter that sorts out the cleaning body, from the pump discharge to A cleaning device characterized in that a device is installed between the sorters so that the flow rate of the sorter is smaller than the pump discharge amount.