CN216198755U - High-temperature hot water pump in slag water system - Google Patents

Abstract

The utility model discloses a high-temperature hot water pump in a slag water system, which comprises a first communicating pipe, a second communicating pipe and a third communicating pipe, the second communicating pipe is communicated with and provided with a water inlet pipe, the water inlet pipes on the two sides of the second communicating pipe are respectively and fixedly provided with a first water inlet electromagnetic valve and a second water inlet electromagnetic valve, the water inlet pipe is respectively communicated and provided with a first hot water pump, a second hot water pump, a third hot water pump and a fourth hot water pump through a second communicating branch pipe, the first hot water pump and the second hot water pump are respectively communicated with two ends of the first communicating pipe, the third hot water pump and the fourth hot water pump are respectively communicated with two ends of the third communicating pipe, first communicating branch pipes are communicated with and mounted on the first communicating pipe and the third communicating pipe, and a first water outlet electromagnetic valve and a second water outlet electromagnetic valve are fixedly mounted on the first communicating branch pipes respectively. The utility model solves the problem of reduced working efficiency caused by parking maintenance.

Description

High-temperature hot water pump in slag water system

Technical Field

The utility model relates to the technical field of slag water systems, in particular to a high-temperature hot water pump in a slag water system.

Background

Generally, the slag water quality of a slag water treatment system is poor, the solid content in the slag water is high, and the flash evaporation process of the slag water easily causes the high-temperature hot water pump to be washed, scaled and the like, so that the high-temperature hot water pump is unstable in operation.

At present, most manufacturers add a filter at the inlet of a high-temperature hot water pump, but the operation stability of the high-temperature hot water pump is poor due to the mode, the hot water pump has the condition of low inlet pressure and high outlet pressure in a gasification system, if the hot water pump is jumped or cannot be driven, the normal operation of the system is influenced, high pressure is possibly reversed to low pressure, the overpressure of a low-pressure pipeline or equipment is caused to be dangerous, in addition, the shutdown operation is required during maintenance, the working efficiency is greatly influenced, and therefore the problem needs to be solved by the high-temperature hot water pump in a slag water system.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-temperature hot water pump in a slag water system, which has the advantages of improving the reliability of the slag water system and the working efficiency and solves the problem of reduced working efficiency caused by parking maintenance.

In order to achieve the purpose, the utility model provides the following technical scheme: a high-temperature hot water pump in a slag water system, which comprises a first communicating pipe, a second communicating pipe, a third communicating pipe and a fourth communicating pipe, the second communicating pipe is communicated with and provided with a water inlet pipe, the water inlet pipes on the two sides of the second communicating pipe are respectively and fixedly provided with a first water inlet electromagnetic valve and a second water inlet electromagnetic valve, the water inlet pipe is respectively communicated and provided with a first hot water pump, a second hot water pump, a third hot water pump and a fourth hot water pump through a second communicating branch pipe, the first hot water pump and the second hot water pump are respectively communicated with two ends of the first communicating pipe, the third hot water pump and the fourth hot water pump are respectively communicated with two ends of the third communicating pipe, first communicating branch pipes are communicated with and mounted on the first communicating pipe and the third communicating pipe, and a first water outlet electromagnetic valve and a second water outlet electromagnetic valve are fixedly mounted on the first communicating branch pipes respectively.

Preferably, the second communicating pipe on one side of the first water inlet electromagnetic valve, which is far away from the water inlet pipe, is communicated with the first hot water pump and the second hot water pump.

Preferably, the second communicating pipe on the side of the second water inlet electromagnetic valve far away from the water inlet pipe is communicated with the third hot water pump and the fourth hot water pump.

Preferably, a first temperature sensor and a first pressure sensor are respectively and fixedly mounted at two ends of the first communication pipe, and the first temperature sensor and the first pressure sensor are respectively and electrically connected with the first water inlet electromagnetic valve and the first water outlet electromagnetic valve.

Preferably, a second pressure sensor and a second temperature sensor are respectively and fixedly mounted at two ends of the third communicating pipe, and the second pressure sensor and the second temperature sensor are respectively and electrically connected with the second water inlet solenoid valve and the second water outlet solenoid valve.

Preferably, the two first communicating branch pipes are communicated with a fourth communicating pipe, and the fourth communicating pipe is communicated with a water outlet pipe.

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

according to the utility model, the first hot water pump, the second hot water pump, the third hot water pump and the fourth hot water pump are arranged, the water inlet of the first hot water pump and the water inlet of the second hot water pump are controlled by the first water inlet electromagnetic valve, the water inlet of the third hot water pump and the water inlet of the fourth hot water pump are controlled by the second water inlet electromagnetic valve, meanwhile, the first temperature sensor and the first pressure sensor are arranged on the first communicating pipe communicated with the first hot water pump and the second hot water pump, the second temperature sensor and the second pressure sensor are arranged on the second communicating pipe communicated with the third hot water pump and the fourth hot water pump, so that the first hot water pump, the second hot water pump, the third hot water pump and the fourth hot water pump can be conveniently monitored, and the first water inlet electromagnetic valve, the second hot water pump, the third hot water pump and the fourth hot water pump are controlled by the control mechanism connected with the first temperature sensor, the first pressure sensor, the second temperature sensor and the second pressure sensor, The second water inlet electromagnetic valve, the first water outlet electromagnetic valve and the second water outlet electromagnetic valve are controlled, so that seamless butt joint of the two groups of systems is realized, and the effects of improving the reliability of the slag water system and improving the working efficiency are achieved.

Drawings

Fig. 1 is a schematic front view of the present invention.

In the figure: 1. a first water outlet solenoid valve; 2. a first communicating branch pipe; 3. a first communication pipe; 4. a first temperature sensor; 5. a first pressure sensor; 6. a first hot water pump; 7. a second hot water pump; 8. a second communicating pipe; 9. a first water inlet solenoid valve; 10. a water inlet pipe; 11. a second water inlet solenoid valve; 12. a third hot water pump; 13. a fourth hot water pump; 14. a second communicating branch pipe; 15. a second pressure sensor; 16. a second temperature sensor; 17. a third communicating pipe; 18. a second water outlet solenoid valve; 19. a fourth communicating pipe; 20. and (5) discharging a water pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, an embodiment of the present invention: the utility model provides a high temperature hot-water pump in sediment water system, including first communicating pipe 3, second communicating pipe 8, third communicating pipe 17 and fourth communicating pipe 19, inlet tube 10 is installed in the intercommunication on the second communicating pipe 8, respectively fixed mounting has first solenoid valve 9 and second solenoid valve 11 of intaking on the inlet tube 10 of 8 both sides of second communicating pipe, first hot-water pump 6 is installed through second intercommunication branch pipe 14 intercommunication respectively on the inlet tube 10, second hot-water pump 7, third hot-water pump 12 and fourth hot-water pump 13, the installation of second communicating pipe 8 and first hot-water pump 6 and second hot-water pump 7 intercommunication that inlet tube 10 one side was kept away from to first solenoid valve 9 of intaking. The second communicating pipe 8 on the side of the second water inlet electromagnetic valve 11 far away from the water inlet pipe 10 is communicated with a third hot water pump 12 and a fourth hot water pump 13.

The first hot water pump 6 and the second hot water pump 7 are respectively communicated with two ends of the first communication pipe 3, a first temperature sensor 4 and a first pressure sensor 5 are respectively fixedly mounted at two ends of the first communication pipe 3, and the first temperature sensor 4 and the first pressure sensor 5 are respectively electrically connected with the first water inlet electromagnetic valve 9 and the first water outlet electromagnetic valve 1. The third hot water pump 12 and the fourth hot water pump 13 are respectively installed in communication with two ends of a third communication pipe 17, a second pressure sensor 15 and a second temperature sensor 16 are respectively and fixedly installed at two ends of the third communication pipe 17, and the second pressure sensor 15 and the second temperature sensor 16 are respectively and electrically connected with a second water inlet solenoid valve 11 and a second water outlet solenoid valve 18. The first communicating pipe 3 and the third communicating pipe 17 are both provided with a first communicating branch pipe 2 in a communicating way, and the two first communicating branch pipes 2 are respectively and fixedly provided with a first water outlet electromagnetic valve 1 and a second water outlet electromagnetic valve 18. The two first communicating branch pipes 2 are communicated with a fourth communicating pipe 19, and a water outlet pipe 20 is communicated with the fourth communicating pipe 19. The water inlet of the first hot water pump 6 and the inlet of the second hot water pump 7 are controlled by the first water inlet electromagnetic valve 9, the water inlet of the third hot water pump 12 and the inlet of the fourth hot water pump 13 are controlled by the second water inlet electromagnetic valve 11, meanwhile, the first temperature sensor 4 and the first pressure sensor 5 are arranged on the first communicating pipe 3 communicated with the first hot water pump 6 and the second hot water pump 7, the second temperature sensor 16 and the second pressure sensor 15 are arranged on the second communicating pipe 8 communicated with the third hot water pump 12 and the fourth hot water pump 13, so that the first hot water pump 6, the second hot water pump 7, the third hot water pump 12 and the fourth hot water pump 13 are conveniently monitored, and the first water inlet electromagnetic valve 9 is controlled by the control mechanism connected with the first temperature sensor 4, the first pressure sensor 5, the second temperature sensor 16 and the second pressure sensor 15, The second water inlet electromagnetic valve 11, the first water outlet electromagnetic valve 1 and the second water outlet electromagnetic valve 18 are controlled, so that seamless butt joint of two groups of systems is realized, and the effects of improving the reliability of the slag water system and improving the working efficiency are achieved.

The working principle is as follows: when the utility model is used, the slag water enters the second communicating pipe 8 through the water inlet pipe 10, and the flowing direction is controlled through the first water inlet electromagnetic valve 9 and the second water inlet electromagnetic valve 11, so that the slag water flows to the first hot water pump 6 and the second hot water pump 7 once, or flows to the third and fourth hot water pumps 12 and 13, and when passing through the first communication pipe 3 or the third communication pipe 17, the temperature and the pressure of the water flow are respectively detected by the first pressure sensor 5, the first temperature sensor 4, the second pressure sensor 15 and the second temperature sensor 16, further feeding back the data to the control center, and controlling the opening and closing of the first water outlet electromagnetic valve 1, the second water outlet electromagnetic valve 18, the first water inlet electromagnetic valve 9 and the second water inlet electromagnetic valve 11 at any time, therefore, when one group of slag water system breaks down, the other group of slag water system can be started in time, and the influence on the working efficiency is avoided.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a high temperature hot water pump in sediment water system, includes first communicating pipe (3), second communicating pipe (8), third communicating pipe (17) and fourth communicating pipe (19), its characterized in that: the water inlet pipe (10) is communicated and installed on the second communicating pipe (8), a first water inlet electromagnetic valve (9) and a second water inlet electromagnetic valve (11) are respectively and fixedly installed on the water inlet pipes (10) on two sides of the second communicating pipe (8), a first hot water pump (6), a second hot water pump (7), a third hot water pump (12) and a fourth hot water pump (13) are respectively communicated and installed on the water inlet pipes (10) through second communicating branch pipes (14), the first hot water pump (6) and the second hot water pump (7) are respectively communicated and installed with two ends of the first communicating pipe (3), the third hot water pump (12) and the fourth hot water pump (13) are respectively communicated and installed with two ends of the third communicating pipe (17), a first communicating branch pipe (2) is respectively communicated and installed on the first communicating branch pipe (2), and a first water outlet electromagnetic valve (1) and a second water outlet electromagnetic valve (18) are respectively and fixedly installed on the first communicating branch pipe (2) .

2. The high-temperature hot water pump in the slag water system according to claim 1, wherein: and a second communicating pipe (8) on one side of the first water inlet electromagnetic valve (9) far away from the water inlet pipe (10) is communicated with the first hot water pump (6) and the second hot water pump (7) for installation.

3. The high-temperature hot water pump in the slag water system according to claim 1, wherein: and a second communicating pipe (8) on one side of the second water inlet electromagnetic valve (11) far away from the water inlet pipe (10) is communicated with a third hot water pump (12) and a fourth hot water pump (13) for installation.

4. The high-temperature hot water pump in the slag water system according to claim 1, wherein: the two ends of the first communicating pipe (3) are respectively and fixedly provided with a first temperature sensor (4) and a first pressure sensor (5), and the first temperature sensor (4) and the first pressure sensor (5) are respectively and electrically connected with a first water inlet electromagnetic valve (9) and a first water outlet electromagnetic valve (1).

5. The high-temperature hot water pump in the slag water system according to claim 1, wherein: and a second pressure sensor (15) and a second temperature sensor (16) are respectively and fixedly installed at two ends of the third communicating pipe (17), and the second pressure sensor (15) and the second temperature sensor (16) are respectively and electrically connected with a second water inlet electromagnetic valve (11) and a second water outlet electromagnetic valve (18).

6. The high-temperature hot water pump in the slag water system according to claim 1, wherein: and the two first communicating branch pipes (2) are communicated with a fourth communicating pipe (19), and a water outlet pipe (20) is communicated and installed on the fourth communicating pipe (19).

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