CN209752779U

CN209752779U - Novel mixed pulping system

Info

Publication number: CN209752779U
Application number: CN201920052331.8U
Authority: CN
Inventors: 王振海; 高峰
Original assignee: Tianjin Saizhi Grouting Equipment Co Ltd
Current assignee: Tianjin Saizhi Grouting Equipment Co Ltd
Priority date: 2019-01-14
Filing date: 2019-01-14
Publication date: 2019-12-10
Anticipated expiration: 2029-01-14

Abstract

The utility model provides a novel mix slurrying system, including high-speed vortex slurrying system, joint slurrying system and control room, high-speed vortex slurrying system include the storage silo, the storage silo top be provided with dust remover and radar level meter, the storage silo bottom is provided with broken arch device, the pneumatic unloading valve of storage silo bottom fixedly connected with, pneumatic unloading valve bottom surface fixedly connected with frequency conversion unloader, frequency conversion unloader bottom surface fixedly connected with screw conveyer, the terminal fixed connection of screw conveyer on high-speed vortex pulper, high-speed vortex pulper on be provided with weighing sensor and pneumatic butterfly valve, the first supply channel of fixedly connected with and first play thick liquid pipeline on the high-speed vortex pulper, first supply channel place in the cistern. The beneficial effects of the utility model are that improve slurrying efficiency, thick liquid excellent quality, the thick liquid is of a great variety, the material resources of using manpower sparingly.

Description

Novel mixed pulping system

Technical Field

The utility model belongs to the technical field of the pulping equipment, especially, relate to a novel mix slurrying system.

Background

In the prior art, the thick liquid that slurrying system can produce is too single, and have very strong limitation, the thick liquid of making at last often all is decided by the material, along with the innovation and the improvement of science and technology, also higher and higher to the needs of thick liquid with going, the raw materials of making the thick liquid are more and more, but the consequence that numerous material leads to is exactly the work burden that increases the machine, accelerate the wearing and tearing of machine, reduce the life of machine, the thick liquid that makes has the phenomenon of quality discrepancy, simultaneously, the existing a large amount of staff of dependence goes to guard in the aspect of equipment uses, the cost of labor has been increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an improve pulping efficiency, thick liquid is of high quality, and the thick liquid is of a great variety, the novel mixed slurrying system of material resources of using manpower sparingly.

The technical scheme of the utility model is that:

Providing a novel mixed pulping system, which comprises a high-speed vortex pulping system, a combined pulping system and a control room;

The high-speed vortex pulping system comprises a storage bin, wherein a dust remover and a radar level meter are arranged at the top of the storage bin, an arch breaking device is arranged at the bottom of the storage bin, a pneumatic ash discharging valve is fixedly connected to the bottom of the storage bin, a variable-frequency unloading machine is fixedly connected to the bottom of the pneumatic ash discharging valve, a screw conveyor is fixedly connected to the bottom of the variable-frequency unloading machine, the tail end of the screw conveyor is fixedly connected to the high-speed vortex pulping machine, a weighing sensor and a pneumatic butterfly valve are arranged on the high-speed vortex pulping machine, a first water supply pipeline and a first pulp outlet pipeline are fixedly connected to the high-speed vortex pulping machine, the first water supply pipeline is arranged in a water storage tank, a water flow meter and a water supply pump are arranged on the first water supply pipeline, the first pulp outlet pipeline is arranged in the pulp storage tank, a pulp storage tank stirrer is arranged on the pulp storage tank, and a first pulp, the first slurry inlet pipeline is fixedly connected to a high-pressure grouting pump, a grouting pressure sensor is arranged on the high-pressure grouting pump, a grouting pipeline is also fixedly connected to the high-pressure grouting pump, and a grouting pump flowmeter is arranged on the grouting pipeline;

The combined pulping system comprises a quantitative feeder, a belt conveyor is arranged below the quantitative feeder, the belt conveyor is obliquely arranged, a combined pulping machine is arranged below the belt conveyor, a second water supply pipeline is fixedly connected to the combined pulping machine and is arranged in a reservoir, a water supply pump is arranged on the second water supply pipeline, a vibration sand removing machine is arranged below the combined pulping machine, a coarse pulp tank is arranged below the vibration sand removing machine, a coarse pulp tank stirring machine is arranged in the coarse pulp tank, a second pulp inlet pipeline is arranged in the coarse pulp tank, a submersible sewage pump is arranged on the second pulp inlet pipeline, the second pulp inlet pipeline is fixedly connected to a mud purifying machine, a tuning fork densimeter is arranged at an outlet of the mud purifying machine, and a second pulp outlet pipeline is fixedly connected to the mud purifying machine, the second slurry outlet pipeline is placed in a fine slurry pool, a fine slurry pool stirrer is arranged in the fine slurry pool, a third slurry inlet pipeline is arranged in the fine slurry pool, a submersible sewage pump is arranged on the third slurry inlet pipeline, and the third slurry inlet pipeline is fixedly connected with the high-speed vortex pulping machine;

The control room in be provided with switch board and operation panel, the switch board with operation panel electric connection, the control room is provided with monitored control system outward, monitored control system and switch board electric connection, monitored control system and operation panel pass through data line fixed connection.

Further, the high-speed vortex slurrying system further comprises an air compressor, wherein an air compressor pressure sensor is arranged on the air compressor, the air compressor is fixedly connected with the pneumatic ash discharge valve, the arch breaking device and the pneumatic butterfly valve through an air pipe, and the air compressor is electrically connected with the operating platform.

Furthermore, a tension sensor is fixedly connected between the storage bin and the spiral conveyor, and the tension sensor feeds measured data back to the operating table.

Furthermore, a pool liquid level meter is arranged in the reservoir and feeds measured data back to the operating platform.

furthermore, a pulp storage pool liquid level meter is arranged on the pulp storage pool stirring machine, a pulp storage pool densimeter is arranged in the pulp storage pool, and the pulp storage pool liquid level meter and the pulp storage pool densimeter feed measured data back to the operation table.

Furthermore, a coarse pulp tank liquid level meter is arranged in the coarse pulp tank, a fine pulp tank liquid level meter is arranged in the fine pulp tank, and the coarse pulp tank liquid level meter and the fine pulp tank liquid level meter feed measured data back to the operating platform.

The utility model has the advantages and positive effects that: due to the adoption of the technical scheme, the product has reasonable design and convenient use; the method has the advantages of improving the pulping efficiency, having good pulp quality and various pulp types, saving manpower and material resources and the like.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

Fig. 2 is a top view of the present invention;

Fig. 3 is a front view of the present invention.

In the figure:

1. Storage bin 2, dust remover 3 and radar level meter

4. pneumatic ash discharge valve 5, variable frequency unloader 6 and screw conveyer

7. Arch breaking device 8, high-speed vortex pulping machine 9 and tension sensor

10. water flow meter 11, pneumatic butterfly valve 12, weighing sensor

13. air compressor 14, air compressor pressure sensor 15, storage thick liquid pond mixer

16. slurry storage tank liquid level meter 17, slurry storage tank densimeter 18 and water supply pump

19. Pool liquid level meter 20, high-pressure grouting pump 21 and grouting pump flowmeter

22. Grouting pressure sensor 23, constant feeder 24, belt conveyor

25. Combined pulping machine 26, vibration sand remover 27 and coarse pulp tank stirrer

28. Submersible sewage pump 29, slurry purifier 30 and fine slurry tank stirrer

31. a coarse pulp tank level meter 32, a fine pulp tank level meter 33 and a tuning fork densimeter

34. Power distribution cabinet 35, operation table 36 and monitoring system

Detailed Description

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

as shown in fig. 1, fig. 2 and fig. 3, the utility model relates to a novel mixed pulping system.

Examples

The high-speed vortex pulping system comprises a storage bin 1, wherein a dust remover 2 and a radar level meter 3 are arranged at the top of the storage bin 2, an arch breaking device 7 is arranged at the bottom of the storage bin, a pneumatic ash discharging valve 4 is fixedly connected at the bottom of the storage bin, a variable-frequency discharging machine 5 is fixedly connected at the bottom of the pneumatic ash discharging valve 4, a screw conveyor 6 is fixedly connected at the bottom of the variable-frequency discharging machine 5, the tail end of the screw conveyor 6 is fixedly connected to a high-speed vortex pulping machine 8, a weighing sensor 12 and a pneumatic butterfly valve 11 are arranged on the high-speed vortex pulping machine 8, a first water supply pipeline and a first pulp outlet pipeline are fixedly connected to the high-speed vortex pulping machine 8, the first water supply pipeline is arranged in a water storage tank, a water flowmeter 10 and a water supply pump 18 are arranged on the first water supply pipeline, and the first pulp outlet pipeline is arranged in, the slurry storage tank is provided with a slurry storage tank stirrer 15, a first slurry inlet pipeline is arranged in the slurry storage tank, the first slurry inlet pipeline is fixedly connected to a high-pressure grouting pump 20, a grouting pressure sensor 22 is arranged on the high-pressure grouting pump 20, a grouting pipeline is also fixedly connected to the high-pressure grouting pump 20, and a grouting pump flowmeter 21 is arranged on the grouting pipeline;

The combined pulping system comprises a quantitative feeder 23, a belt conveyor 24 is arranged below the quantitative feeder 23, the belt conveyor 24 is obliquely arranged, a combined pulping machine 25 is arranged below the belt conveyor 24, a second water supply pipeline is fixedly connected to the combined pulping machine 25 and is arranged in the water storage tank, the water supply pump 18 is arranged on the second water supply pipeline, a vibration sand removing machine 26 is arranged below the combined pulping machine 25, a coarse pulp tank is arranged below the vibration sand removing machine 26, a coarse pulp tank stirring machine 27 is arranged in the coarse pulp tank, a second pulp inlet pipeline is arranged in the coarse pulp tank, a submersible sewage pump 28 is arranged on the second pulp inlet pipeline, the second pulp inlet pipeline is fixedly connected to a mud purifying machine 29, a tuning fork densimeter 33 is arranged at an outlet of the mud purifying machine 29, a second slurry outlet pipeline is fixedly connected to the slurry purifier 29 and is placed in a fine slurry pool, a fine slurry pool stirrer 30 is arranged in the fine slurry pool, a third slurry inlet pipeline is arranged in the fine slurry pool, a submersible sewage pump 28 is arranged on the third slurry inlet pipeline, and the third slurry inlet pipeline is fixedly connected with the high-speed vortex pulping machine 8;

Control indoor be provided with switch board 34 and operation panel 35, switch board 34 with operation panel 35 electric connection, the control outdoor monitoring system 36 that is provided with, monitoring system 36 and switch board 34 electric connection, monitoring system 36 passes through data line fixed connection with operation panel 35.

The high-speed vortex pulping system further comprises an air compressor 13, an air compressor pressure sensor 14 is arranged on the air compressor 13, the air compressor 13 is fixedly connected with the pneumatic ash discharge valve 4, the arch breaking device 7 and the pneumatic butterfly valve 11 through an air pipe, and the air compressor 13 is electrically connected with the operating platform 35. The staff can control air compressor machine 13 through operation panel 35 in the control room, and then control pneumatic unloading valve 4, broken device 7 and pneumatic butterfly valve 11 of encircleing, save the labour in a large number.

Wherein, a tension sensor 9 is fixedly connected between the storage bin 1 and the screw conveyor 6, and the tension sensor 9 feeds measured data back to the operation table 35. The tension sensor 9 is used for measuring the material conveyed in the screw conveyor 6 in real time.

Wherein, a pool liquid level meter 19 is arranged in the reservoir, and the pool liquid level meter 19 feeds measured data back to the operation table 35. A tank level gauge 19 is used to measure the level of water in the reservoir.

The slurry storage tank stirrer 15 is provided with a slurry storage tank liquid level meter 16, a slurry storage tank densimeter 17 is arranged in the slurry storage tank, and the slurry storage tank liquid level meter 16 and the slurry storage tank densimeter 17 feed measured data back to the operation table 35. The stock chest level meter 16 is used for measuring the level of the stock chest slurry, and the stock chest density meter 17 is used for measuring the density of the stock chest slurry.

Wherein, the brown stock pond in be provided with brown stock pond level gauge 31, the seminal plasma pond in be provided with seminal plasma pond level gauge 30, brown stock pond level gauge 31 with seminal plasma pond level gauge 32 with the data feedback of measuring arrive operation panel 35. The brown stock tank level gauge 31 is used for measuring the level of the pulp in the brown stock tank, and the fine stock tank level gauge 32 is used for measuring the level of the pulp in the fine stock tank.

The working process of the example is as follows:

The storage bin 1 and the quantitative feeder 23 respectively provide materials for respective pulping systems, the two pulping systems use the same reservoir, a first water supply pipeline and a second water supply pipeline are both provided with a water supply pump 18, a dust remover 2 on the storage bin 1 removes dust raised when the materials are fed, a radar level gauge 3 is used for measuring the height of the materials in the storage bin 1, the materials in the storage bin 1 are scattered by an arch breaking device 7 at the bottom of the storage bin 1, pass through a variable frequency unloader 5 and a screw conveyor 6 and then enter a high-speed vortex pulping machine 8, the water in the reservoir is pumped into the high-speed vortex pulping machine 8 through the first water supply pipeline by the water supply pump 18, a water flow meter 10 is used for measuring the real-time water flow flowing into the high-speed vortex pulping machine 8, the pulp prepared by the high-speed vortex pulping machine 8 flows into a pulp storage tank, the quantitative feeder 23 enables the materials to fall onto a belt conveyor 24, the belt conveyer 24 conveys the materials into the combined pulping machine 25, the water supply pump 18 pumps the water in the water storage tank into the combined pulping machine 25 through a second water supply pipeline, the slurry prepared by the combined pulping machine 25 flows into the vibration sand remover 26, the vibration sand remover 26 removes sand and stone from the slurry, then the slurry flows into the coarse slurry tank, the coarse slurry tank stirrer 27 stirs the slurry in the coarse slurry tank to avoid the slurry from generating precipitates, the submersible sewage pump pumps the slurry in the coarse slurry tank into the slurry purifier 29, the slurry purifier 29 filters the slurry, then the slurry flows into the fine slurry tank, the fine slurry tank stirrer 30 stirs the slurry in the fine slurry tank to avoid the slurry from generating precipitates, then the submersible sewage pump 18 pumps the slurry in the fine slurry tank into the high-speed vortex pulping machine 8 to flow into the slurry storage tank, the slurry storage tank stirrer 15 stirs the two slurries in the slurry storage tank to avoid the slurry from generating precipitates, and simultaneously, the prepared slurry of the two pulping systems can be mixed, and the slurry in the slurry storage tank is pumped to a grouting point by the high-pressure grouting pump 20.

the high-speed vortex pulping system and the combined pulping system can also be used independently, so that the pulp produced by the high-speed vortex pulping system or the combined pulping system is not mixed pulp.

while one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims

1. the utility model provides a novel mix slurrying system which characterized in that: comprises a high-speed vortex pulping system, a combined pulping system and a control chamber;

The high-speed vortex slurrying system comprises a storage bin (1), wherein a dust remover (2) and a radar level meter (3) are arranged at the top of the storage bin (1), an arch breaking device (7) is arranged at the bottom of the storage bin, a pneumatic ash discharging valve (4) is fixedly connected to the bottom of the storage bin, a variable-frequency unloader (5) is fixedly connected to the bottom of the pneumatic ash discharging valve (4), a spiral conveyor (6) is fixedly connected to the bottom of the variable-frequency unloader (5), the tail end of the spiral conveyor (6) is fixedly connected to a high-speed vortex slurrying machine (8), a weighing sensor (12) and a pneumatic power-driven material (11) are arranged on the high-speed vortex slurrying machine (8), a first water supply pipeline and a first slurry outlet pipeline are fixedly connected to the high-speed vortex slurrying machine (8), the first water supply pipeline is placed in a water storage tank, a water flow meter (10) and a water supply pump (18), the first slurry outlet pipeline is placed in a slurry storage pool, a slurry storage pool stirrer (15) is arranged on the slurry storage pool, a first slurry inlet pipeline is placed in the slurry storage pool, the first slurry inlet pipeline is fixedly connected to a high-pressure grouting pump (20), a grouting pressure sensor (22) is arranged on the high-pressure grouting pump (20), a grouting pipeline is also fixedly connected to the high-pressure grouting pump (20), and a grouting pump flowmeter (21) is arranged on the grouting pipeline;

The combined pulping system comprises a quantitative feeder (23), a belt conveyor (24) is arranged below the quantitative feeder (23), the belt conveyor (24) is obliquely arranged, a combined pulping machine (25) is arranged below the belt conveyor (24), a second water supply pipeline is fixedly connected onto the combined pulping machine (25), the second water supply pipeline is arranged in the water storage tank, the water supply pump (18) is arranged on the second water supply pipeline, a vibration sand removing machine (26) is arranged below the combined pulping machine (25), a coarse pulp pool is arranged below the vibration sand removing machine (26), a coarse pulp pool stirring machine (27) is arranged in the coarse pulp pool, a second pulp inlet pipeline is arranged in the coarse pulp pool, a submersible sewage pump (28) is arranged on the second pulp inlet pipeline, and the second pulp inlet pipeline is fixedly connected to a mud purifying machine (29), a tuning fork densimeter (33) is arranged at an outlet of the slurry purifier (29), a second slurry outlet pipeline is fixedly connected to the slurry purifier (29), the second slurry outlet pipeline is placed in a refining tank, a refining tank stirrer (30) is arranged in the refining tank, a third slurry inlet pipeline is placed in the refining tank, a submersible sewage pump (28) is arranged on the third slurry inlet pipeline, and the third slurry inlet pipeline is fixedly connected with the high-speed vortex pulping machine (8);

control indoor be provided with switch board (34) and operation panel (35), switch board (34) with operation panel (35) electric connection, be provided with monitored control system (36) outside the control room, monitored control system (36) and switch board (34) electric connection, monitored control system (36) pass through data line fixed connection with operation panel (35).

2. The novel hybrid pulping system of claim 1, wherein: high-speed vortex slurrying system still include air compressor machine (13), air compressor machine (13) on be provided with air compressor machine pressure sensor (14), air compressor machine (13) with pneumatic unloading valve (4) broken encircle device (7) with pneumatic butterfly valve (11) pass through trachea fixed connection, air compressor machine (13) with operation panel (35) electricity signal connection.

3. The novel hybrid pulping system of claim 1, wherein: a tension sensor (9) is fixedly connected between the storage bin (1) and the spiral conveyor (6), and the tension sensor (9) feeds measured data back to the operating table (35).

4. The novel hybrid pulping system of claim 1, wherein: the cistern in be provided with pond level gauge (19), pond level gauge (19) with the data feedback of measuring to operation panel (35).

5. the novel hybrid pulping system of claim 1, wherein: the slurry storage tank stirrer (15) is provided with a slurry storage tank liquid level meter (16), the slurry storage tank is internally provided with a slurry storage tank densimeter (17), and the slurry storage tank liquid level meter (16) and the slurry storage tank densimeter (17) feed measured data back to the operating table (35).

6. The novel hybrid pulping system of claim 1, wherein: the coarse pulp tank is provided with a coarse pulp tank liquid level meter (31), the fine pulp tank is provided with a fine pulp tank liquid level meter (32), and the coarse pulp tank liquid level meter (31) and the fine pulp tank liquid level meter (32) feed measured data back to the operating platform (35).