阅读说明：本技术 加压除水机控制系统 (Control system of pressurization water remover ) 是由 梁华国 谢舰 于 2019-09-27 设计创作，主要内容包括：本发明公开了一种加压除水机控制系统,包括废浆池、加压除水机以及箱体,所述加压除水机安设于所述废浆池一侧、且进水端与所述废浆池相连通,所述箱体安设于所述废浆池侧壁上,所述箱体内安设有探测控制机构、且一端伸入到废浆池内,所述废浆池内安设有辅助搅拌机构,所述废浆池一侧安设有辅助清洁机构,本发明通过在废浆池内设置探测控制机构,对废浆池内的废浆液面高度进行监测,并对加压除水机的工作状态进行控制调节,同时在废浆池内设置辅助搅拌机构,对废浆池内的废浆进行搅拌,进而使得废浆池内的废浆保持均匀,并利用探测控制机构一侧的辅助清洁结构,定期对废浆池进行清洁,保证废浆池工作长期的稳定。(The invention discloses a control system of a pressurized water removing machine, which comprises a waste slurry pool, the pressurized water removing machine and a box body, wherein the pressurized water removing machine is arranged at one side of the waste slurry pool, the water inlet end of the pressurized water removing machine is communicated with the waste slurry pool, the box body is arranged on the side wall of the waste slurry pool, a detection control mechanism is arranged in the box body, one end of the box body extends into the waste slurry pool, an auxiliary stirring mechanism is arranged in the waste slurry pool, and an auxiliary cleaning mechanism is arranged at one side of the waste slurry pool. The waste slurry tank is cleaned regularly, and the long-term stability of the work of the waste slurry tank is ensured.)

1. A pressurized water removing machine control system comprises a waste slurry tank (1), a pressurized water removing machine (2) and a box body (3), and is characterized in that the pressurized water removing machine (2) is arranged on one side of the waste slurry tank (1), the water inlet end of the pressurized water removing machine is communicated with the waste slurry tank (1), the box body (3) is arranged on the side wall of the waste slurry tank (1), a detection control mechanism is arranged in the box body (3), one end of the detection control mechanism extends into the waste slurry tank (1), an auxiliary stirring mechanism is arranged in the waste slurry tank (1), and an auxiliary cleaning mechanism is arranged on one side of the waste slurry tank (1);

the detection control mechanism includes: the device comprises a guide rail (4), a signal detection structure and a signal processing structure;

the guide rail (4) is arranged in the waste slurry tank (1) and is positioned on the side wall of the waste slurry tank (1), the signal detection structure is arranged on the guide rail (4), and the signal processing structure is arranged in the box body (3) and is connected with the signal detection structure and the pressurizing water remover (2);

the supplementary rabbling mechanism includes: the stirring device comprises a fixed frame (5), a limiting stirring structure and a stirring control structure;

the fixing frame (5) is arranged on the waste slurry tank (1), the limiting stirring structure is arranged on the fixing frame (5), one end of the limiting stirring structure extends into the waste slurry tank (1), and the stirring control part is arranged on the fixing frame (5) and connected with the limiting stirring structure.

2. The control system of claim 1, wherein said signal detection structure comprises: the device comprises a sliding block (6), a connecting sheet (7), a liquid level sensor (8) and a fastening bolt (9);

the sliding block (6) is sleeved on the guide rail (4), the connecting piece (7) is arranged on the side wall of the sliding block (6), the liquid level sensor (8) is arranged on the connecting piece (7), and the fastening bolt (9) penetrates through the connecting piece (7) and is connected with the liquid level sensor (8).

3. The control system of claim 2, wherein said signal processing structure comprises: the device comprises a signal receiving module (10), a signal processing module (11) and a signal transmitting module (12);

the signal receiving module (10) is arranged in the box body (3) and connected with the liquid level sensor (8), the signal processing module (11) is arranged in the box body (3) and connected with the signal receiving module (10), the signal transmitting module (12) is arranged in the box body (3), one end of the signal transmitting module is connected with the signal processing module (11), and the other end of the signal transmitting module is connected with the pressurizing and dewatering machine (2).

4. The control system of claim 1, wherein said limit agitation structure comprises: the device comprises a limiting bracket (13), a bearing (14), a stirring shaft (15) and a stirring paddle (16);

the limiting support (13) is arranged on the fixing frame (5), the bearing (14) is embedded in the limiting support (13), the upper end of the stirring shaft (15) is embedded in the bearing (14), the lower end of the stirring shaft extends into the waste slurry tank (1), and the stirring paddle (16) is sleeved on the stirring shaft (15) and extends into the waste slurry tank (1).

5. The control system of claim 4, wherein the agitation control structure comprises: the device comprises a support frame (17), a first servo motor (18), a worm wheel (19) and a worm (20);

support frame (17) install in on spacing support (13), first servo motor (18) install in on mount (5), and be located support frame (17) one side, worm wheel (19) suit in on (mixing) shaft (15) upper end, worm (20) install in support frame (17), and both ends with support frame (17) lateral wall swing joint, worm (20) with worm wheel (19) mesh mutually, and one end with the drive end of first servo motor (18) is connected.

6. The control system of claim 1, wherein the secondary cleaning mechanism comprises: a water sump (21), a power control structure and a water guide conveying structure;

the water sump (21) is arranged on one side of the waste pulp tank (1), the power control structure is arranged on the water sump (21), and the water guide conveying structure is arranged on the waste pulp tank (1) and communicated with the power control structure.

7. The control system of claim 6, wherein the power control structure comprises: a booster pump (22), a water inlet pipe (23) and a controller module (24);

booster pump (22) install in on sump (21), inlet tube (23) one end with the water inlet of booster pump (22) is linked together, in the other end stretches into sump (21), the controller install in on sump (21) lateral wall, and with booster pump (22) are connected.

8. The pressurized water eliminator control system of claim 7 wherein the water guide delivery structure comprises: a water conduit (25), a connection pipe (26), and a nozzle (27);

the water guide pipe (25) is arranged on the side wall of the waste slurry tank (1), one end of the water guide pipe is communicated with the water outlet of the booster pump (22), the connecting pipe (26) is arranged on the inner edge of the waste slurry tank (1) and is communicated with the other end of the water guide pipe (25), and the nozzle (27) is embedded on the connecting pipe (26).

9. The control system of the pressure water removing machine according to the claim 1, characterized in that a pair of movable doors (28) with the same structure are opened on the front side of the box body (3), and the movable doors (28) are opened with a louver-shaped ventilation opening.

10. The control system of claim 5, wherein the first servo motor (18) is sleeved with a protective cover (29), and one side of the protective cover (29) is provided with air holes.

Technical Field

The invention relates to the technical field of concrete waste slurry treatment, in particular to a control system of a pressurization water remover.

Background

The production process of premixed concrete enterprises can produce a large amount of waste fresh concrete, the sources of the waste fresh concrete are mainly two, on one hand, the concrete can produce redundant or waste concrete in the production process, on the other hand, the aggregate separated from the waste concrete by a sand-stone separator can be reused, the waste slurry produced in the washing and separating process contains mixtures of cementing materials, fine particles and the like which are not completely hydrated, the premixed concrete enterprises reasonably utilize the waste slurry in the production process and can replace part of production water for production and application, the quality of the concrete is ensured, the sanitation of plant areas is purified, and the waste water and the waste slurry are prevented from being discharged randomly. The method has the advantages that the environment is protected, resources are saved, the production cost is reasonably reduced, and considerable economic benefits are brought to production enterprises.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, a pressurized water discharging machine is generally adopted to filter waste slurry, but in the actual use process, if slurry in a waste slurry tank is used up, a pressurizing system of the pressurized water discharging machine can be continuously pressurized and is easy to damage seriously, and a control system of the pressurized water discharging machine is designed.

The technical scheme of the invention is that the control system of the pressurized water removing machine comprises a waste slurry pool, the pressurized water removing machine and a box body, wherein the pressurized water removing machine is arranged on one side of the waste slurry pool, the water inlet end of the pressurized water removing machine is communicated with the waste slurry pool, the box body is arranged on the side wall of the waste slurry pool, a detection control mechanism is arranged in the box body, one end of the box body extends into the waste slurry pool, an auxiliary stirring mechanism is arranged in the waste slurry pool, and an auxiliary cleaning mechanism is arranged on one side of the waste slurry pool;

the detection control mechanism includes: the device comprises a guide rail, a signal detection structure and a signal processing structure;

the guide rail is arranged in the waste slurry tank and positioned on the side wall of the waste slurry tank, the signal detection structure is arranged on the guide rail, and the signal processing structure is arranged in the box body and is connected with the signal detection structure and the pressurization water remover;

the supplementary rabbling mechanism includes: the stirring device comprises a fixed frame, a limiting stirring structure and a stirring control structure;

the fixed frame is arranged on the waste slurry tank, the limiting stirring structure is arranged on the fixed frame, one end of the limiting stirring structure extends into the waste slurry tank, and the stirring control part is arranged on the fixed frame and connected with the limiting stirring structure.

The signal detection structure includes: the device comprises a sliding block, a connecting sheet, a liquid level sensor and a fastening bolt;

the slider suit in on the guide rail, the connection piece install in on the slider lateral wall, level sensor installs in on the connection piece, fastening bolt run through in the connection piece, and with level sensor is connected.

The signal processing structure includes: the device comprises a signal receiving module, a signal processing module and a signal transmitting module;

the signal receiving module is arranged in the box body and connected with the liquid level sensor, the signal processing module is arranged in the box body and connected with the signal receiving module, the signal transmitting module is arranged in the box body, one end of the signal transmitting module is connected with the signal processing module, and the other end of the signal transmitting module is connected with the pressurizing water remover.

Spacing stirring structure includes: the device comprises a limiting bracket, a bearing, a stirring shaft and a stirring paddle;

the limiting support is arranged on the fixing frame, the bearing is embedded in the limiting support, the upper end of the stirring shaft is embedded in the bearing, the lower end of the stirring shaft extends into the waste slurry pool, and the stirring paddle is sleeved on the stirring shaft and extends into the waste slurry pool.

The stirring control structure includes: the device comprises a support frame, a first servo motor, a worm wheel and a worm;

the support frame install in on the spacing support, a servo motor install in on the mount, and be located support frame one side, the worm wheel suit in on the (mixing) shaft upper end, the worm install in the support frame, and both ends with support frame lateral wall swing joint, the worm with the worm wheel meshes mutually, and one end with a servo motor's drive end is connected.

The auxiliary cleaning mechanism includes: the water sump, the power control structure and the water guide conveying structure;

the water sump is arranged on one side of the waste slurry tank, the power control structure is arranged on the water sump, and the water guide conveying structure is arranged on the waste slurry tank and communicated with the power control structure.

The power control structure includes: the water inlet pipe is connected with the water inlet pipe;

the booster pump install in on the sump, inlet tube one end with the water inlet of booster pump is linked together, in the other end stretches into the sump, the controller install in on the sump lateral wall, and with the booster pump is connected.

The water guide conveying structure comprises: a water conduit, a connecting pipe and a nozzle;

the water guide pipe is arranged on the side wall of the waste slurry pool, one end of the water guide pipe is communicated with the water outlet of the booster pump, the connecting pipe is arranged on the inner edge of the waste slurry pool and is communicated with the other end of the water guide pipe, and the nozzle is embedded on the connecting pipe.

A pair of movable doors with the same structure is arranged on the front side of the box body, and a shutter-shaped ventilation opening is formed in each movable door.

The first servo motor is sleeved with a protective cover, and one side of the protective cover is provided with an air hole.

The control system of the pressurization water remover manufactured by the technical scheme of the invention monitors the liquid level height of the waste slurry in the waste slurry pool by arranging the detection control mechanism in the waste slurry pool, controls and adjusts the working state of the pressurization water remover, and simultaneously arranges the auxiliary stirring mechanism in the waste slurry pool to stir the waste slurry in the waste slurry pool, so as to keep the waste slurry in the waste slurry pool uniform.

Drawings

FIG. 1 is a schematic diagram of a pressurized water remover control system according to the present invention.

FIG. 2 is a schematic top view of a pressurized water remover control system according to the present invention.

FIG. 3 is an enlarged view of the control system of the pressurized water remover according to the present invention.

FIG. 4 is an enlarged view of the control system of the pressurized water remover according to the present invention.

FIG. 5 is an enlarged view of the control system of the pressurized water remover according to the present invention.

In the figure: 1-a waste pulp tank; 2-pressurizing a water remover; 3, a box body; 4-a guide rail; 5-a fixing frame; 6-a slide block; 7-connecting the sheet; 8-a liquid level sensor; 9-fastening bolts; 10-a signal receiving module; 11-a signal processing module; 12-a signal transmitting module; 13-a limit bracket; 14-a bearing; 15-stirring shaft; 16-a stirring paddle; 17-a support frame; 18-a first servomotor; 19-a worm gear; 20-a worm; 21-a water sump; 22-a booster pump; 23-a water inlet pipe; 24-a controller module; 25-a water conduit; 26-a connecting tube; 27-a nozzle; 28-a movable door; 29-protective cover.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1 to 5, a control system of a pressurized water removing machine 2 includes a waste slurry tank 1, a pressurized water removing machine 2 and a box 3, wherein the pressurized water removing machine 2 is installed on one side of the waste slurry tank 1, a water inlet end of the pressurized water removing machine is communicated with the waste slurry tank 1, the box 3 is installed on a side wall of the waste slurry tank 1, a detection control mechanism is installed in the box 3, one end of the detection control mechanism extends into the waste slurry tank 1, an auxiliary stirring mechanism is installed in the waste slurry tank 1, an auxiliary cleaning mechanism is installed on one side of the waste slurry tank 1, and the detection control mechanism includes: guide rail 4, signal detection structure and signal processing structure, guide rail 4 install in useless thick liquid pond 1, and be located on the 1 lateral wall in useless thick liquid pond, signal detection structure install in on guide rail 4, signal processing structure install in the box 3, and with signal detection structure and pressurization remove that water machine 2 is connected, supplementary rabbling mechanism includes: mount 5, spacing stirring structure and stirring control structure, mount 5 install in on the useless thick liquid pond 1, spacing stirring structure install in on the mount 5, and one end stretch into in the useless thick liquid pond 1, stirring control portion install in on the mount 5, and with spacing stirring structure is connected, the signal detection structure includes: slider 6, connection piece 7, level sensor 8 and fastening bolt 9, slider 6 suit in on the guide rail 4, connection piece 7 install in on the 6 lateral walls of slider, level sensor 8 install in on the connection piece 7, fastening bolt 9 run through in connection piece 7, and with level sensor 8 is connected, the signal processing structure includes: the device comprises a signal receiving module 10, a signal processing module 11 and a signal transmitting module 12, wherein the signal receiving module 10 is arranged in the box body 3 and connected with the liquid level sensor 8, the signal processing module 11 is arranged in the box body 3 and connected with the signal receiving module 10, the signal transmitting module 12 is arranged in the box body 3, one end of the signal transmitting module is connected with the signal processing module 11, the other end of the signal transmitting module is connected with the pressurizing and dewatering machine 2, and the limiting and stirring structure comprises: spacing support 13, bearing 14, (mixing) shaft 15 and stirring rake 16, spacing support 13 install in on the mount 5, bearing 14 inlays the dress in spacing support 13, 15 upper ends of (mixing) shaft inlay the dress in bearing 14, and the lower extreme stretches into in the useless thick liquid pond 1, stirring rake 16 suit in on the (mixing) shaft 15, and stretch into in the useless thick liquid pond 1, the stirring control structure includes: support frame 17, first servo motor 18, worm wheel 19 and worm 20, support frame 17 install in on the spacing support 13, first servo motor 18 install in on the mount 5, and be located support frame 17 one side, 19 suit in of worm wheel in (mixing) shaft 15 upper ends, worm 20 install in support frame 17, and both ends with support frame 17 lateral wall swing joint, worm 20 with worm wheel 19 meshes mutually, and one end with first servo motor 18's drive end is connected, supplementary clean mechanism includes: sump 21, power control structure and water guide transport structure, sump 21 install in 1 one side in useless thick liquid pond, power control structure install in on sump 21, water guide transport structure install in on useless thick liquid pond 1, and with the power control structure is linked together, the power control structure includes: booster pump 22, inlet tube 23 and controller module 24, booster pump 22 install in on the sump 21, 23 one end of inlet tube with booster pump 22's water inlet is linked together, in the other end stretches into sump 21, the controller install in on the 21 lateral walls of sump, and with booster pump 22 is connected, water guide transport structure includes: the automatic slurry feeding device comprises a water guide pipe 25, a connecting pipe 26 and a nozzle 27, wherein the water guide pipe 25 is arranged on the side wall of the waste slurry tank 1, one end of the water guide pipe is communicated with a water outlet of the booster pump 22, the connecting pipe 26 is arranged on the upper edge of the waste slurry tank 1 and is communicated with the other end of the water guide pipe 25, the nozzle 27 is embedded on the connecting pipe 26, a pair of movable doors 28 with the same structure is arranged on the front side of the box body 3, a shutter-shaped ventilation opening is formed in each movable door 28, a protective cover 29 is sleeved on the first servo motor 18, and ventilation holes are formed in one side of each protective cover 29.

The characteristics of this embodiment do, including useless thick liquid pond 1, pressurization water removing machine 2 and box 3, pressurization water removing machine 2 installs in useless thick liquid pond 1 one side, and intake end and useless thick liquid pond 1 and be linked together, and box 3 is installed on useless thick liquid pond 1 lateral wall, has installed in box 3 and has surveyed control mechanism, and one end stretch into useless thick liquid pond 1 in, has installed supplementary rabbling mechanism in useless thick liquid pond 1, and useless thick liquid pond 1 one side has installed supplementary clean mechanism, and it includes to survey control mechanism: guide rail 4, signal detection structure and signal processing structure, guide rail 4 install in useless thick liquid pond 1, and be located useless thick liquid pond 1 lateral wall, and the signal detection structure is installed on guide rail 4, and the signal processing structure is installed in box 3, and is connected with signal detection structure and pressurization dehydrator 2, and supplementary rabbling mechanism includes: the device comprises a fixed frame 5, a limit stirring structure and a stirring control structure, wherein the fixed frame 5 is arranged on a waste slurry pool 1, the limit stirring structure is arranged on the fixed frame 5, one end of the limit stirring structure extends into the waste slurry pool 1, a stirring control part is arranged on the fixed frame 5 and is connected with the limit stirring structure, the liquid level height of waste slurry in the waste slurry pool 1 is monitored by arranging a detection control mechanism in the waste slurry pool 1, the working state of a pressurization dewatering machine 2 is controlled and adjusted, meanwhile, an auxiliary stirring mechanism is arranged in the waste slurry pool 1 to stir the waste slurry in the waste slurry pool 1, so that the waste slurry in the waste slurry pool 1 is kept uniform, the waste slurry pool 1 is regularly cleaned by utilizing an auxiliary cleaning structure at one side of the detection control mechanism, the long-term stability of the work of the waste slurry pool 1 is ensured, and the problem that in the prior art is generally filtered by adopting the pressurization dewatering machine is solved, however, in the actual use process, if the slurry in the waste slurry tank 1 is used up, the pressurizing system of the pressurizing and dewatering machine 2 can be continuously pressurized, and the problem of easy damage in serious cases is solved.