CN104307397A - Curing agent synthesizing device for technology of mixing and curing in tube - Google Patents

Abstract

The invention discloses a curing agent synthesizing device. The device comprises a rack, a crushing mechanism and a stirring mechanism which are arranged on the rack, wherein a discharge opening of the crushing mechanism corresponds to a feed opening of the stirring mechanism; the crushing mechanism comprises a grinding motor, a grinding cylinder of which grinding teeth are arranged on the inner wall, a motor support and a grinding wheel with grinding teeth; the grinding cylinder is fixed on the rack; the motor support is fixed above the grinding cylinder; the grinding motor is fixed on the motor support; a rotating shaft of the grinding wheel is connected with an output shaft of the grinding motor; the grinding wheel is fixed in the grinding cylinder by virtue of the rotating shaft in a mode of moving up and down relative to the bottom of the grinding cylinder; and a discharging opening is formed in the bottom of the grinding cylinder. The curing agent synthesizing device integrates grinding, screening, stirring, mixing and other functions, can realize automatic quantitative feeding of partial materials, so that curing agents with multiple proportions can be obtained, the labor intensity is reduced, and the working efficiency is improved.

Description

Curing agent synthesizing device for in-pipe mixed curing technology

Technical Field

The invention relates to a mixing and curing technology in a pipe, in particular to a curing agent synthesizing device used in the mixing and curing technology in the pipe.

Background

The pipe mixing and solidifying process is that the dredging ship treats the dredging at port, channel, etc. to control the water content of the dredging sludge to about 100%, the barge transports the sludge to the air pressure conveyer, the dredging sludge rolls and moves forward in the pipe under the action of the slurry pump and compressed air, the curing agent is supplied to the pipe by the conveyer during transportation, and the curing agent is injected into the pipe, finally the dredging sludge, air and curing agent are mixed in the pipe and then constructed by the pouring ship.

In the process flow, one key link is the proportioning of the curing agent and the injection in the pipe. The pump used when injecting the curing agent into the pipe has certain limitation on the grain size of the ingredients, namely, the grain size of the curing agent cannot be larger than the maximum grain size which can be tolerated by the pump. The fly ash, which is one of the curing agent components, has larger particles, because a normal power plant adopts an open stockpiling mode for coarse fly ash, a large part of the fly ash is in a wet state, and the fly ash is bonded into a small group at the moment, even if the fly ash is dry, a large number of small blocks of coal slag are formed besides the fly ash, and the small blocks of the fly ash can not meet the particle size condition required by a pump, so the fly ash needs to be crushed, filtered and the like, if the fly ash is manually crushed and filtered, the workload is large, and particularly when a large amount of curing agent is required in large-scale construction, the workload is very large, and the working efficiency is very low. Therefore, a solidifying agent synthesizing device integrating functions of crushing, screening, stirring and the like is needed, so that the crushing, screening, stirring and mixing of each component of the solidifying agent are realized, and the solidifying agent meeting the requirement is synthesized.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a curing agent synthesizing device, which integrates functions of crushing, screening, stirring and the like, and can realize crushing, screening, stirring and mixing of all components of a curing agent, so that the required curing agent is synthesized and output, the workload of workers is reduced, and the working efficiency is also improved.

In order to solve the technical problems, the invention provides a curing agent synthesizing device, which comprises a frame, and a crushing mechanism and a stirring mechanism which are arranged on the frame, wherein a discharge port of the crushing mechanism corresponds to a feed port of the stirring mechanism, the crushing mechanism comprises a crushing motor, a crushing barrel with grinding teeth arranged on the inner wall, a motor support frame and a grinding wheel with the grinding teeth, the crushing barrel is fixed on the frame, the motor support frame is fixed above the crushing barrel, the crushing motor is fixed on the motor support frame, a rotating shaft of the grinding wheel is connected with an output shaft of the crushing motor, the grinding wheel is fixed in the crushing barrel in a mode of moving up and down relative to the bottom of the crushing barrel through the rotating shaft, and a discharge port is arranged at the bottom of the crushing barrel.

Further, the stirring mechanism comprises a three-piece rotating wheel, a ratchet mechanism, a stirring barrel and a stirring motor, wherein the stirring motor drives the ratchet mechanism to drive the three-piece rotating wheel to rotate, a round-piece cavity for containing materials is formed between two adjacent rotating leaves of the three-piece rotating wheel, the bottom of the grinding barrel extends downwards along the edge of an outlet of the discharge port to form a containing cavity for containing the three-piece rotating wheel, and an outlet is formed in the bottom of the containing cavity; the agitator is fixed in the frame, and sets up the below of three lamella runners, the agitator includes that the staving of pan feeding mouth is seted up at the top and fixes spiral stirring leaf in the agitator, the pan feeding mouth at staving top correspond to hold the export in chamber, three batching entry, a water filling port and curing agent export have been seted up on the bucket wall of staving, the spiral stir the pivot of leaf with agitator motor's output shaft links to each other.

Furthermore, an air channel is arranged at the edge of the bottom of the grinding cylinder close to the cylinder wall, an anti-blocking air opening and a sealing cover for closing the anti-blocking air opening are uniformly arranged on the air channel, and the sealing cover is fixed at the edge of the anti-blocking air opening in a hinged mode.

Furthermore, an air channel which can be externally connected with an air source is arranged at the bottom of the barrel body, and air holes are uniformly formed in the air channel; or, the barrel body is internally and uniformly provided with air inlet holes penetrating through the bottom, a partition layer is further arranged below the bottom of the barrel body, an air pipeline which can be externally connected with an air source is arranged in the partition layer, and the air pipeline is uniformly provided with air outlet holes communicated with the air inlet holes at the bottom of the barrel body.

Further, the cross section of the grinding wheel is trapezoidal, the grinding wheel and the inner wall of the grinding cylinder form a wedge-shaped grinding cavity, and/or the top of the grinding wheel is hemispherical.

Furthermore, the stirring mechanism further comprises a stirring barrel fixing piece, the stirring barrel fixing piece is fixed on the frame in a mode that the stirring barrel fixing piece can slide left and right relative to the frame, and when the stirring barrel fixing piece slides to the bottom of the stirring barrel, the stirring barrel fixing piece is tightly matched with the bottom of the stirring barrel.

Furthermore, the agitator mounting is the slider that is provided with the arc recess, works as the slider follows the frame slides to the agitator bottom, then the arc recess of slider with the tight fit in agitator bottom.

Furthermore, a control handle is further arranged on the barrel wall of the barrel body, and/or at least three universal wheels are further arranged on the rack.

Furthermore, the curing agent synthesizing device also comprises an electromagnetic flow meter and an electromagnetic water valve (4) which are arranged at the water injection port, and a high-speed counter which is respectively connected with the ratchet mechanism and the three-piece rotating wheel.

Furthermore, the curing agent synthesizing device also comprises a liquid level indicator and a PH value sensor which are arranged in the stirring barrel. The embodiment of the invention has the following beneficial effects:

the solidifying agent synthesizing device is implemented, namely, the fly ash is directly poured into the grinding cylinder, under the action of the wedge-shaped grinding cavity and the grinding teeth between the grinding wheel and the grinding cylinder, the fly ash is mutually twisted and extruded and rotates to slide downwards, the ground fly ash reaching the required particle size enters the stirring mechanism, and the stirring mechanism stirs the received fine fly ash, other ingredients and a certain amount of injected water, so as to synthesize the solidifying agent, namely, the solidifying agent synthesizing device integrates the functions of grinding, stirring, mixing and the like, and the whole grinding, stirring and mixing process does not need manual participation of workers, so that the workload of the workers is reduced, the labor intensity is reduced, and the working efficiency is improved; on the other hand, the curing agent synthesizing device collects the water injection amount of water injection by arranging the electromagnetic flowmeter at the water injection port, and realizes the amount of the water injection amount by switching the electromagnetic water valve, thereby realizing the quantitative input of the water injection amount; and counting the feeding times of the three-section rotating wheel and the rotation times of the ratchet wheel by a double counter respectively, wherein when the feeding times reach the preset feeding times in the double counter, the double counter outputs signals to control the ratchet wheel to rotate for one circle, and when the rotation times of the ratchet wheel reach the preset number of circles in the double counter, one-time quantitative feeding is completed, and the double counter is reset immediately to restart the next-round quantitative feeding counting.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of a curing agent synthesizing apparatus according to the present invention;

FIG. 2 is a partial cross-sectional view of the curative synthesis apparatus of FIG. 1;

FIG. 3 is an enlarged view of a portion of the curing agent synthesizing apparatus of FIG. 1;

FIG. 4 is a schematic diagram of the bottom air duct of the milling drum of the reaction FIG. 1 curing agent synthesizing apparatus.

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.

Referring to fig. 1, a schematic structural diagram of an embodiment of the curing agent synthesizing apparatus of the present invention is shown, specifically, the curing agent synthesizing apparatus in this embodiment includes a frame 21, and a crushing mechanism and a stirring mechanism disposed on the frame 21, the crushing mechanism is connected to the stirring mechanism:

referring to fig. 1, the crushing mechanism in this embodiment comprises a crushing motor 17, a grinding cylinder 20 having teeth 7 on the inner wall, a motor support frame 22, and a grinding wheel 6 having teeth, wherein the grinding cylinder 20 is fixed on a frame 21, the motor support frame 22 is arranged above the grinding cylinder 20, the grinding wheel 6 is fixed in the grinding cylinder 20 by a rotating shaft in a manner of moving up and down relative to the bottom of the grinding cylinder 20, the cross section of the grinding wheel 6 is trapezoidal, that is, the grinding wheel 6 is a trapezoidal circular truncated cone, and the grinding wheel 6 and the inner wall of the grinding cylinder 20 form a wedge-shaped grinding cavity, so that the material is ground in the grinding cavity by the teeth of the grinding cylinder 20 and the grinding wheel 6, and the grinding wheel 6 is adjusted up and down, so as to adjust the gap between the teeth of the grinding wheel 6 and the teeth on the inner wall of the grinding cylinder 20, and further adjust the size of the material, the grinding wheel 6 is driven by the crushing motor 17, specifically, the rotating shaft of the grinding wheel 6 is connected with the output shaft of the grinding motor 17, the grinding motor 17 is fixed on the motor support frame 22, in this embodiment, the bottom of the grinding cylinder 20 is further provided with a funnel-shaped discharge port 18, when the material in the grinding cylinder 20 is ground and sinks to the bottom of the grinding cylinder 20, the material enters the stirring mechanism arranged below the grinding mechanism through the discharge port 18 to be stirred with other ingredients;

referring to fig. 1 and 2, the stirring mechanism in this embodiment includes a three-piece rotating wheel 5, a ratchet mechanism for driving the three-piece rotating wheel 5, a stirring barrel fixed on the frame and disposed below the three-piece rotating wheel 5, and a stirring motor 9 fixed on the frame 21, under the driving action of the stirring motor 9, the ratchet mechanism drives the three-piece rotating wheel 5 to intermittently rotate, and a round cavity 19 for accommodating the material is formed between two adjacent rotating leaves of the three-piece rotating wheel 5, and the bottom of the grinding cylinder 20 extends downwards along the outlet edge of the funnel-shaped discharging opening 18 and forms an accommodating cavity for accommodating the three-piece rotating wheel 5, and the bottom of the accommodating cavity is provided with an outlet (the size of the outlet is smaller than or equal to the size of the round cavity 9 between two adjacent rotating leaves of the three-piece rotating wheel 5), when the round cavity 19 rotates below the grinding cylinder 20, the material discharged from the discharging opening 18 of the grinding cylinder 20 is received, when the round valve cavity 19 rotates to the inner wall between the feed inlet (namely the outlet of the hopper discharge port 18) and the outlet of the accommodating cavity, the round valve cavity 19 and the inner wall form a closed storage cavity, and when the round valve cavity 19 rotates to the position above the feed inlet of the stirring barrel, the material in the round valve cavity 19 sequentially passes through the discharge port of the accommodating cavity and the feed inlet of the stirring barrel and enters the stirring barrel; the agitator includes that the staving 25 of pan feeding mouth is seted up at the top and fixes the spiral stirring leaf 3 in the agitator, has still seted up three batching entry 14 on the bucket wall of staving 25, a water filling port and curing agent export 1, and the pan feeding mouth at this staving 25 top corresponds to the above-mentioned discharge gate that holds the chamber, and the pivot that this spiral stirred leaf 3 links to each other with agitator motor 9's output shaft, is driven this spiral by this agitator motor 9 promptly and stirs leaf 3 and rotate.

When the solidifying agent synthesizing device of the embodiment is implemented, the vertical height of the grinding wheel 6 is firstly adjusted to ensure that the size of the leaked particles meets the requirement (i.e. the particle size can be tolerated by the pump connected with the solidifying agent output port 1), then the fly ash is poured into the grinding cylinder 20, the grinding wheel 6 is started to rotate, the fly ash is mutually twisted and extruded and rotates to slide downwards in the wedge-shaped grinding cavity between the grinding wheel 6 and the grinding cylinder 20 under the action of the grinding teeth, the ground fly ash reaching the required particle size enters the circular-lobe cavity 19 of the three-lobe rotating wheel 5 through the discharge port 18, when the circular-lobe cavity 19 is filled with the ground fine fly ash, the three-lobe rotating wheel 5 is driven by the ratchet mechanism to intermittently rotate, so that the 3 circular-lobe cavities 19 of the three-lobe rotating wheel 5 alternately load and throw the fine fly ash in turn, and the stirring barrel receives the fine fly ash thrown from the circular-lobe cavity 19, and cement and lime powder entering from the other two feeding ports 4 and water injected from the water injection port are received, and the spiral stirring blades 3 in the stirring barrel are driven by the stirring motor 9 to stir in the stirring barrel, so that the curing agent is synthesized. In addition, a powder pump and a powder flow meter can be connected to the feed inlet 4, and the quantitative feeding of the feed inlet 4, such as powdery quicklime and powdery fly ash, can be realized by controlling the start and stop of the pump and the flow meter, so that the full-automatic control of the whole process of the synthesis of the curing agent can be realized.

In order to avoid the accumulation of the materials on the top of the roller 6, the top of the roller 6 is arranged to be hemispherical in the embodiment.

Referring to fig. 3 and 4, in order to prevent the grinding cylinder 20 from being clogged by the large particles at the bottom, an air passage 23 is provided at the bottom of the grinding cylinder 20 near the edge of the cylinder wall, and an anti-clogging air port 8 and a sealing cover 24 for closing the anti-clogging air port are uniformly provided on the air passage 23, and the sealing cover 24 is hingedly fixed at the edge of the anti-clogging air port 8. In practice, the air channel 23 is externally connected to an air supply device, and air is intermittently injected into the air channel, so that the air pushes the sealing cover 24 open, thereby adjusting the position of the blocked large-particle materials and further facilitating the re-crushing thereof.

For the material misce bene that makes in the agitator, set up air conduit in the staving 25 bottom of agitator, but this air conduit external air supply arrangement to set up a plurality of air outlets, thereby make at the stirring in-process, have a large amount of bubbles to emerge from the agitator bottom, thereby help the stirring, make the mixture of material more even. Referring to fig. 1, in order to prevent the spiral stirring blades 3 in the stirring barrel from contacting the air pipeline at the bottom of the barrel 25, in another embodiment, the bottom of the barrel is provided with a partition 16, the bottom of the barrel is not provided with the air pipeline, but only air outlets 13 for air to enter are uniformly formed, the air pipeline is arranged in the partition 16, the side wall of the partition is provided with an air inlet 10 communicated with the air pipeline, and the air channel 26 is provided with air holes communicated with the plurality of air outlets 13 at the bottom of the stirring barrel.

Referring to fig. 1, in order to further fix the mixing drum, a mixing drum fixing member 11 is further provided in this embodiment, and is fixed on the frame 21 in a manner of being capable of sliding left and right relative to the frame, specifically, the mixing drum fixing member 11 is a sliding block provided with an arc-shaped groove. When sliding agitator mounting 11 to the agitator bottom, then arc recess and the tight fit in agitator bottom on the slider to it is fixed with the agitator.

Referring to fig. 1, in order to clean thoroughly, a control handle 12 is further disposed on the wall of the barrel body in this embodiment, so that the mixing barrel can be turned to one side by the control handle 12 and then cleaned.

Referring to fig. 1, in order to facilitate the movement of the apparatus, the bottom of the frame 21 is configured as a rectangular frame in this embodiment, and therefore, four universal wheels 2 are further disposed on the bottom of the frame 21 of the rectangular frame. Of course, the bottom frame of the frame 21 in this embodiment may also be set to other shapes as required, and further set the number of the universal wheels, for example, if the bottom of the frame is set to a triangular frame, three universal wheels are correspondingly set; it is also understood that more than four casters may be provided in the same manner.

In order to realize the automatic quantitative feeding of partial ingredients, in this embodiment, an electromagnetic water valve 4 and an electromagnetic flowmeter may be further disposed at the water injection port of the mixing tank, in the mixing tank, and a double counter respectively connected to the ratchet mechanism and the three-lobed rotating wheel 5. In the concrete implementation, the required rotation times of the ratchet wheel and the feeding times of the three-clack rotating wheel 5 are preset in a high-speed counter (namely a double counter), when the curing agent is synthesized, the double counter respectively counts the feeding times of the three-clack rotating wheel 5 and the rotation times of the ratchet wheel, when the feeding times reach the preset feeding times in the double counter, the double counter outputs signals to control the ratchet wheel to rotate for one circle, when the rotation times of the ratchet wheel reach the preset number of circles in the double counter, one-time quantitative feeding is completed, the double counter is immediately reset, the next-round quantitative feeding counting is restarted, so that the control of the quality of the fine fly ash fed into the stirring barrel is realized, wherein the rotation times of the ratchet wheel and the feeding times of the three-clack rotating wheel 5 are the proportioning quantity (namely the quality of the fly ash) in the total mass of the curing agent according to the required proportioning in advance, the mass of the fine fly ash contained in each round-petal cavity 19 and the feeding times of the three-petal rotating wheel 5 to the stirring barrel when the ratchet wheel rotates for one circle are calculated, and the calculation is finished in advance by a curing system; the electromagnetic flowmeter is arranged at the water injection port to collect the water injection amount of water injection, so that the electromagnetic water valve can be controlled to be switched on and off according to the monitoring result of the electromagnetic flowmeter, and the quantitative feeding of the water injection amount is realized.

In order to avoid damage to a grouting machine or a grouting pump or a volumetric pump (which is connected to the curing agent outlet 1 if the curing agent is injected into the curing agent storage barrel, or connected to the grouting machine or the grouting pump if the curing agent is injected into the mixing pipe) caused by idle rotation, in this embodiment, a liquid level indicator 16 may be further provided in the mixing barrel to monitor the liquid level in the mixing barrel, so that the machine can be controlled to be turned off or turned on according to the indication of the liquid level indicator 16.

Because contain quick lime in the curing agent, it has certain influence to PH, consequently can set up the PH sensor in the agitator in this embodiment to monitor the PH of the mixture in the agitator through this PH value sensor, and then can judge whether even the stirring of the inside misce bene liquid of agitator.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A solidifying agent synthesizing device is characterized by comprising a frame (21), a crushing mechanism and a stirring mechanism which are arranged on the frame (21), wherein a discharge port of the crushing mechanism corresponds to a feed port of the stirring mechanism, the crushing mechanism comprises a crushing motor (17), a crushing barrel (20) with grinding teeth (7) arranged on the inner wall, a motor support frame (22) and a grinding wheel (6) with the grinding teeth, wherein the crushing barrel (20) is fixed on the frame (21), the motor support frame (22) is fixed above the crushing barrel (20), the crushing motor (17) is fixed on the motor support frame (22), a rotating shaft of the grinding wheel (6) is connected with an output shaft of the crushing motor (17), the grinding wheel (6) is fixed in the crushing barrel (20) in a mode of moving up and down relative to the bottom of the crushing barrel (20) through the rotating shaft, and a discharge hole (18) is formed in the bottom of the crushing cylinder (20).

2. The device for synthesizing curing agent according to claim 1, wherein the stirring mechanism comprises a three-piece rotating wheel (5), a ratchet mechanism, a stirring barrel and a stirring motor (9), wherein,

the stirring motor (9) drives the ratchet mechanism to drive the three-piece rotating wheel (5) to rotate, a round-piece cavity (19) for containing materials is formed between two adjacent rotating pieces of the three-piece rotating wheel (5), the bottom of the grinding barrel (20) extends downwards along the outlet edge of the discharge hole (18) to form a containing cavity for containing the three-piece rotating wheel (5), and an outlet is formed in the bottom of the containing cavity; the agitator is fixed in frame (21), and sets up the below of three lamella runners (5), the agitator includes that staving (25) of pan feeding mouth are seted up at the top and fixes spiral in the agitator stirs leaf (3), the pan feeding mouth at staving (25) top corresponds to hold the export in chamber, three batching entry (14), a water filling port and curing agent export (1) have been seted up on the bucket wall of staving (25), the spiral stir the pivot of leaf (3) with the output shaft of agitator motor (9) links to each other.

3. The solidifying agent synthesizing device according to claim 1, characterized in that the bottom of the grinding cylinder (20) is provided with an air passage (23) near the edge of the cylinder wall, the air passage (23) is uniformly provided with an anti-clogging air port (8), and a sealing cover (24) closing the anti-clogging air port (8), the sealing cover (24) is fixed at the edge of the anti-clogging air port (8) in a hinged manner.

4. The curing agent synthesizing device according to claim 2, wherein an air channel which can be externally connected with an air source is arranged at the bottom of the barrel body (25), and air holes are uniformly formed on the air channel; or,

evenly be provided with in staving (25) and run through gas inlet (13) of bottom, just staving (25) bottom below still is provided with interlayer (16), be provided with the air conduit that can external air source in interlayer (16), evenly be provided with on the air conduit with the venthole that gas inlet (13) of staving bottom are linked together.

5. The hardener synthesis apparatus in accordance with one of claims 1 to 4, wherein the cross section of the mill wheel (6) is trapezoidal and the mill wheel (6) forms a wedge-shaped grinding chamber with the inner wall of the grinding cylinder (20) and/or the top of the mill wheel (6) is hemispherical.

6. The device for synthesizing curing agent according to claim 2 to 4, wherein the stirring mechanism further comprises a stirring barrel fixing member (11), the stirring barrel fixing member (11) is fixed on the frame in a manner of sliding left and right relative to the frame, and when the stirring barrel fixing member (11) slides to the bottom of the stirring barrel, the stirring barrel fixing member is tightly matched with the bottom of the stirring barrel.

7. The device for synthesizing curing agent according to claim 6, wherein the stirring barrel fixing member (11) is a sliding block provided with an arc-shaped groove, and when the sliding block slides to the bottom of the stirring barrel along the frame, the arc-shaped groove of the sliding block is tightly matched with the bottom of the stirring barrel.

8. The solidifying agent synthesizing device according to any one of claims 2 to 4, characterized in that the barrel wall of the barrel body is further provided with a control handle (12), and/or the frame is further provided with at least three universal wheels (2).

9. The solidifying agent synthesizing device according to any one of claims 2 to 4, characterized by further comprising an electromagnetic flow meter and an electromagnetic water valve (4) arranged at the water injection port, and a double counter connected to the ratchet mechanism and the three-lobed rotor (5), respectively.

10. The solidifying agent synthesizing device according to any one of claims 2 to 4, further comprising a liquid level indicator (16) and a pH sensor provided in the agitating barrel.