CN209737972U - Device for recycling residual slurry of tubular pile - Google Patents

Abstract

The utility model discloses a device is recycled to surplus thick liquid of tubular pile, including surplus thick liquid pond, surplus thick liquid pond passes through surplus thick liquid pump and pipeline and is connected with the agitator tank, and the agitator tank is called with mud through pipeline and is connected, and the inboard that mud was called is provided with scrapes mud rabbling mechanism, scrapes mud rabbling mechanism and includes first motor cabinet, first motor, axostylus axostyle, flow distribution plate, mount pad, second motor cabinet, second motor, first support direction montant, second support direction montant, lead screw, first link block, second link block and scraper. The utility model discloses surplus thick liquid of tubular pile is retrieved and is recycled device, first motor work drive axostylus axostyle and mount pad rotate and then make first link block, second link block and scraper rotatory, can stir the mud in the mud balance for mud and water misce bene, the operation that the mud of pasting carries out striking off on the rotatory inner wall that can balance the mud of scraper simultaneously, second motor work can drive the synchronous up-and-down motion of scraper, makes the mud balance sanitization thoroughly.

Description

Device for recycling residual slurry of tubular pile

Technical Field

the utility model relates to a surplus thick liquid technical field of tubular pile specifically is a surplus thick liquid of tubular pile retrieves and recycles device.

Background

The tubular pile is used as a foundation treatment and a pile foundation form, has been greatly developed from the beginning of the last century to the present, is widely applied to various building foundations and plays a great role. The pipe pile is obtained by centrifuging concrete in a steel mould, a large amount of residual slurry is generated in the process, and at present, the method for treating the residual slurry by a pipe pile production enterprise generally comprises the steps of pouring the residual slurry into a special container, manually breaking the residual slurry after the residual slurry is solidified and hardened, and then conveying the residual slurry to a refuse landfill by using a truck. The treatment method causes resource waste and environmental pollution, and people also make devices for recycling residual pulp according to the condition, but have the following main defects: 1. after the residual pulp tank is used for a long time, a thicker dry material layer is easy to appear, so that the volume of the residual pulp tank is reduced, and simultaneously, the waste of resources is caused again; 2. the conveying pipeline is easy to break due to temperature difference in cold winter, and particularly the recovery and reutilization efficiency of residual slurry is reduced at an elbow or a welding line.

Chinese patent No. CN206794346U discloses a double recycling system for residual slurry of a tubular pile, wherein a crusher, a boiling dryer and a pulverizer are arranged to realize the recycling of dry materials in a residual slurry pool and the double recycling of the residual slurry; the water level alarm in the water tank can monitor the water level in the water tank at any time, and is convenient and practical; the design of the flow dividing plate in the slurry scale can ensure that the clean water can effectively clean the inner wall of the slurry scale, and the cleaning effect is better; the display is arranged so that an operator can directly see the weight entering the mud weigher, which is sensed by the weight sensor; the design of the heat-insulating layer and the protective layer of the conveying pipeline prolongs the service life of the heat-insulating layer and the protective layer and improves the recycling efficiency.

but this two recovery of surplus thick liquid of tubular pile system of recycling is when using, open the purge valve, can make the water in the water tank enter into and wash in the mud is called, prevent that surplus thick liquid from solidifying, but because do not set up corresponding agitating unit in the mud is called, make the mud in the mud call can not fine fuse when contacting with water, make upper clear water and lower floor's mud can not fuse, it is inhomogeneous to lead to the mud mixing, the mud in the mud is called also glues easily on the inner wall of mud, even make the water that falls on the flow distribution plate throw away to the inner wall of mud is called from each direction on, the mud of pasting on the inner wall of mud is called can not washed yet, make the mud call wash thoroughly.

SUMMERY OF THE UTILITY MODEL

an object of the utility model is to provide a device is recycled to remaining thick liquid of tubular pile for mud misce bene in the mud is called, can wash the inner wall that mud is called simultaneously, and the sanitization is thorough, can solve the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: a device for recycling and reusing residual slurry of a tubular pile comprises a residual slurry pool, wherein the residual slurry pool is connected with a stirring tank through a residual slurry pump and a conveying pipeline, stirring blades are arranged on the inner side of the stirring tank, the stirring tank is connected with a slurry scale through the conveying pipeline, the slurry scale is also connected with a gas storage tank and a water tank through the conveying pipeline respectively, the bottom of the slurry scale is also connected with a stirring bin through the conveying pipeline, a grinding machine is arranged on one side of the stirring bin, a boiling dryer is arranged on one side of the grinding machine, and a crusher is arranged on one side of the boiling dryer;

The mud scraping and stirring mechanism is arranged on the inner side of the mud scale and comprises a first motor base, a first motor, a shaft rod, a splitter plate, a mounting base, a second motor, a first supporting and guiding vertical rod, a second supporting and guiding vertical rod, a lead screw, a first connecting slide block, a second connecting slide block and a scraper, the first motor base is mounted on the inner side of a box cover arranged at the upper end of the mud scale, the first motor is arranged on the inner side of the first motor base, an output shaft of the first motor penetrates through the box cover and extends to the inner side of the mud scale to be connected with the shaft rod through a coupler, the splitter plate is mounted at the upper end of the shaft rod, the mounting base is arranged below the splitter plate and mounted on the shaft rod, the second motor base is arranged on the lower surface of the mounting base, the second motor is arranged on the inner side of the second motor base, and the output shaft of the second motor is connected with the lead, install first link block and second link block on the lead screw, first link block and second link block all with lead screw threaded connection, first link block and second link block parallel mount are on first support direction montant and second support direction montant, first support direction montant and second support direction montant are all installed on the mount pad, the one end that first link block and second link block all kept away from the axostylus axostyle is connected with the scraper.

Preferably, the scraper is tightly attached to the inner wall of the mud balance.

Preferably, the first connecting slide block and the second connecting slide block are both obliquely arranged with the scraper.

Preferably, the joint of the output shaft of the second motor and the second motor base is sealed by a sealing ring.

Preferably, the first support guide vertical rod and the second support guide vertical rod are arranged in parallel with the screw rod.

Compared with the prior art, the beneficial effects of the utility model are as follows:

The utility model discloses surplus thick liquid of tubular pile is retrieved and is recycled device, the mud in the agitator tank passes through the pneumatic butterfly valve and gets into in the mud title after the stirring, simultaneously the water in the water tank also gets into in the mud title through the purge valve, first motor work drives the axostylus axostyle rotation, the axostylus axostyle rotation drives flow distribution plate and mount pad synchronous rotation, the flow distribution plate makes the water that falls on the flow distribution plate throw off to the inner wall of mud title from all directions in the process of rotating, the mount pad drives first link block, second link block and scraper synchronous rotation in the process of rotating, can stir the mud in the mud title, make mud and water misce bene, the operation that can strike off to the mud that pastes on the inner wall of mud title is called to the scraper rotation simultaneously, make mud no longer stay on the inner wall of mud title, after having scraped a position of mud title inner wall, second motor work drives the lead screw rotation, in the rotatory in-process of, first link block and second link block can support under the support guiding action of direction montant and second support direction montant up-and-down motion, and first link block and second link block up-and-down motion drive the synchronous up-and-down motion of scraper to make the operation that the scraper can strike off mud to the different positions of the inner wall of mud balance, the water that falls on the flow distribution plate simultaneously is thrown away to the inner wall of mud balance on from each direction and is washed, make mud balance sanitization thoroughly.

Drawings

Fig. 1 is a schematic view of the device for recycling the residual slurry of the pipe pile of the present invention;

FIG. 2 is a front view of the mud scraping and stirring mechanism of the present invention;

Fig. 3 is a bottom view of the mud scraping and stirring mechanism of the present invention.

In the figure: 1. a residual pulp tank; 2. a residual slurry pump; 3. a stirring tank; 31. a stirring blade; 4. weighing the slurry; 41. a box cover; 5. a gas storage tank; 6. a water tank; 7. a stirring bin; 8. a mud scraping and stirring mechanism; 81. a first motor mount; 82. a first motor; 83. a shaft lever; 84. a flow distribution plate; 85. a mounting seat; 86. a second motor mount; 87. a second motor; 88. a first support guide vertical rod; 89. a second support guide vertical rod; 810. a screw rod; 811. a first connecting slider; 812. a second connecting slider; 813. a scraper; 9. a boiling dryer; 10. a crusher; 11. a pulverizer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a tubular pile residual slurry recycling device comprises a residual slurry pool 1, wherein the residual slurry pool 1 is connected with a stirring tank 3 through a residual slurry pump 2 and a conveying pipeline, stirring blades 31 are arranged on the inner side of the stirring tank 3, the stirring tank 3 is connected with a slurry scale 4 through the conveying pipeline, the slurry scale 4 is further connected with a gas storage tank 5 and a water tank 6 through the conveying pipeline respectively, the bottom of the slurry scale 4 is further connected with a stirring bin 7 through the conveying pipeline, a flour mill 11 is arranged on one side of the stirring bin 7, a boiling dryer 9 is arranged on one side of the flour mill 11, and a crusher 10 is arranged on one side of the boiling dryer 9.

Referring to fig. 2-3, a mud scraping and stirring mechanism 8 is disposed on the inner side of the mud scale 4, the mud scraping and stirring mechanism 8 can stir the mud on the inner side of the mud scale 4, so that the mud in the mud scale 4 is uniformly mixed, meanwhile, a scraper 813 can scrape the mud adhered to the inner wall of the mud scale 4, and simultaneously, water falling on the flow distribution plate 84 can be thrown out from various directions to the inner wall of the mud scale 4 for cleaning, and the mud scraping and stirring mechanism 8 is completely cleaned, and includes a first motor base 81, a first motor 82, a shaft rod 83, a flow distribution plate 84, a mounting base 85, a second motor base 86, a second motor 87, a first support guide vertical rod 88, a second support guide vertical rod 89, a screw rod 810, a first connecting sliding block 811, a second connecting sliding block 812 and a scraper 813, the first motor base 81 is disposed on the inner side of the box cover 41 disposed on the upper end of the mud scale 4, the first motor 82 is disposed on the inner side of the first motor base, an output shaft of a first motor 82 penetrates through a box cover 41 and extends to the inner side of a slurry scale 4, a shaft rod 83 is connected with the inner side of the slurry scale 4 through a coupler, a diverter plate 84 is installed at the upper end of the shaft rod 83, an installation seat 85 is arranged below the diverter plate 84, the installation seat 85 is installed on the shaft rod 83, slurry in a stirring tank 3 enters the slurry scale 4 through a pneumatic butterfly valve after being stirred, water in a water tank 6 also enters the slurry scale 4 through a cleaning valve, the first motor 82 drives the shaft rod 83 to rotate, the shaft rod 83 rotates to drive the diverter plate 84 and the installation seat 85 to rotate synchronously, the diverter plate 84 enables the water falling on the diverter plate 84 to be thrown out to the inner wall of the slurry scale 4 from all directions in the rotating process, the installation seat 85 drives a first connecting slide block 811, a second connecting slide block 812 and a scraper 813 to rotate synchronously in the rotating process, the slurry in the slurry scale 4 can be stirred, and the slurry and, the lower surface of the mounting seat 85 is provided with a second motor seat 86, the inner side of the second motor seat 86 is provided with a second motor 87, the joint of the output shaft of the second motor 87 and the second motor seat 86 is sealed by a sealing ring, so that the mud on the inner side of the mud scale 4 is prevented from entering the second motor seat 86 to influence the work of the second motor 87, the output shaft of the second motor 87 is connected with a screw 810 through a coupling, the screw 810 is provided with a first connecting slide block 811 and a second connecting slide block 812, the first connecting slide block 811 and the second connecting slide block 812 are both in threaded connection with the screw 810, the first connecting slide block 811 and the second connecting slide block 812 are mounted on the first supporting guide vertical rod 88 and the second supporting guide vertical rod 89 in parallel, the first supporting guide vertical rod 88 and the second supporting guide vertical rod 89 are both mounted on the mounting seat 85, the first supporting guide vertical rod 88 and the second supporting guide vertical rod 89 are both arranged in parallel with, the scraper 813 rotates to scrape off the slurry adhered to the inner wall of the slurry scale 4, so that the slurry is not left on the inner wall of the slurry scale 4, after one position of the inner wall of the slurry scale 4 is scraped, the second motor 87 works to drive the screw rod 810 to rotate, in the rotating process of the screw rod 810, the first connecting sliding block 811 and the second connecting sliding block 812 can move up and down under the supporting and guiding effects of the first supporting and guiding vertical rod 88 and the second supporting and guiding vertical rod 89, the first connecting sliding block 811 and the second connecting sliding block 812 move up and down to drive the scraper 813 to move up and down synchronously, so that the scraper 813 can scrape off the slurry at different positions of the inner wall of the slurry scale 4, meanwhile, water falling on the flow distribution plate 84 is thrown out to the inner wall of the slurry scale 4 from various directions to wash the slurry scale 4, one end of each of the first connecting sliding block 811 and the second connecting sliding block 812, which is far away from the shaft lever 83, is connected with the scraper 813, the scraper 813 is tightly attached to the inner wall of the mud weigher 4, the scraper 813 rotates to scrape the mud adhered to the inner wall of the mud weigher 4, the first connecting sliding block 811 and the second connecting sliding block 812 are arranged obliquely with the scraper 813, and the scraper 813 is convenient for scraping the mud adhered to the inner wall of the mud weigher 4.

After being stirred, the mud in the stirring tank 3 enters the mud balance 4 through a pneumatic butterfly valve, meanwhile, the water in the water tank 6 also enters the mud balance 4 through a cleaning valve, the first motor 82 works to drive the shaft rod 83 to rotate, the shaft rod 83 rotates to drive the flow distribution plate 84 and the mounting seat 85 to synchronously rotate, the flow distribution plate 84 enables the water falling on the flow distribution plate 84 to be thrown out to the inner wall of the mud balance 4 from all directions in the rotating process, the mounting seat 85 drives the first connecting slide block 811, the second connecting slide block 812 and the scraper 813 to synchronously rotate in the rotating process, the mud in the mud balance 4 can be stirred, the mud and the water are uniformly mixed, the scraper 813 rotates to scrape the mud adhered to the inner wall of the mud balance 4, the mud is not left on the inner wall of the mud balance 4, after one position of the inner wall of the mud balance 4 is scraped, the second motor 87 works to drive the screw rod 810 to rotate, in the rotating process of the lead screw 810, the first connecting sliding block 811 and the second connecting sliding block 812 can move up and down under the supporting and guiding effects of the first supporting and guiding vertical rod 88 and the second supporting and guiding vertical rod 89, the first connecting sliding block 811 and the second connecting sliding block 812 move up and down to drive the scraper 813 to move up and down synchronously, so that the scraper 813 can scrape off mud at different positions of the inner wall of the mud balance 4, and meanwhile, water falling on the flow distribution plate 84 is thrown out from various directions to the inner wall of the mud balance 4 to be washed, so that the mud balance 4 is thoroughly cleaned.

in summary, the following steps: the utility model discloses surplus thick liquid of tubular pile is retrieved and is recycled device, mud in the agitator tank 3 gets into in mud title 4 through pneumatic butterfly valve after the stirring, simultaneously water in the water tank 6 also gets into in mud title 4 through the purge valve, first motor 82 works and drives axostylus axostyle 83 rotatory, axostylus axostyle 83 is rotatory to drive flow distribution plate 84 and mount pad 85 synchronous rotation, flow distribution plate 84 makes the water that falls on flow distribution plate 84 throw off to the inner wall of mud title 4 from all directions in the pivoted process, mount pad 85 drives first link block 811, second link block 812 and scraper 813 synchronous rotation in the pivoted process, can stir mud in mud title 4, make mud and water misce bene, scraper 813 rotation can carry out the operation of striking off to the mud that pastes on the inner wall of mud title 4 simultaneously, make mud no longer stay on the inner wall of mud title 4, after having scraped a position of mud title 4 inner wall, the work of second motor 87 drives the lead screw 810 rotatory, at the rotatory in-process of lead screw 810, first connection slider 811 and second connection slider 812 can be under the support guiding action of first support direction montant 88 and second support direction montant 89 up-and-down motion, first connection slider 811 and second connection slider 812 up-and-down motion drive the synchronous up-and-down motion of scraper 813, thereby make scraper 813 can strike off the operation of mud to the different positions of the inner wall of mud balance 4, the water that falls on flow distribution plate 84 simultaneously is thrown away to the inner wall of mud balance 4 from each direction and is washed, make mud balance 4 sanitization thoroughly.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a surplus thick liquid of tubular pile is retrieved and is recycled device, includes surplus thick liquid pond (1), its characterized in that: the slurry tank (1) is connected with a stirring tank (3) through a slurry pump (2) and a conveying pipeline, stirring blades (31) are arranged on the inner side of the stirring tank (3), the stirring tank (3) is connected with a slurry scale (4) through the conveying pipeline, the slurry scale (4) is further connected with a gas storage tank (5) and a water tank (6) through the conveying pipeline respectively, the bottom of the slurry scale (4) is further connected with a stirring bin (7) through the conveying pipeline, a flour mill (11) is arranged on one side of the stirring bin (7), a boiling dryer (9) is arranged on one side of the flour mill (11), and a crusher (10) is arranged on one side of the boiling dryer (9);

The mud scraping and stirring device is characterized in that a mud scraping and stirring mechanism (8) is arranged on the inner side of the mud scale (4), the mud scraping and stirring mechanism (8) comprises a first motor base (81), a first motor (82), a shaft rod (83), a splitter plate (84), a mounting base (85), a second motor base (86), a second motor (87), a first supporting and guiding vertical rod (88), a second supporting and guiding vertical rod (89), a lead screw (810), a first connecting sliding block (811), a second connecting sliding block (812) and a scraper (813), the first motor base (81) is mounted on the inner side of a box cover (41) arranged at the upper end of the mud scale (4), the first motor (82) is arranged on the inner side of the first motor base (81), an output shaft of the first motor (82) penetrates through the box cover (41) to extend to the inner side of the mud scale (4) and is connected with the shaft rod (83) through a coupler, the splitter plate (84) is mounted at, a mounting seat (85) is arranged below the flow distribution plate (84), the mounting seat (85) is mounted on a shaft lever (83), a second motor seat (86) is arranged on the lower surface of the mounting seat (85), a second motor (87) is arranged on the inner side of the second motor seat (86), an output shaft of the second motor (87) is connected with a lead screw (810) through a coupler, a first connecting slide block (811) and a second connecting slide block (812) are mounted on the lead screw (810), the first connecting slide block (811) and the second connecting slide block (812) are both in threaded connection with the lead screw (810), the first connecting slide block (811) and the second connecting slide block (812) are mounted on a first support guide vertical rod (88) and a second support guide vertical rod (89) in parallel, the first support guide vertical rod (88) and the second support guide vertical rod (89) are both mounted on the mounting seat (85), one ends, far away from the shaft lever (83), of the first connecting sliding block (811) and the second connecting sliding block (812) are connected with scrapers (813).

2. the device of claim 1, wherein the device for recycling the residual slurry of the tubular pile is characterized in that: the scraper (813) is tightly attached to the inner wall of the mud weigher (4).

3. The device of claim 1, wherein the device for recycling the residual slurry of the tubular pile is characterized in that: the first connecting slide block (811) and the second connecting slide block (812) are both obliquely arranged with the scraper (813).

4. The device of claim 1, wherein the device for recycling the residual slurry of the tubular pile is characterized in that: and the joint of the output shaft of the second motor (87) and the second motor base (86) is sealed by a sealing ring.

5. The device of claim 1, wherein the device for recycling the residual slurry of the tubular pile is characterized in that: the first supporting and guiding vertical rod (88) and the second supporting and guiding vertical rod (89) are arranged in parallel with the screw rod (810).