CN112549300B

CN112549300B - Surplus thick liquid recycle device of tubular pile production

Info

Publication number: CN112549300B
Application number: CN202011321955.9A
Authority: CN
Inventors: 王五星
Original assignee: Fuqiang Technology Co ltd
Current assignee: Fuqiang Technology Co ltd
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2022-04-19
Anticipated expiration: 2040-11-23
Also published as: CN112549300A

Abstract

The invention discloses a device for recycling residual slurry in tubular pile production, which relates to the technical field of tubular pile production and comprises a stirring assembly, wherein a feeding assembly is arranged at the top end of the stirring assembly, a discharging assembly is arranged on one side of the stirring assembly, a water inlet assembly is arranged on one side, located on the feeding assembly, of the top end of the stirring assembly, and a supporting tube is arranged on the feeding assembly. According to the invention, through the arrangement of the first corrugated pipe, the feeding hopper, the drawing rope and the fixing buckle, the first corrugated pipe is pulled according to the distance of the residual slurry discharge port to drive the feeding hopper to stretch and move to the outer wall of the discharge port, then the drawing rope is tensioned to drive the feeding hopper to tighten and tightly fit the outer wall of the residual slurry discharge port, at the moment, the fixing buckle is closed, the drawing rope is fixed, and then the residual slurry can enter the stirring box through the feeding hopper and the first corrugated pipe, so that the problem that the position and the pipe diameter of the feeding pipe cannot be adjusted is effectively solved.

Description

Surplus thick liquid recycle device of tubular pile production

Technical Field

The invention relates to the technical field of tubular pile production, in particular to a device for recycling residual slurry in tubular pile production.

Background

When the concrete pipe pile is manufactured, firstly, the prepared concrete is stirred in a stirring station, then the stirred concrete is input into a pipe pile die, a concrete pipe pile finished product is formed through vibration and centrifugation, after the pipe pile is manufactured, residual slurry can remain in a hollow part of the pipe pile, if the residual slurry is directly discarded, great waste is caused, and the residual slurry is generally recycled by adopting a recycling device.

The pipe diameter and the rigidity of present surplus thick liquid recovery unit inlet pipe make the inlet pipe can't laminate with surplus thick liquid discharging pipe, make during surplus thick liquid unloading, reveal easily, cause the damage of surplus thick liquid, and surplus thick liquid is in the transportation, because surplus thick liquid proportion is great, make it when upwards transporting, the transport speed is slower, lead to increasing transit time and retrieving process time, and recovery unit uses the completion after, need in time rinse, and present cleaning equipment can only rinse an equipment box, lead to the cleaning time overlength of a plurality of equipment.

Disclosure of Invention

The invention aims to: the problem that the position of the feeding pipe and the pipe diameter cannot be adjusted, the upward transportation speed of the residual slurry is low, and the cleaning equipment can only clean one device is solved, and the residual slurry recycling device for tubular pile production is provided.

In order to achieve the purpose, the invention provides the following technical scheme: a device for recycling residual slurry in tubular pile production comprises a stirring component, wherein a feeding component is arranged at the top end of the stirring component, a discharging component is arranged on one side of the stirring component, a water inlet component is arranged at one side, located on the feeding component, of the top end of the stirring component, a supporting pipe is arranged on the feeding component, a first corrugated pipe is arranged at the top end of the supporting pipe, a feeding hopper is arranged at the top end of the first corrugated pipe, a drawing rope is arranged on the inner side of the feeding hopper, a fixing buckle is arranged on the drawing rope, a supporting frame is arranged at the top end, located on the outer side of the stirring box, of the supporting pipe, a feeding component is arranged at one side, far away from the stirring component, of the discharging component, a storage component is arranged at one side, far away from the discharging component, of the feeding component, a cleaning component is arranged at the outer side of the feeding component, a second motor is arranged on the feeding component, spiral blades are arranged at the output end of the second motor, and the outside of second motor is provided with the conveying pipe, be provided with the water receiving pipe on the washing subassembly, the bottom of water receiving pipe is provided with first outlet pipe, and one side of water receiving pipe is connected with the second outlet pipe, the outer wall of first outlet pipe is provided with spacing pipe, one side of spacing pipe is connected with the second bellows, one side that spacing pipe was kept away from to the second bellows is provided with the hemisphere shower nozzle.

Preferably, be provided with the agitator tank on the stirring subassembly, first motor is installed on the top of agitator tank, and the inside of agitator tank is provided with the heating chamber, the output of first motor is provided with the puddler, the outer wall of puddler is provided with the stirring leaf.

Preferably, a storage barrel is arranged on the storage assembly, a heat insulation groove is formed in the storage barrel, a material receiving pipe is arranged on the inner side of the storage barrel, a fourth water inlet groove is formed in the position, located above the material receiving pipe, of the inner side of the storage barrel, and a second electromagnetic valve is installed on the material receiving pipe.

Preferably, be provided with the inlet tube on the subassembly of intaking, install first solenoid valve on the inlet tube, and the inner wall that one side of inlet tube is located the agitator tank is provided with first intake antrum.

Preferably, the discharging assembly is provided with a discharging pipe, one side of the discharging pipe is provided with a connecting pipe, a mud suction pump is installed on the discharging pipe, and the top end of the connecting pipe is provided with a second water inlet groove.

Preferably, a fixed seat is arranged at the bottom end of the second motor, one side of the feeding pipe is connected with a feeding pipe, a third water inlet groove is formed in one side, away from the feeding pipe, of the feeding pipe, the number of the third water inlet grooves is two, a thread block is arranged on the inner side of each third water inlet groove, and a rubber scraper is arranged on the outer wall of each spiral blade.

Preferably, the inner sides of the first water inlet groove, the second water inlet groove, the third water inlet groove and the fourth water inlet groove are all provided with thread blocks.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the first corrugated pipe, the feeding hopper, the drawing rope and the fixing buckle, the first corrugated pipe is pulled according to the distance of the residual slurry discharge port to drive the feeding hopper to stretch and move to the outer wall of the discharge port, then the drawing rope is tensioned to drive the feeding hopper to tighten and tightly fit the outer wall of the residual slurry discharge port, at the moment, the fixing buckle is closed, the drawing rope is fixed, and then the residual slurry can enter the stirring box through the feeding hopper and the first corrugated pipe, so that the problem that the position and the pipe diameter of the feeding pipe cannot be adjusted is effectively solved.

2. According to the invention, the second motor is controlled to operate through the second motor, the spiral blade, the feeding pipe and the rubber scraping blade, so that the spiral blade and the rubber scraping blade are driven to rotate, the residual pulp in the feeding pipe is driven to move upwards, and the residual pulp adhered to the inner wall of the feeding pipe is scraped by the rubber scraping blade when the rubber scraping blade rotates, so that the problem of low upward transportation speed of the residual pulp is effectively solved.

3. The invention leads external water into the water receiving pipe through the arranged water receiving pipe, the first water outlet pipe, the second corrugated pipe and the hemispherical spray head, and a part of water is conveyed into five limiting pipes on the outer wall of the water receiving pipe through the first water outlet pipe, and the other part of water is conveyed to the two limiting pipes through the second water outlet pipe, the second corrugated pipe at one side of the five limiting pipes is pulled, so that the second corrugated pipe drives the hemispherical spray head to stretch, and are respectively clamped in the first water inlet tank, the second water inlet tank and the third water inlet tank, so that the five hemispherical spray heads respectively clean the stirring box, the connecting pipe and the feeding pipe, simultaneously pulls the second corrugated pipe at one side of the two limit pipes to enable the second corrugated pipe to drive the hemispherical spray head to stretch and be clamped into the fourth water inlet groove, make two hemisphere shower nozzles wash the storage cylinder, effectively solved cleaning equipment and can only carry out abluent problem to an equipment.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic view of a stirring blade according to the present invention;

FIG. 4 is a schematic view of a drawstring of the present invention;

FIG. 5 is a schematic view of a feed hopper of the present invention;

fig. 6 is an enlarged view of a in fig. 2 according to the present invention.

In the figure: 1. a stirring assembly; 101. a stirring box; 102. a first motor; 103. a stirring rod; 104. stirring blades; 106. a heating chamber; 2. a feed assembly; 201. supporting a tube; 202. a first bellows; 203. a feed hopper; 204. drawing the rope; 205. a fixing buckle; 206. a support frame; 3. a water intake assembly; 301. a water inlet pipe; 302. a first solenoid valve; 303. a first water inlet tank; 4. a discharge assembly; 401. a discharge pipe; 402. a dredge pump; 403. a connecting pipe; 404. a second water inlet tank; 5. a feeding assembly; 501. a second motor; 502. a fixed seat; 503. helical leaves; 504. a feed pipe; 505. a feed pipe; 506. a third water inlet tank; 507. a thread block; 508. a rubber blade; 6. a material storage assembly; 601. a storage cylinder; 602. a heat insulation groove; 603. a material receiving pipe; 604. a second solenoid valve; 605. a fourth water inlet tank; 7. cleaning the assembly; 701. a water receiving pipe; 702. a first water outlet pipe; 703. a second water outlet pipe; 704. a limiting pipe; 705. a second bellows; 706. a hemispherical spray head.

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. 1-6, a device for recycling residual slurry in tubular pile production comprises a stirring assembly 1, a feeding assembly 2 is disposed at the top end of the stirring assembly 1, a discharging assembly 4 is disposed at one side of the stirring assembly 1, a water inlet assembly 3 is disposed at one side of the feeding assembly 2 at the top end of the stirring assembly 1, a supporting tube 201 is disposed on the feeding assembly 2, a first corrugated tube 202 is disposed at the top end of the supporting tube 201, a feeding hopper 203 is disposed at the top end of the first corrugated tube 202, a drawing rope 204 is disposed at the inner side of the feeding hopper 203, a fixing buckle 205 is disposed on the drawing rope 204, a supporting frame 206 is disposed at the top end of the stirring box 101 at the outer side of the supporting tube 201, the first corrugated tube 202 is pulled to drive the feeding hopper 203 to stretch and move to the outer wall of a discharging port, then the drawing rope 204 is tightened to drive the feeding hopper 203 to tightly attach to the outer wall of the residual slurry discharging port, at this time, the fixing buckle 205 is closed, the draw rope 204 is fixed, one side of the discharging component 4 away from the stirring component 1 is provided with the feeding component 5, one side of the feeding component 5 away from the discharging component 4 is provided with the storage component 6, the outer side of the feeding component 5 is provided with the cleaning component 7, the feeding component 5 is provided with the second motor 501, the output end of the second motor 501 is provided with the spiral blade 503, the outer side of the second motor 501 is provided with the feeding pipe 504, the cleaning component 7 is provided with the water receiving pipe 701, the bottom end of the water receiving pipe 701 is provided with the first water outlet pipe 702, one side of the water receiving pipe 701 is connected with the second water outlet pipe 703, the outer wall of the first water outlet pipe 702 is provided with the limiting pipe 704, one side of the limiting pipe 704 is connected with the second corrugated pipe, one side of the second corrugated pipe 705 away from the limiting pipe 704 is provided with the hemispherical spray head 706, external water is introduced into the water receiving pipe 701, and a part of the water is conveyed to the five limiting pipes 704 on the outer wall of the first water outlet pipe 702, and the other part of water is conveyed to the two limiting pipes 704 on the outer wall of the other part of water through the second water outlet pipe 703, the second corrugated pipe 705 on one side of the five limiting pipes 704 is pulled, so that the second corrugated pipe 705 drives the hemispherical spray head 706 to stretch, and the two parts of water are respectively clamped into the first water inlet tank 303, the second water inlet tank 404 and the third water inlet tank 506, so that the five hemispherical spray heads 706 respectively clean the stirring tank 101, the connecting pipe 403 and the feeding pipe 504, and meanwhile, the second corrugated pipe 705 on one side of the two limiting pipes 704 is pulled, so that the second corrugated pipe 705 drives the hemispherical spray head 706 to stretch and is clamped into the fourth water inlet tank 605, so that the two hemispherical spray heads 706 clean the storage barrel 601.

Please refer to fig. 1 and fig. 2, the stirring assembly 1 is provided with a stirring box 101, a first motor 102 is installed at the top end of the stirring box 101, a heating chamber 106 is arranged inside the stirring box 101, an output end of the first motor 102 is provided with a stirring rod 103, and an outer wall of the stirring rod 103 is provided with a stirring blade 104.

In the invention, residual slurry enters a stirring box 101, and a first motor 102 is controlled to operate, so that the first motor drives a stirring blade 104 to rotate through a stirring rod 103, and the stirring blade 104 is used for stirring the residual slurry when rotating.

Please refer to fig. 1 and fig. 2, the water inlet assembly 3 is provided with a water inlet pipe 301, the water inlet pipe 301 is provided with a first electromagnetic valve 302, and one side of the water inlet pipe 301 is provided with a first water inlet tank 303 on the inner wall of the stirring tank 101.

In the invention, external water is introduced into the heating chamber 106 through the water inlet pipe 301 for heating, and after heating, the residual slurry in the stirring tank 101 is heated by hot water.

Referring to fig. 1 and 2, the discharging assembly 4 is provided with a discharging pipe 401, a connecting pipe 403 is disposed at one side of the discharging pipe 401, a dredge pump 402 is mounted on the discharging pipe 401, and a second water inlet tank 404 is disposed at the top end of the connecting pipe 403.

According to the invention, the operation of the suction dredge 402 on the discharge pipe 401 is controlled to be opened, so that residual slurry enters the feed pipe 504 through the discharge pipe 401 and the connecting pipe 403.

Please refer to fig. 1 and fig. 2, a fixing base 502 is disposed at a bottom end of the second motor 501, a feeding pipe 505 is connected to one side of the feeding pipe 504, a third water inlet tank 506 is disposed at a side of the feeding pipe 504 away from the feeding pipe 505, the number of the third water inlet tanks 506 is two, a screw block 507 is disposed at an inner side of the third water inlet tank 506, and a rubber blade 508 is disposed at an outer wall of the screw blade 503.

In the invention, the second motor 501 is controlled to operate to drive the spiral blade 503 and the rubber blade 508 to rotate, so as to drive the residual slurry in the feeding pipe 504 to move upwards, and the residual slurry enters the storage barrel 601 through the feeding pipe 505 after moving upwards.

Please refer to fig. 1 and fig. 2, a storage cylinder 601 is disposed on the storage assembly 6, a heat insulation tank 602 is disposed inside the storage cylinder 601, a material receiving pipe 603 is disposed inside the storage cylinder 601, a fourth water inlet tank 605 is disposed above the material receiving pipe 603 inside the storage cylinder 601, and a second electromagnetic valve 604 is disposed on the material receiving pipe 603.

In the invention, residual slurry enters the storage cylinder 601, the heat insulation groove 602 in the storage cylinder 601 carries out heat insulation treatment, and when the residual slurry needs to be used, the second electromagnetic valve 604 on the material receiving pipe 603 is controlled to operate and open, so that the residual slurry can flow out through the material receiving pipe 603.

Please refer to fig. 1 and fig. 2, the first water inlet tank 303, the second water inlet tank 404, the third water inlet tank 506 and the fourth water inlet tank 605 are provided with screw blocks 507 inside.

In the invention, the second corrugated pipe 705 at one side of the five limiting pipes 704 is pulled, so that the second corrugated pipe 705 drives the hemispherical spray heads 706 to stretch and is respectively clamped in the first water inlet tank 303, the second water inlet tank 404 and the third water inlet tank 506, so that the five hemispherical spray heads 706 respectively clean the stirring box 101, the connecting pipe 403 and the feeding pipe 504, and the second corrugated pipe 705 at one side of the two limiting pipes 704 is pulled, so that the second corrugated pipe 705 drives the hemispherical spray heads 706 to stretch and is clamped in the fourth water inlet tank 605, so that the two hemispherical spray heads 706 clean the storage barrel 601.

The working principle is as follows: when the invention is used, according to the distance of the residual slurry discharge port, the first corrugated pipe 202 is pulled to drive the feed hopper 203 to stretch and move to the outer wall of the discharge port, then the draw rope 204 is tightened to drive the feed hopper 203 to tighten and tightly adhere to the outer wall of the residual slurry discharge port, at the moment, the fixing buckle 205 is closed, the draw rope 204 is fixed, then the residual slurry can enter the stirring box 101 through the feed hopper 203 and the first corrugated pipe 202, the first motor 102 is controlled to operate, the stirring blade 104 is driven to rotate through the stirring rod 103, the stirring blade 104 stirs the residual slurry when rotating, meanwhile, external water is introduced into the heating chamber 106 through the water inlet pipe 301 to heat, after heating, hot water heats the residual slurry in the stirring box 101, after the residual slurry is processed, the mud suction pump 402 on the discharge pipe 401 is controlled to operate and open, so that the residual slurry enters the feed pipe 504 through the discharge pipe 401 and the connecting pipe 403, controlling the second motor 501 to operate to drive the spiral blade 503 and the rubber scraper 508 to rotate, thereby driving the residual slurry in the feeding pipe 504 to move upwards, after the residual slurry moves upwards, the residual slurry enters the storage barrel 601 through the feeding pipe 505, the residual slurry enters the storage barrel 601, the heat insulation tank 602 inside the storage barrel 601 is subjected to heat insulation treatment, when the residual slurry needs to be used, controlling the second electromagnetic valve 604 on the material receiving pipe 603 to operate and open, so that the residual slurry can flow out through the material receiving pipe 603, when the recovery equipment needs to be cleaned, external water is introduced into the water receiving pipe 701, a part of the water is conveyed into five limiting pipes 704 on the outer wall of the water receiving pipe through the first water outlet pipe 702, and the other part of the water is conveyed into two limiting pipes 704 on the outer wall of the water receiving pipe through the second water outlet pipe 703, and the second corrugated pipe 705 on one side of the five limiting pipes 704 is pulled, so that the second corrugated pipe drives the hemispherical spray head 706 to stretch and is clamped into the first water inlet tank 303, In the second water inlet tank 404 and the third water inlet tank 506, the five hemispherical nozzles 706 respectively clean the stirring tank 101, the connecting pipe 403 and the feeding pipe 504, and the second corrugated pipe 705 on one side of the two limiting pipes 704 is pulled simultaneously, so that the second corrugated pipe 705 drives the hemispherical nozzles 706 to stretch and clamp into the fourth water inlet tank 605, and the two hemispherical nozzles 706 clean the material storage barrel 601.

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

Claims

1. The utility model provides a surplus thick liquid recycle device of tubular pile production, includes stirring subassembly (1), its characterized in that: the stirring device is characterized in that a feeding component (2) is arranged at the top end of the stirring component (1), a discharging component (4) is arranged on one side of the stirring component (1), a water inlet component (3) is arranged on one side, located on the feeding component (2), of the top end of the stirring component (1), a supporting pipe (201) is arranged on the feeding component (2), a first corrugated pipe (202) is arranged at the top end of the supporting pipe (201), a feeding hopper (203) is arranged at the top end of the first corrugated pipe (202), a drawing rope (204) is arranged on the inner side of the feeding hopper (203), a fixing buckle (205) is arranged on the drawing rope (204), a supporting frame (206) is arranged on the top end, located on the stirring box (101), of the outer side of the supporting pipe (201), a feeding component (5) is arranged on one side, far away from the stirring component (1), of the discharging component (4), and a storing component (6) is arranged on one side, far away from the discharging component (4), of the feeding component (5), and the outside of pay-off subassembly (5) is provided with washs subassembly (7), be provided with second motor (501) on pay-off subassembly (5), the output of second motor (501) is provided with spiral leaf (503), and the outside of second motor (501) is provided with feeding tube (504), be provided with water receiving pipe (701) on wasing subassembly (7), the bottom of water receiving pipe (701) is provided with first outlet pipe (702), and one side of water receiving pipe (701) is connected with second outlet pipe (703), the outer wall of first outlet pipe (702) is provided with spacing pipe (704), one side of spacing pipe (704) is connected with second bellows (705), one side that spacing pipe (704) were kept away from in second bellows (705) is provided with hemisphere shower nozzle (706).

2. The residual slurry recycling device for tubular pile production according to claim 1, characterized in that: be provided with agitator tank (101) on stirring subassembly (1), first motor (102) are installed on the top of agitator tank (101), and the inside of agitator tank (101) is provided with heating chamber (106), the output of first motor (102) is provided with puddler (103), the outer wall of puddler (103) is provided with stirring leaf (104).

3. The residual slurry recycling device for tubular pile production according to claim 1, characterized in that: the material storage component is characterized in that a material storage barrel (601) is arranged on the material storage component (6), a heat insulation groove (602) is formed in the material storage barrel (601), a material receiving pipe (603) is arranged on the inner side of the material storage barrel (601), a fourth water inlet groove (605) is formed in the position, located above the material receiving pipe (603), of the inner side of the material storage barrel (601), and a second electromagnetic valve (604) is installed on the material receiving pipe (603).

4. The residual slurry recycling device for tubular pile production according to claim 1, characterized in that: be provided with inlet tube (301) on water inlet assembly (3), install first solenoid valve (302) on inlet tube (301), and the inner wall that one side of inlet tube (301) is located agitator tank (101) is provided with first intake antrum (303).

5. The residual slurry recycling device for tubular pile production according to claim 1, characterized in that: be provided with discharging pipe (401) on ejection of compact subassembly (4), one side of discharging pipe (401) is provided with connecting pipe (403), and installs dredge pump (402) on discharging pipe (401), the top of connecting pipe (403) is provided with second intake antrum (404).

6. The residual slurry recycling device for tubular pile production according to claim 1, characterized in that: the bottom end of the second motor (501) is provided with a fixed seat (502), one side of the feeding pipe (504) is connected with a feeding pipe (505), one side of the feeding pipe (504) far away from the feeding pipe (505) is provided with a third water inlet groove (506), the number of the third water inlet grooves (506) is two, the inner side of the third water inlet groove (506) is provided with a thread block (507), and the outer wall of the spiral blade (503) is provided with a rubber scraper (508).