CN111805723A

CN111805723A - Concrete pipe pile material making and filling system capable of improving quality of finished products

Info

Publication number: CN111805723A
Application number: CN202010727118.XA
Authority: CN
Inventors: 郑觉敏
Original assignee: 郑觉敏
Current assignee: Guangdong Huajun Construction Engineering Co.,Ltd.
Priority date: 2020-07-26
Filing date: 2020-07-26
Publication date: 2020-10-23
Anticipated expiration: 2040-07-26
Also published as: CN111805723B

Abstract

The invention discloses a concrete pipe pile material making and filling system capable of improving the quality of finished products, which comprises an iron removing device and a filling device, wherein the iron removing device is used for removing iron in sand and stone, then the sand and the stone are fed into the filling device, the sand and the stone are mixed into concrete through the filling device and are filled in a pipe pile mould, the iron removing device comprises a conveyor, an iron removing box, a magnetic suction cavity, a movable rod, a blanking plate, a stop block, a tension spring, a rotating motor, a rotating shaft and a rotating plate block, the iron removing device is arranged, the rotating shaft is driven to rotate by the rotating motor, the rotating shaft drives the rotating plate block to rotate, so that the fixed plate block is pushed, the fixed plate block drives the blanking plate to move, the tension spring is matched with the stop block, the blanking plate is driven to reset after the rotating plate block rotates, the next rotating plate block is convenient to continuously push the, the feeding plate is driven to shake left and right, sand and stones of the feeding plate are shaken, and the iron absorption effect of the magnetic plate is improved.

Description

Concrete pipe pile material making and filling system capable of improving quality of finished products

Technical Field

The invention relates to the technical field of concrete pipe pile manufacturing, in particular to a concrete pipe pile manufacturing and filling system capable of improving the quality of finished products.

Background

The concrete is an engineering composite material formed by cementing aggregate into a whole by using a cementing material, generally, the concrete is produced by mixing cement serving as the cementing material, sand and stone serving as the aggregate and water according to a certain proportion, and the concrete is required to be added into a pipe pile mould to be formed according to the shape of the pipe pile mould;

before sand, stone, water and cement are mixed to form concrete, iron in the sand and the stone generally needs to be removed, so that the forming effect of the concrete is ensured, and the existing device cannot shake and turn over the sand and the stone when removing iron, so that the iron is mixed in the sand and the stone, and the iron cannot be completely removed; meanwhile, in the process of pouring the concrete pipe pile, the pipe pile mould cannot be stably and movably blanked, so that the pouring effect of the pipe pile is influenced, and meanwhile, the pipe pile mould is easy to deflect in the moving process, so that the pouring opening and the pipe pile mould are deflected, concrete is spilled, and waste is caused. The applicant separately submits invention patents for protection on the same day for the part of the pouring device in the invention, and the invention mainly protects a pouring system formed by the iron removing device and the pouring device.

Disclosure of Invention

The invention provides a concrete pipe pile material preparation and filling system capable of improving the quality of finished products, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a concrete pipe pile material preparation and filling system capable of improving the quality of finished products comprises an iron removal device and a filling device, wherein iron in sand and stone is removed through the iron removal device, then the sand and stone are sent into the filling device, the sand and stone are mixed into concrete through the filling device, and the concrete is filled in a pipe pile mould;

the iron removing device comprises a conveyor, an iron removing box, a magnetic suction cavity, a movable rod, a blanking plate, a stop block, a tensioning spring, a rotating motor, a rotating shaft, a rotating plate, a fixed plate, a collecting box, a fixed frame, a cylinder, a piston rod, a magnetic suction box, a placing groove, a magnetic plate, a drawer, a sliding groove, a pushing block, a sliding plate, an embedded groove, a second supporting spring and a scraping plate;

the iron removing box is fixedly connected to one end of the conveyor, the magnetic suction cavity is formed in the iron removing box, a movable rod is connected to the inner wall of the magnetic suction cavity in an equidistant sliding mode, two ends of the movable rod penetrate through two ends of the iron removing box respectively, a lower material plate is sleeved at the position, corresponding to the inner position of the magnetic suction cavity, of the outer end of the movable rod, a stop block is fixedly connected to the position, corresponding to the outer side of the iron removing box, of the two ends of the movable rod respectively, a tensioning spring is sleeved at the position, corresponding to the inner side of the stop block, of the outer end of the movable rod, a rotating motor is fixedly connected to the position, corresponding to the bottom of the conveyor, of one end of the iron removing box, a rotating shaft is connected to the output shaft of the rotating motor, one end of the rotating shaft penetrates through one end of the iron removing box, rotating plates are fixedly connected, the input end of the rotating motor is electrically connected with the output end of an external power supply;

the deironing case top fixedly connected with mount, mount top middle part position department fixedly connected with cylinder, and cylinder bottom fixedly connected with piston rod, the case is inhaled to piston rod outer end fixedly connected with magnetism, magnetism inhales the bottom of the case end and has seted up the standing groove, standing groove top fixedly connected with magnetic plate, the inside sliding connection that corresponds magnetic plate one side position department of standing groove has the drawer, the spout has all been seted up to magnetism inhaling case both ends and corresponding magnetic plate bottom position department, magnetism inhales case both ends and corresponds spout position department sliding connection and have the ejector pad, and the inside sliding clamping of corresponding spout position department of standing groove has the slide, the embedded groove has been seted up on the slide top, and the inside equidistance fixedly connected with second supporting spring of embedded groove, the inside fixedly connected with scraper blade that corresponds second supporting spring top position department of embedded groove.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the deironing device is arranged, the rotating shaft is driven to rotate by the rotating motor, the rotating shaft drives the rotating plate to rotate, so that the fixed plate is pushed, the fixed plate drives the blanking plate to move, the tensioning spring and the stop block are matched, the blanking plate is driven to reset after the rotating plate rotates, the next rotating plate is further convenient to continue to push the fixed plate, the blanking plate is driven to shake leftwards and rightwards, sand and stones of the blanking plate are shaken, the effect of magnetic plate iron absorption is improved, the deironing efficiency is ensured, when too much iron is absorbed on the magnetic plate, the push block is pushed, the push block drives the sliding plate and the shovel plate to move, the shovel plate is pushed to be in contact with the bottom end of the magnetic plate by the telescopic characteristic of the second supporting spring, the iron on the magnetic plate is pushed into the drawer, the magnetic plate is cleaned in time, the absorption effect is ensured, in addition, the height of the magnetic absorption box is adjusted by the, the adjustment is conveniently carried out according to the actual need.

2. The walking and material conveying mechanism is arranged, the worm is driven by the driving motor, the worm drives the turbine to rotate at a constant speed, so that the moving platform is conveniently pushed to move at a constant speed, the moving platform drives the blanking box to move at a constant speed along the notch, the proper blanking position is conveniently adjusted according to the position of the bottom die of the tubular pile, the moving amplitude is prevented from being large, the blanking effect of concrete is influenced, the pouring effect is ensured, and the concrete is prevented from spilling;

the movable platform is supported by the bearing wheels, so that friction is reduced, and meanwhile, the movable platform is prevented from deviating in the moving process by the matching of the guide rails, the position between the movable platform and the tubular pile bottom die is ensured, concrete is prevented from being spilled, waste is prevented, the blanking effect is further ensured, the tubular pile pouring efficiency is improved, and the production efficiency of the tubular pile is increased;

in addition, in the moving process of the moving platform, the connecting rod is driven to rotate through the matching between the bearing wheels and the connecting wheels, so that the connecting rod drives the cross baffle plate to rotate, the concrete in the blanking box is uniformly sprayed inside the bottom die of the tubular pile in the moving process, the blanking efficiency is improved, the pouring effect of the tubular pile is ensured, and the production yield of the tubular pile is increased.

3. The material composite crushing mechanism is arranged, sand and stones are fed into the grinding cylinder through the feeding pipe and are guided through the material guide frame, so that the sand and the stones enter the grinding groove through the material guide frame, and the grinding block rotates to be matched with the material guide frame to grind the sand and the stones, so that the sand and the stones are finer, the mixing effect of the sand, the stones and cement is improved, gaps among the sand, the stones and the cement in the concrete are reduced, and the quality of the concrete is improved;

in addition, sand, stone is after milling, fall on oblique filter screen through the groove of milling, through oblique filter screen to the sand after pulverizing, stone filters, make careful sand, stone passes oblique filter screen and gets into inside the churn, and stir through the stirring leaf, improve sand, the mixed effect of stone and cement, the great sand of volume, stone then slides through oblique filter screen and stores on the take-up (stock) pan, drive through diaphragm and dwang cooperation simultaneously and carry the auger and rotate, and then with the sand of storing on the take-up (stock) pan, stone sends to the abrasive brick top through the pay-off passageway, get into once more and pulverize the groove and mill, so relapse, mill sand, stone repeatedly, improve the effect of milling sand, stone, guarantee the quality that the concrete mixes.

4. The power transmission mechanism is arranged, the worm wheel is matched with the transmission worm, the mobile station transmits power while moving, the driven wheel, the driving wheel and the second belt are matched for transmission to drive the rotating rod to rotate, and meanwhile, the bevel gears are used for transmission to drive the movable rod to rotate, so that the movable rod is matched with the transmission block to drive the grinding block to rotate, sand and stone are ground, the grinding effect is guaranteed, the utilization rate of energy is increased, and waste is avoided;

through the cooperation of annular plate and first supporting spring, promote the movable rod and remove along the sleeve, make transmission piece and abrasive brick closely laminate, and then guarantee to sand, the effect of stone grinding, in addition through fixture block and draw-in groove cooperation, when guaranteeing that the movable rod is gliding from top to bottom, make things convenient for the sleeve to drive the movable rod rotatory, guaranteed transmission effect.

5. The adjustable material stopping mechanism is arranged, the positioning pin is rotated out, the movable block can be conveniently slid out of the circular groove, the movable block can be driven to move through the annular connecting plate, the arc plate can be contracted inside the telescopic groove, the elastic rubber ring can be conveniently contracted, the diameter of the elastic rubber ring is reduced, the elastic rubber ring is separated from the bearing wheel, and then when the blanking is not needed, the moving platform is prevented from moving to discharge concrete, the concrete waste is caused, the connecting rod is prevented from rotating when the blanking is stopped, the cross-shaped baffle plate is sealed for the blanking, and the concrete is prevented from being scattered.

6. Spacing fixed and stock stop have been set up, through rotating the screw rod, make the screw rod promote the fixed block and remove, the distance between fixed plate and the fixed block has been adjusted, simultaneously through the cooperation of telescopic link, the position of limiting plate has further been adjusted, it is convenient to carry on spacingly to the push pedal, guarantee the push pedal when getting into the standing groove inside, the skew can not appear, tubular pile die block and workbin are parallel have been guaranteed, the concrete spills out when avoiding the unloading, cause the waste of concrete, the energy has been practiced thrift, simultaneously through last locating piece and lower locating piece cooperation, the position of fixed push pedal, avoid when the unloading, the tubular pile removes, influence the effect of unloading, and then improve the filled effect of tubular pile.

To sum up, through power transmission mechanism to the defeated material mechanism of walking remove the in-process, the power of production transmits, has realized motor power's linkage and sharing to it is rotatory to drive the abrasive brick among the compound rubbing crusher structure of material, realizes milling sand, stone, and then the power of the at utmost utilization motor, makes the device can walk, the unloading while, has reduced the input of motor, has practiced thrift the cost, has also guaranteed the efficiency that the concrete was filled simultaneously, has improved the output of tubular pile production.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the system architecture of the present invention;

FIG. 2 is a schematic view of an installation structure of the iron removing box of the present invention;

FIG. 3 is a schematic view of the installation structure of the rotating plate of the present invention;

FIG. 4 is a schematic view of the mounting structure of the skateboard of the present invention;

FIG. 5 is a schematic view of the mounting structure of the squeegee of the invention;

FIG. 6 is a schematic view of the mounting arrangement of the worm of the present invention;

FIG. 7 is a schematic view of the mounting structure of the lower fixing plate of the present invention;

FIG. 8 is a schematic view of the mounting structure of the turbine of the present invention;

FIG. 9 is a schematic view of the mounting arrangement of the cross plate of the present invention;

FIG. 10 is a schematic view of the mounting arrangement of the block of the present invention;

FIG. 11 is a schematic view of the mounting structure of the annular plate of the present invention;

FIG. 12 is a schematic view of a mounting structure of the cartridge of the present invention;

FIG. 13 is a schematic view of the mounting structure of the movable block of the present invention;

fig. 14 is a schematic view showing the installation structure of the fixing plate of the present invention.

Reference numbers in the figures: 1. a base; 2. a placement groove; 3. a notch;

4. a walking and material conveying mechanism; 401. a worm; 402. a transmission rod; 403. a first belt; 404. a drive motor; 405. a mobile station; 406. a turbine; 407. a connecting plate; 408. a load-bearing wheel; 409. a guide rail; 410. a support; 411. a mixing drum; 412. a blanking box; 413. a cross striker plate; 414. a connecting rod; 415. a connecting wheel;

5. a material composite crushing mechanism; 501. rolling the cylinder; 502. a feed pipe; 503. a material guide frame; 504. an inclined filter screen; 505. a take-up pan; 506. rotating the rod; 507. a transverse plate; 508. grinding blocks; 509. a grinding tank; 510. a feed channel; 511. conveying the auger;

6. a power transmission mechanism; 601. a transmission chamber; 602. a transmission block; 603. a movable rod; 604. an annular plate; 605. a support spring; 606. a sleeve; 607. a card slot; 608. a clamping block; 609. a rotating rod; 610. a bevel gear; 611. a driven wheel; 612. a rectangular groove; 613. a drive worm; 614. a driving wheel; 615. a second belt;

7. adjusting a material stopping mechanism; 701. a circular groove; 702. a movable block; 703. positioning pins; 704. a telescopic groove; 705. an arc-shaped plate; 706. an elastic rubber ring; 707. an arc-shaped connecting plate;

8. pushing the plate; 9. a support plate; 10. a tubular pile bottom die;

11. a limiting fixing and stock stop mechanism; 1101. a receiving groove; 1102. a telescopic rod; 1103. a limiting plate; 1104. an inclined material plate; 1105. a fixed block; 1106. a screw; 1107. a fixing plate; 1108. an extension plate; 1109. an upper positioning block; 1110. a lower positioning block;

20. a deironing device; 2001. a conveyor; 2002. a de-ironing box; 2003. magnetically attracting the chamber; 2004. a movable rod; 2005. a blanking plate; 2006. a stopper; 2007. tensioning the spring; 2008. a rotating electric machine; 2009. a rotating shaft; 2010. rotating the plate; 2011. fixing the plate; 2012. a collection box; 2013. a fixed mount; 2014. a cylinder; 2015. a piston rod; 2016. a magnetic suction box; 2017. a placement groove; 2018. a magnetic plate; 2019. a drawer; 2020. a rectangular groove; 2021. a push block; 2022. a slide plate; 2023. a groove is embedded; 2024. a second support spring; 2025. a scraper.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-14, the present invention provides a technical solution, a concrete pipe pile material preparation pouring system capable of improving the quality of finished products, which includes an iron removing device 20 and a pouring device 200, wherein iron in sand and stone is removed by the iron removing device 20, and then the sand and stone are sent to the pouring device 200, mixed into concrete by the pouring device 200, and poured into a pipe pile mold;

the iron removing device 20 comprises a conveyor 2001, an iron removing box 2002, a magnetic suction chamber 2003, a movable rod 2004, a blanking plate 2005, a stopper 2006, a tension spring 2007, a rotating motor 2008, a rotating shaft 2009, a rotating plate 2010, a fixed plate 2011, a collecting box 2012, a fixing frame 2013, a cylinder 2014, a piston rod 2015, a magnetic suction box 2016, a placing groove 2017, a magnetic plate 2018, a drawer 2019, a sliding groove 2020, a pushing block 2021, a sliding plate 2022, an embedded groove 2023, a second support spring 2024 and a scraper 2025;

one end of the conveyor 2001 is fixedly connected with an iron removing box 2002, a magnetic suction chamber 2003 is arranged in the iron removing box 2002, the inner wall of the magnetic suction chamber 2003 is equidistantly and slidably connected with a movable rod 2004, two ends of the movable rod 2004 respectively penetrate through two ends of the iron removing box 2002, a blanking plate 2005 is sleeved at the outer end of the movable rod 2004 corresponding to the position in the magnetic suction chamber 2003, two ends of the movable rod 2004 are respectively and fixedly connected with a stop block 2006 at the position corresponding to the outer side of the iron removing box 2002, a tension spring 2007 is sleeved at the outer end of the movable rod 2004 corresponding to the inner side of the stop block 2006, a rotating motor 2008 is fixedly connected at one end of the iron removing box 2002 corresponding to the bottom position of the conveyor 2001, an output shaft of the rotating motor 2008 is connected with a rotating shaft 2009, one end of the rotating shaft 2009 penetrates through one end of the iron removing box 2002, a, except that the other end of the iron box 2002 is fixedly connected with a collecting box 2012 at the position corresponding to the bottom of the blanking plate 2005, the input end of a rotating motor 2008 is electrically connected with the output end of an external power supply, the top end of the iron box 2002 is fixedly connected with a fixed frame 2013, the middle position of the top end of the fixed frame 2013 is fixedly connected with an air cylinder 2014, the bottom end of the air cylinder 2014 is fixedly connected with a piston rod 2015, the outer end of the piston rod 2015 is fixedly connected with a magnetic attraction box 2016, the bottom end of the magnetic attraction box 2016 is provided with a placing groove 2017, the top end of the placing groove 2017 is fixedly connected with a magnetic plate 2018, a drawer 2019 is slidably connected at the position corresponding to one side of the magnetic plate 2018 in the placing groove 2017, the two ends of the magnetic attraction box 2016 are respectively provided with a sliding groove 2020 at the position corresponding to the sliding groove 2020, a push block 2021 is slidably, the inside of the embedded groove 2023 is fixedly connected with second supporting springs 2024 at equal intervals, and the inside of the embedded groove 2023 corresponding to the top of the second supporting springs 2024 is fixedly connected with a scraper 2025;

the pipe pile die comprises a base 1, wherein a placing groove 2 is formed in the middle of the base 1, a push plate 8 is slidably clamped in the placing groove 2, and the top end of the push plate 8 is fixedly connected with a pipe pile bottom die 10 through a supporting plate 9;

notches 3 are symmetrically formed in the top end of the base 1 corresponding to the positions of the two sides of the placing groove 2, a walking and material conveying mechanism 4 is rotatably connected inside the notches 3, the position is convenient to adjust, and the pouring effect is guaranteed;

worms 401 are rotatably connected inside the two notches 3, transmission rods 402 are symmetrically and rotatably connected at one end of the base 1 corresponding to the position of the worm 401, first belts 403 are sleeved at the outer ends of the two transmission rods 402, a driving motor 404 is fixedly connected at the outer end of one transmission rod 402 corresponding to the outer side position of the first belt 403, a moving platform 405 is symmetrically and slidably connected at the top end of the base 1 corresponding to the position of the notch 3, a turbine 406 is rotatably connected at the bottom end of the moving platform 405 corresponding to the position of the worm 401, a connecting plate 407 is fixedly connected at the middle position of one end of the moving platform 405, a bearing wheel 408 is rotatably connected at one end of the connecting plate 407, guide rails 409 are fixedly connected at the two ends of the base 1 corresponding to the position of the bearing wheel 408, a support 410 is fixedly connected at the top end of the moving platform 405, a stirring cylinder 411 is fixedly connected at the, and the two ends of the blanking box 412 are rotatably connected with a connecting rod 414 corresponding to the axle center of the cross material baffle 413, the outer end of the connecting rod 414 corresponding to the top of the bearing wheel 408 is fixedly connected with a connecting wheel 415, in order to facilitate moving blanking, the bottom end of the turbine 406 is meshed and connected with the top end of the worm 401, two bearing wheels 408 and two connecting wheels 415 are respectively arranged, the top position of the outer end of the mixing drum 411 is fixedly connected with a water inlet pipe, the positions of the two ends inside the notch 3, which correspond to the top position of the worm 401, are fixedly connected with travel switches, and a control panel is fixedly connected to the side position of the top end of the base 1, the output end of the travel switch is electrically connected with the input end of the control panel, the output end of the control panel is electrically connected with the input end of the driving motor 404, under the contact of the travel switch, the control panel receives and sends switching value signals from the travel switch to realize the forward and reverse rotation control of the driving motor 404;

one end of the connecting wheel 415 is movably connected with an adjusting material stopping mechanism 7, and the adjusting material stopping mechanism 7 comprises a circular groove 701, a movable block 702, a positioning pin 703, a telescopic groove 704, an arc-shaped plate 705, an elastic rubber ring 706 and an arc-shaped connecting plate 707;

circular slot 701 has been seted up to fifth wheel 415 one end middle part position department, the inside slip of circular slot 701 has cup jointed movable block 702, and there is locating pin 703 movable block 702 one end through threaded connection, flexible groove 704 has been seted up to fifth wheel 415 outer end equidistance, the inside slip joint of flexible groove 704 has arc 705, and arc 705 outer end has cup jointed elastic rubber circle 706, arc 705 inner wall avris position department rotates and is connected with arc connecting plate 707, and the arc connecting plate 707 other end rotates with movable block 702 to be connected, for the convenience stop the unloading, the elastic rubber circle 706 bottom is laminated mutually with bearing wheel 408 top, locating pin 703 runs through movable block 702 and the inside threaded connection that passes through of circular slot 701.

The top end of the walking material conveying mechanism 4 is fixedly connected with a material composite crushing mechanism 5, better matching is realized, and the concrete quality is improved, wherein the material composite crushing mechanism 5 comprises a rolling cylinder 501, a feeding pipe 502, a material guide frame 503, an inclined filter screen 504, a material receiving disc 505, a rotating rod 506, a transverse plate 507, a grinding block 508, a grinding groove 509, a feeding channel 510 and a conveying auger 511;

the top end of the bracket 410 is fixedly connected with a rolling barrel 501, the central position of the top end of the rolling barrel 501 is fixedly connected with a feeding pipe 502, the top position of the inner wall of the rolling barrel 501 is fixedly connected with a material guide frame 503, the position of the inner part of the rolling barrel 501 corresponding to the bottom position of the material guide frame 503 is fixedly connected with an inclined filter screen 504, the central position of the inclined filter screen 504 is fixedly connected with a material receiving disc 505, the central position of the top end of the material receiving disc 505 is rotatably connected with a rotating rod 506, the top position of the outer end of the rotating rod 506 is fixedly connected with a transverse plate 507, the outer end of the transverse plate 507 is fixedly connected with a grinding block 508, the middle position of the rolling barrel 501 corresponding to the position between the grinding block 508 and the material guide frame 503 is provided with a grinding groove 509, the middle position of the grinding block 508 is provided with a material feeding channel 510, the outer end of the rotating, in order to grind sand and stone, the bottom end of the grinding cylinder 501 is communicated with the top end of the stirring cylinder 411, the bottom end of the rotating rod 506 penetrates through the bottom end of the material receiving disc 505, the outer end of the rotating rod 506 is rotatably connected with a stirring blade corresponding to the inner position of the stirring cylinder 411, the crushing groove 509 is conical, and the width of the inner wall of the crushing groove is gradually reduced from top to bottom.

The power transmission mechanism 6 is embedded in the material composite crushing mechanism 5, so that the grinding effect is guaranteed, the utilization rate of energy is increased, and waste is avoided;

a transmission chamber 601 is arranged in the guide frame 503, a transmission block 602 is connected to the side position of the bottom end of the transmission chamber 601 in a transmission manner, a groove 603 is arranged at the position of the guide frame 503 corresponding to the transmission block 602, a movable rod 603 is fixedly connected to the middle position of the top end of the transmission block 602, annular plates 604 are sleeved on the top and bottom positions of the outer end of the movable rod 603, a first supporting spring 605 is fixedly connected to the adjacent end of each of the two annular plates 604, a sleeve 606 is rotatably sleeved on the top position of the outer end of the movable rod 603 corresponding to the top position of the annular plate 604, the top end of the sleeve 606 is rotatably connected to the bottom end of the transmission chamber 601, a clamping groove 607 is arranged on the inner wall of the sleeve 606 at equal distance, a clamping block 608 is fixedly connected to the outer end of the movable rod 603 corresponding to the clamping groove 607, a rotating rod 609 is rotatably connected to the, the outer end of the rotating rod 609 is fixedly connected with a driven wheel 611 corresponding to the outer side of the grinding cylinder 501, a rectangular groove 612 is formed in the outer end of the moving table 405 corresponding to the top of the worm wheel 406, a transmission worm 613 is rotatably connected inside the rectangular groove 612, a driving wheel 614 is rotatably connected to the positions of the two ends of the moving table 405 corresponding to the transmission worm 613 respectively, the outer ends of the driving wheel 614 and the driven wheel 611 are sleeved with a second belt 615, in order to transmit power, the transmission block 602 is a circular table, the inclined angle of the inclined plane of the transmission block 602 is equal to that of the inclined plane of the grinding block 508, the inclined plane of the transmission block 602 is tightly attached to the inclined plane of the grinding block 508, the bottom end of the transmission worm 613 is meshed with the top end of the worm wheel 406.

The inner wall of the placing groove 2 is symmetrically and movably connected with a limiting fixing and material stopping mechanism 11, and the limiting fixing and material stopping mechanism 11 comprises a containing groove 1101, an expansion rod 1102, a limiting plate 1103, an inclined material plate 1104, a fixing block 1105, a screw 1106, a fixing plate 1107, an extension plate 1108, an upper positioning block 1109 and a lower positioning block 1110;

holding groove 1101 has been seted up to 2 inner wall symmetries of standing groove, and hold the inside equidistance fixedly connected with telescopic link 1102 of groove 1101, telescopic link 1102 other end fixedly connected with limiting plate 1103, and limiting plate 1103 top fixedly connected with inclined flitch 1104, limiting plate 1103 one end fixedly connected with fixed block 1105, and fixed block 1105 one end fixed rotation is connected with screw rod 1106, base 1 one end corresponds screw rod 1106 position fixedly connected with fixed

plate

1107, 2 one end of standing groove corresponds 8 top position fixedly connected with extension plate 1108 of push pedal, and extension plate 1108 top avris position department sliding connection has last locating piece 1109, locating piece 1110 under the corresponding locating piece 1109 avris position department fixedly connected with in push pedal 8 top, it is the slope setting with lower locating piece 1110 to go up locating piece 1109.

The working principle and the using process of the invention are as follows: in the process of using a concrete pipe pile material manufacturing and pouring system capable of improving the quality of finished products, firstly, sand and stones to be mixed are sent into an iron removing box 2002 through a conveyor 2001, the sand and the stones fall on a blanking plate 2005, meanwhile, a rotating motor 2008 is started, the rotating motor 2008 drives a rotating shaft 2009 and a rotating plate 2010 to rotate, so that the rotating plate 2010 pushes a fixed plate 2011, the fixed plate 2011 drives a blanking plate 2005 to move, when the rotating plate 2010 rotates away, a movable rod 2004 drives the blanking plate 2005 to reset through the matching of a tensioning spring 2007 and a stop dog 2006, the next movable plate 2010 further continues to push the fixed plate 2011, the operation is repeated, the blanking plate is continuously driven to swing left and right, the sand and the stones are overturned, iron in the sand and the stones is conveniently adsorbed by a magnetic plate 2018, when the iron on the magnetic plate 2018 is excessively adsorbed, a pushing block 2021 is pushed, the pushing block 2021 drives a sliding plate 2023 and a scraping plate 2025 to move, meanwhile, the scraping plate 2025 is pushed to ascend through the telescopic characteristic of the second supporting spring 2024, so that the scraping plate 2025 is tightly attached to the magnetic plate 2018, iron on the magnetic plate 2018 is pushed into the drawer 2019, the iron absorption effect of the magnetic plate 2018 is ensured, and sand and stones after iron removal are stored on the collecting box 2012, so that the sand and stones in the collecting box 2012 are conveniently conveyed into the grinding cylinder 501;

a worker places the tubular pile bottom die 10 on the push plate 8, then rotates the screw rod 1106 according to the width of the tubular pile bottom die 10, so that the screw rod 1106 pushes the fixed block 1105 to move, the distance between the fixed block 1105 and the fixed plate 1107 is adjusted, meanwhile, the distance between the limiting plate 1103 and the inner wall of the placing groove 2 is adjusted through the matching of the telescopic rod 1102, so that the distance between the two limiting plates 1103 is adjusted, the tubular pile bottom die 10 is limited, the situation that the tubular pile bottom die 10 cannot deviate when the push plate 8 drives the tubular pile bottom die 10 to slide into the placing groove 2 is avoided, when the push plate slides into the placing groove 2, the upper positioning block 1109 slides and rises along the inclined plane of the lower positioning block 1110, the lower positioning block 1110 is conveniently fixed through the upper positioning block 1109, the position of the push plate 8 is;

then, the driving motor 404 drives the driving rods 402 to rotate, the two driving rods 402 are moved to drive the worm 401 to rotate through the matching of the first belt 403, so that the worm wheel 406 is pushed to rotate, the worm wheel 406 drives the moving platform 405 to move along the notch 3, the blanking position is adjusted, meanwhile, the bearing wheel 408 supports the moving platform 405, the friction between the moving platform 405 and the base 1 is reduced, the moving effect is improved, and meanwhile, the moving platform 405 is prevented from deviating during moving through the matching of the guide rail 409;

when the worm wheel 406 pushes the moving table 405 to move, the worm gear 613 is driven to rotate, power generated when the moving table 405 moves is transmitted through the matching of the driven wheel 611, the driving wheel 614 and the second belt 615, so that the rotating rod 609 is driven to rotate, meanwhile, the sleeve 606 is driven to rotate through the transmission of the bevel gear 610, so that the sleeve 606 further drives the movable rod 603 to rotate through the matching of the clamping groove 607 and the clamping block 608, and further the movable rod 603 drives the driving block 602 to rotate, in addition, the annular plate 604 is driven through the telescopic characteristic of the first supporting spring 605, so that the annular plate 604 drives the movable rod 603 to move along the sleeve 606, the driving block 602 is forced to be tightly attached to the grinding block 508, and the grinding block 508 is conveniently driven to rotate through the driving block 602;

while the grinding block 508 is rotating, sand and stone inside the collection box 2012 is scooped into the feed pipe 502 by the operator, thereby entering the interior of the milling drum 501 and being guided by the guide frame 503, causing the sand and the stones to slide into the interior of the milling bowl 509, the grinding block 508 rotates to grind the sand and the stone, so that the sand and the stone are more delicate, the mixing effect of the sand, the stone and the cement is improved, when the ground sand and stone fall onto the inclined screen 504 through the grinding groove 509, the ground sand and stone are filtered by the inclined screen 504, so that the fine sand and stone pass through the inclined screen 504 and enter the mixing drum 411 for mixing, the sand and the stones with larger volume slide on the material receiving disc 505 along the inclined filter screen 504, the transmission auger 511 is driven to rotate by the rotating rod 506, the sand and the stones stored on the material receiving disc 505 are sent back to the grinding groove 509 along the feeding channel 510 again for repeated grinding, and the grinding effect of the sand and the stones is improved;

after the ground sand and stone enter the stirring cylinder 411, water and cement are fed into the stirring cylinder 411 through a water inlet pipe, the stirring blades are driven by the rotating rod 506 to rotate and stir, the mixing effect of concrete is improved, the mixed concrete is stored in the blanking box 412, the connecting wheel 415 is driven by the bearing wheel 408 to rotate, the connecting wheel 415 drives the connecting rod 414 to rotate, and therefore the cross-shaped material baffle 413 in the blanking box 412 is driven by the connecting rod 414 to rotate, the concrete is discharged and poured into the tubular pile bottom die 10;

after pouring the completion, roll out locating pin 703, conveniently with movable block 702 roll-off circular slot 701, thereby make movable block 702 drive arc 705 through arc connecting plate 707 and remove, make arc 705 shrink along flexible groove 704, drive the shrink of elastic rubber circle 706, the external diameter of elastic rubber circle 706 has been reduced, make elastic rubber circle 706 and bearing wheel 408 separation, avoid fifth wheel 415 to rotate, and then when not needing the unloading, cross striker plate 413 has been fixed, make cross striker plate 413 seal off workbin 412, the removal of mobile station 405 has been made things convenient for, avoid the concrete to spill simultaneously.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a can improve concrete pipe pile system material filling system of finished product quality which characterized in that: the device comprises an iron removal device (20) and a filling device (200), wherein iron in sand and stone is removed through the iron removal device (20), then the sand and stone are sent into the filling device (200), the sand and stone are mixed into concrete through the filling device (200), and the concrete is filled in a pipe pile mould;

the iron removing device (20) comprises a conveyor (2001), an iron removing box (2002), a magnetic suction chamber (2003), a movable rod (2004), a blanking plate (2005), a stop block (2006), a tension spring (2007), a rotating motor (2008), a rotating shaft (2009), a rotating plate block (2010), a fixed plate block (2011), a collecting box (2012), a fixed frame (2013), a cylinder (2014), a piston rod (2015), a magnetic suction box (2016), a placing groove (2017), a magnetic plate (2018), a drawer (2019), a sliding groove (2020), a push block (2021), a sliding plate (2022), an embedded groove (2023), a second support spring (2024) and a scraper blade (2025);

one end of the conveyor (2001) is fixedly connected with an iron removing box (2002), a magnetic suction cavity (2003) is formed in the iron removing box (2002), the inner wall of the magnetic suction cavity (2003) is connected with movable rods (2004) in an equidistant sliding mode, two ends of each movable rod (2004) penetrate through two ends of the iron removing box (2002) respectively, a blanking plate (2005) is sleeved at the outer end of each movable rod (2004) corresponding to the inner position of the magnetic suction cavity (2003), two ends of each movable rod (2004) corresponding to the outer side position of the iron removing box (2002) are fixedly connected with a stop block (2006) respectively, a tensioning spring (2007) is sleeved at the outer end of each movable rod (2004) corresponding to the inner side position of each stop block (2006), a rotating motor (2008) is fixedly connected at the position, corresponding to the bottom of the conveyor (2001), an output shaft of each rotating motor (2008) is connected with a rotating shaft (2009), and one end of each rotating shaft (2009) penetrates, the outer end of the rotating shaft (2009) is fixedly connected with rotating plates (2010) at equal intervals, the bottom end of the blanking plate (2005) is fixedly connected with a fixed plate (2011) at a position corresponding to the side of the rotating plates (2010), the other end of the iron removing box (2002) is fixedly connected with a collecting box (2012) at a position corresponding to the bottom of the blanking plate (2005), and the input end of the rotating motor (2008) is electrically connected with the output end of an external power supply;

the iron removing box is characterized in that a fixed frame (2013) is fixedly connected to the top end of the iron removing box (2002), a cylinder (2014) is fixedly connected to the middle position of the top end of the fixed frame (2013), a piston rod (2015) is fixedly connected to the bottom end of the cylinder (2014), a magnetic absorption box (2016) is fixedly connected to the outer end of the piston rod (2015), a placement groove (2017) is formed in the bottom end of the magnetic absorption box (2016), a magnetic plate (2018) is fixedly connected to the top end of the placement groove (2017), a drawer (2019) is slidably connected to the position, corresponding to the magnetic plate (2018), of the placement groove (2017), a sliding groove (2020) is formed in the position, corresponding to the sliding groove (2020), of the two ends of the magnetic absorption box (2016), a push block (2021) is slidably connected to the position of the sliding groove (2020), and a sliding plate (2022) is slidably clamped to the position of the corresponding, an embedded groove (2023) is formed in the top end of the sliding plate (2022), second supporting springs (2024) are fixedly connected to the inside of the embedded groove (2023) at equal intervals, and a scraper (2025) is fixedly connected to the position, corresponding to the top of the second supporting springs (2024), of the inside of the embedded groove (2023).

2. The concrete pipe pile material-making and pouring system capable of improving the quality of finished products according to claim 1, is characterized in that: the filling device (200) comprises a base (1), a placing groove (2) is formed in the middle of the base (1), a push plate (8) is connected to the inside of the placing groove (2) in a sliding clamping mode, and a tubular pile bottom die (10) is fixedly connected to the top end of the push plate (8) through a supporting plate (9);

notches (3) are symmetrically formed in the positions, corresponding to the two sides of the placing groove (2), of the top end of the base (1), and a walking and material conveying mechanism (4) is rotatably connected inside the notches (3), so that the position can be adjusted conveniently, and the pouring effect is guaranteed;

the top end of the walking material conveying mechanism (4) is fixedly connected with a material composite crushing mechanism (5), so that better matching is realized, and the quality of concrete is improved;

the power transmission mechanism (6) is embedded in the material composite crushing mechanism (5), so that the grinding effect is guaranteed, the utilization rate of energy is increased, and waste is avoided.

3. The concrete pipe pile material-making and pouring system capable of improving the quality of finished products according to claim 2, is characterized in that: the walking and material conveying mechanism (4) comprises a worm (401), a transmission rod (402), a first belt (403), a driving motor (404), a moving platform (405), a turbine (406), a connecting plate (407), a bearing wheel (408), a guide rail (409), a bracket (410), a mixing drum (411), a blanking box (412), a cross material baffle (413), a connecting rod (414) and a connecting wheel (415);

worms (401) are rotatably connected inside the two notches (3), transmission rods (402) are symmetrically and rotatably connected at positions corresponding to the worms (401) at one end of the base (1), first belts (403) are sleeved at the outer ends of the two transmission rods (402), and the outer end of one transmission rod (402) is fixedly connected with a driving motor (404) corresponding to the outer side position of the first belt (403), the top of the base (1) is symmetrically connected with a mobile station (405) in a sliding way at the position corresponding to the notch (3), a worm wheel (406) is rotatably connected at the bottom end of the mobile station (405) corresponding to the position of the worm (401), a connecting plate (407) is fixedly connected at the middle position of one end of the mobile station (405), one end of the connecting plate (407) is rotatably connected with a bearing wheel (408), and the positions of the two ends of the base (1) corresponding to the bearing wheels (408) are fixedly connected with guide rails (409);

the utility model discloses a mobile station, including mobile station (405) top fixedly connected with support (410), support (410) bottom fixedly connected with churn (411), and churn (411) bottom fixedly connected with unloading case (412), unloading case (412) inside rotation is connected with cross striker plate (413), and unloading case (412) both ends correspond cross striker plate (413) axle center position department and rotate and be connected with connecting rod (414), connecting rod (414) outer end corresponds bearing wheel (408) top position department fixedly connected with fifth wheel (415).

4. The concrete pipe pile material pouring system capable of improving the quality of finished products according to claim 3, is characterized in that: turbine (406) bottom is connected with worm (401) top meshing, there are two respectively bearing wheel (408) and fifth wheel (415), churn (411) outer end top position department fixedly connected with inlet tube, the equal fixedly connected with travel switch of worm (401) top position department is corresponded at notch (3) inside both ends, and base (1) top avris position department fixedly connected with control panel, travel switch's output and control panel's input electric connection, control panel's output and the input electric connection of driving motor (404).

5. The concrete pipe pile material pouring system capable of improving the quality of finished products according to claim 3, is characterized in that: the material composite crushing mechanism (5) comprises a grinding cylinder (501), a feeding pipe (502), a material guide frame (503), an inclined filter screen (504), a material receiving disc (505), a rotating rod (506), a transverse plate (507), a grinding block (508), a grinding groove (509), a feeding channel (510) and a conveying auger (511);

the grinding device is characterized in that a grinding cylinder (501) is fixedly connected to the top end of the support (410), a feeding pipe (502) is fixedly connected to the top end central position of the grinding cylinder (501), a guide frame (503) is fixedly connected to the top end top position of the inner wall of the grinding cylinder (501), an inclined filter screen (504) is fixedly connected to the bottom position of the guide frame (503) corresponding to the inside of the grinding cylinder (501), a material receiving disc (505) is fixedly connected to the central position of the inclined filter screen (504), a rotating rod (506) is rotatably connected to the top end central position of the material receiving disc (505), a transverse plate (507) is fixedly connected to the top end top position of the rotating rod (506), a grinding block (508) is fixedly connected to the outer end of the transverse plate (507), a grinding groove (509) is formed in the middle position between the grinding block (508) corresponding to the inside of the grinding cylinder (501) and the guide frame (503), and dwang (506) outer end corresponds pay-off passageway (510) internal position department fixedly connected with and carries auger (511), grind a section of thick bamboo (501) bottom and churn (411) top intercommunication, dwang (506) bottom is run through take-up (505) bottom, and dwang (506) outer end corresponds churn (411) internal position department and rotates and be connected with the stirring leaf, it is the toper to pulverize groove (509), and the width of its inner wall from top to bottom progressively diminishes.

6. The concrete pipe pile material pouring system capable of improving the quality of finished products according to claim 5, is characterized in that: the power transmission mechanism (6) comprises a transmission chamber (601), a transmission block (602), a movable rod (603), an annular plate (604), a first supporting spring (605), a sleeve (606), a clamping groove (607), a clamping block (608), a rotating rod (609), a bevel gear (610), a driven wheel (611), a rectangular groove (612), a transmission worm (613), a driving wheel (614) and a second belt (615);

a transmission cavity (601) is formed in the material guide frame (503), a transmission block (602) is connected to the side position of the bottom end of the transmission cavity (601) in a transmission mode, a movable rod (603) is fixedly connected to the middle position of the top end of the transmission block (602), annular plates (604) are sleeved on the top and the bottom positions of the outer end of the movable rod (603), a first supporting spring (605) is fixedly connected to the adjacent end of each of the two annular plates (604), a sleeve (606) is rotatably sleeved on the top of the outer end of the movable rod (603) corresponding to the top position of the annular plate (604), the top end of the sleeve (606) is rotatably connected with the bottom end of the transmission cavity (601), clamping grooves (607) are formed in the inner wall of the sleeve (606) at equal intervals, and clamping blocks (608) are fixedly connected to the outer;

the outer end of the rolling cylinder (501) is rotatably connected with a rotating rod (609) at the position corresponding to the sleeve (606), the outer ends of the rotating rod (609) and the sleeve (606) are fixedly connected with a bevel gear (610), the two bevel gears (610) are meshed and connected with each other, the outer end of the rotating rod (609) is fixedly connected with a driven wheel (611) corresponding to the outer side position of the rolling cylinder (501), a rectangular groove (612) is formed in the position, corresponding to the top of the turbine (406), of the outer end of the mobile station (405), a transmission worm (613) is rotatably connected inside the rectangular groove (612), and the two ends of the mobile station (405) are respectively connected with a driving wheel (614) in a rotating way at the positions corresponding to the transmission worm (613), the outer ends of the driving wheel (614) and the driven wheel (611) are sleeved with a second belt (615), the position of the material guide frame (503), which corresponds to the transmission block (602), is provided with a groove, and the transmission block (602) penetrates through the groove and is attached to the grinding block (508).

7. The concrete pipe pile material pouring system capable of improving the quality of finished products according to claim 6, is characterized in that: the round platform setting is regarded as to transmission piece (602), the inclination on transmission piece (602) inclined plane equals with the inclination on grinding block (508) inclined plane, and the inclined plane of transmission piece (602) closely laminates with the inclined plane of grinding block (508), transmission worm (613) bottom is connected with turbine (406) top end intermeshing, transmission worm (613) run through mobile station (405) and action wheel (614) fixed connection.

8. The concrete pipe pile material pouring system capable of improving the quality of finished products according to claim 3, is characterized in that: one end of the connecting wheel (415) is movably connected with an adjusting material stopping mechanism (7), and the adjusting material stopping mechanism (7) comprises a circular groove (701), a movable block (702), a positioning pin (703), a telescopic groove (704), an arc-shaped plate (705), an elastic rubber ring (706) and an arc-shaped connecting plate (707);

a circular groove (701) is formed in the middle of one end of the connecting wheel (415), a movable block (702) is sleeved in the circular groove (701) in a sliding mode, one end of the movable block (702) is connected with a positioning pin (703) through threads, telescopic grooves (704) are formed in the outer end of the connecting wheel (415) at equal intervals, an arc-shaped plate (705) is connected in the telescopic grooves (704) in a sliding and clamping mode, an elastic rubber ring (706) is sleeved on the outer end of the arc-shaped plate (705), an arc-shaped connecting plate (707) is rotatably connected to the side position of the inner wall of the arc-shaped plate (705), and the other end of the arc-shaped connecting plate (707);

the bottom end of the elastic rubber ring (706) is attached to the top end of the bearing wheel (408), and the positioning pin (703) penetrates through the movable block (702) and is connected with the inside of the circular groove (701) through threads.

9. The concrete pipe pile material-making and pouring system capable of improving the quality of finished products according to claim 2, is characterized in that: the inner wall of the placing groove (2) is symmetrically and movably connected with a limiting fixing and material blocking mechanism (11), and the limiting fixing and material blocking mechanism (11) comprises a containing groove (1101), an expansion rod (1102), a limiting plate (1103), an inclined material plate (1104), a fixing block (1105), a screw (1106), a fixing plate (1107), an extension plate (1108), an upper positioning block (1109) and a lower positioning block (1110);

the inner wall of the placing groove (2) is symmetrically provided with accommodating grooves (1101), telescopic rods (1102) are fixedly connected to the inside of the accommodating grooves (1101) at equal intervals, the other ends of the telescopic rods (1102) are fixedly connected with limiting plates (1103), the top ends of the limiting plates (1103) are fixedly connected with inclined plates (1104), one ends of the limiting plates (1103) are fixedly connected with fixing blocks (1105), one ends of the fixing blocks (1105) are fixedly and rotatably connected with screws (1106), and fixing plates (1107) are fixedly connected to positions, corresponding to the screws (1106), of one ends of the bases (1);

standing groove (2) one end corresponds push pedal (8) top position department fixedly connected with extension plate (1108), and extension plate (1108) top avris position department sliding connection has last locating piece (1109), locating piece (1110) under locating piece (1109) avris position department fixedly connected with are gone up in push pedal (8) top correspondence, it is the slope setting with lower locating piece (1110) to go up locating piece (1109).