CN112248215A - Die opening and closing-free telegraph pole production system - Google Patents

Abstract

The utility model relates to an exempt from compound die wire pole production system that opens and shuts, still include the mould sleeve pipe, be arranged in inserting the steel reinforcement cage in the mould sleeve pipe, be arranged in inserting feed mechanism, concrete casting mechanism and demoulding mechanism in the mould sleeve pipe with the steel reinforcement cage, be equipped with on the support one and be used for centre gripping mould sheathed tube clamping device, the equal coaxial fixedly connected with hollow ring flange in mould sheathed tube both ends, this application is through the complete mould sleeve pipe of customization and add to weld the race wheel and make into the integer mould. With spray rod stretch into the mould during production and spray the release agent, again, utilize the dolly to push away the steel reinforcement cage to the mould in, after pouring into the mould into the concrete, centrifugation, maintenance shaping, recycle the pneumatic cylinder and push away the wire pole, order about one section that the wire pole breaks away from behind the mould and fall into on the removal sweep, the removal sweep wire pole displacement forward realizes the drawing of patterns work of wire pole to have the effect of improving the drawback that uses lower mould and last mould production pole to bring.

Description

Die opening and closing-free telegraph pole production system

Technical Field

The application relates to the field of concrete hollow products, in particular to an opening-free die telegraph pole production system.

Background

At present when the pole production, need use the pole mould, and mould and lower mould are generally adopted to present pole mould, during production, pouring concrete in the lower mould, then will go up the mould lock on the lower mould through the transport means, then will go up mould and lower mould through the bolt fixed.

To the above-mentioned correlation technique, the inventor thinks that, because the mould has certain gravity, regardless of compound die or die sinking, all be time consuming and energy consuming, the pole that produces simultaneously receives the cooperation degree influence of mould and lower mould great, and the pole integrity that produces is not very high, and deposits mould and lower mould separately, and occupation space is great, increases construction cost.

Disclosure of Invention

In order to improve the drawback that uses lower mould and last mould production pole to bring, this application provides an exempt from compound die wire pole production system.

The application provides a exempt from to open and shut compound die wire pole production system adopts following technical scheme:

the utility model provides an exempt from compound die wire pole production system, includes support one, still includes the mould sleeve pipe, is arranged in inserting the steel reinforcement cage in the mould sleeve pipe, is used for with the steel reinforcement cage inserts feed mechanism, release agent spraying mechanism, concrete placement mechanism in the mould sleeve pipe and be used for driving the pole after the shaping and break away from mould sheathed tube driving piece one, mould sleeve pipe length direction follows a support length direction sets up, be equipped with on support one and be used for the centre gripping mould sheathed tube clamping device, the equal coaxial fixedly connected with hollow flange dish in mould sheathed tube both ends.

By adopting the technical scheme, when the electric pole is produced, the mould sleeve is used for clamping the column through the clamping device, a release agent is sprayed in the mould sleeve, then the manufactured reinforcement cage is sent into the mould sleeve through the feeding mechanism, then the end, far away from the smaller end, of the mould sleeve is sealed by the solid flange, concrete is poured in the mould sleeve through the concrete pouring mechanism, after pouring is finished, the other end of the sleeve mould is sealed by the solid flange, then the mould sleeve is transported to a centrifugation and maintenance process through a crane, and after maintenance is finished, the formed electric pole is driven to be separated from the mould sleeve through the driving piece I; this production mode adopts integrated into one piece's mould sleeve pipe, need not compound die and die sinking, and is simple and convenient, and the pole integrity that produces is higher.

Optionally, the clamping device includes two clamping plates, the clamping device includes two movable frames three installed on the first support, the three shortest connecting lines of the two movable frames are arranged along the length direction of the first support, the movable frames three are connected with two clamping plates used for clamping the mold sleeve in a sliding manner along the width direction of the first support, and the first support is provided with a first driving assembly used for driving the two clamping plates to approach or keep away from each other.

By adopting the technical scheme, when the mold sleeve is clamped, the mold sleeve is placed between the two clamping plates, and then the two clamping plates are driven to be close to each other through the first driving assembly to clamp the mold sleeve; the clamping device can adapt to die sleeves of different sizes to a certain extent.

Optionally, the first driving assembly comprises a first motor and a first bidirectional screw rod, the first bidirectional screw rod is rotatably connected to the first support, the first bidirectional screw rod rotates to drive the two clamping plates to be close to or away from each other, and the first motor is used for driving the first bidirectional screw rod to rotate.

Through adopting above-mentioned technical scheme, when two splint of drive are close to each other or keep away from, start motor one, drive two-way lead screw and rotate to can drive two splint and be close to each other or keep away from, this drive assembly two-way lead screw has certain limit function, can restrict splint in a certain position to a certain extent.

Optionally, feed mechanism is including removing a first and removing a second, remove a first and be located the mould sleeve pipe with remove between the second, remove a first with remove a second and all follow a support length direction sliding connection is in on the support, be equipped with on removing a first and be used for the drive remove a gliding drive assembly two, be equipped with on removing a second and be used for the drive remove two gliding drive assembly three of frame, it has along vertical direction sliding connection on the frame one and is used for supporting the support frame one of steel reinforcement cage, it is used for the drive to remove to be equipped with on the frame one the driving piece two that slides and fix a position of support frame, it is used for promoting to be equipped with on the frame two the support frame two that the steel reinforcement cage removed.

By adopting the technical scheme, when the reinforcement cage is conveyed into the mold sleeve, the reinforcement cage is placed on the first support frame and the second support frame, then the first moving frame and the second moving frame are respectively driven by the second driving component and the third driving component to simultaneously move towards the mold sleeve until the first moving frame abuts against the mold sleeve, at the moment, the reinforcement cage is partially inserted into the mold sleeve, the first support frame is driven to descend by the second driving component, then the first moving frame is driven to move towards the second moving frame by the second driving component until the first moving frame moves to a proper position, then the first support frame is driven to ascend by the second driving component until the first support frame supports the reinforcement cage, then the first moving frame and the second moving frame are driven to simultaneously move towards the mold sleeve by the second driving component and the third driving component, and the operation is repeated until the reinforcement cage is completely inserted into the mold sleeve; the feeding mechanism is simple in structure and convenient to operate.

Optionally, drive assembly two includes motor two and gear one, it is connected with dwang one to rotate on the removal frame one, dwang one axis of rotation sets up along a width direction of support, the equal coaxial fixedly connected with gyro wheel one in dwang both ends, an gyro wheel butt is in support one is last, a coaxial fixedly connected with gear two of dwang, two fixed connection of motor are in remove on the frame one, the coaxial fixed connection of two output shafts of motor gear one, gear one with the meshing of gear two is connected.

By adopting the technical scheme, when the first driving moving frame moves, the second motor is started to drive the first gear to rotate, so that the second gear is driven to rotate, the second gear rotates to drive the rotating rod to rotate, the roller is driven to rotate, the roller is abutted against the first support, so that the first roller is driven to move, and the second driving assembly is simple in structure and convenient to operate.

Optionally, the driving member two is a cylinder one.

By adopting the technical scheme, when the first support frame is driven to vertically move, the first air cylinder is started; the second driving part has fast action and good action effect.

Optionally, the pouring mechanism includes the pump station, pump station intercommunication and fixedly connected with concrete pump, concrete pump discharge mouth intercommunication and fixedly connected with material loading pipe, remove a third edge support length direction sliding connection in on the support one, be equipped with on the removal frame three and be used for the drive remove three gliding drive assembly four of frame.

Through adopting above-mentioned technical scheme, during the pouring concrete, remove a removal through drive assembly four-wheel drive, drive the mould sleeve pipe and remove under clamping device's effect, until the material loading pipe inserts the mould sleeve pipe and keep away from the one end that removes a, then open the concrete delivery pump, pour into the concrete in the pump station into the mould sleeve pipe, then keep away from the mould sleeve pipe gradually through drive assembly four-wheel drive mould sleeve pipe can.

Optionally, the first driving member is a hydraulic cylinder.

By adopting the technical scheme, when the molded electric pole is pushed out of the die sleeve, the flange plates at the two ends of the die sleeve are taken down, and then the hydraulic cylinder is started to push the electric pole to be separated from the die sleeve; meanwhile, the first support frame and the second support frame can be used for supporting the formed electric pole.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the mold sleeve is integrally formed, mold closing and mold opening are not needed, the mold is simple and convenient, and the integrity of the produced electric pole is higher;

2. this application is through opening the pneumatic cylinder, promotes the pole and breaks away from the mould sleeve pipe to can be used for supporting the pole after the shaping through support frame one and support frame two.

Drawings

Figure 1 is a schematic diagram of the overall architecture of a mold-free utility pole production system according to an embodiment of the present application;

FIG. 2 is a first partial schematic view of the structure of FIG. 1;

FIG. 3 is a second partial schematic view of FIG. 1;

FIG. 4 is a schematic view of the overall structure of the buckle of FIG. 3;

FIG. 5 is a schematic view of a bottom structure of the first movable frame in FIG. 3;

FIG. 6 is a schematic bottom structure view of the second movable frame in FIG. 3;

FIG. 7 is a partial structural view of the bracket II in FIG. 3;

FIG. 8 is a schematic view of the bottom structure of the movable frame IV in FIG. 7;

FIG. 9 is an enlarged schematic view of area A of FIG. 7;

FIG. 10 is a schematic view of the bottom surface of the base plate of FIG. 2;

fig. 11 is a schematic view of the structure of the bottom of the movable frame in fig. 2.

Description of reference numerals: 1. a first bracket; 2. a mold sleeve; 3. running wheels; 4. a hollow flange plate; 5. a reinforcement cage; 6. buckling; 7. a pulley; 8. a third movable frame; 9. a splint; 10. a slide bar; 11. a first slide rail; 12. a moving groove; 13. a first driving component; 14. a first motor; 15. a bidirectional screw rod; 16. a second slide rail; 17. a first movable frame; 18. a second moving frame; 19. rotating the first rod; 20. a first roller; 21. a first sliding chute; 22. a second gear; 23. a second driving component; 24. a second motor; 25. a first gear; 26. rotating the second rod; 27. a second roller; 28. a fourth gear; 29. a third driving component; 30. a third motor; 31. a third gear; 32. a first support frame; 33. a first cylinder; 34. a second support frame; 35. an arc-shaped slot; 36. a positioning ring; 37. a second bracket; 38. a fourth moving frame; 39. a third slide rail; 40. a second chute; 41. rotating the rod IV; 42. a fourth roller; 43. eighth gear; 44. a fifth driving component; 45. a sixth motor; 46. a seventh gear; 47. a water tank; 48. a water pump; 49. an atomizing spray head; 50. spraying a hole; 51. a fixed mount; 52. a second air cylinder; 53. a support plate; 54. a base plate; 55. a fourth slide rail; 56. a third chute; 57. rotating the rod five; 58. a fifth roller; 59. ten gears; 60. a driving assembly six; 61. a seventh motor; 62. a ninth gear; 63. a third air cylinder; 64. a support table; 65. a pump station; 66. a concrete delivery pump; 67. feeding pipes; 68. rotating the rod III; 69. a third roller; 70. driving assembly four; 71. a fourth motor; 72. a fifth gear; 73. a sixth gear; 74. a third bracket; 75. a hydraulic cylinder; 76. moving the sweep; 77. a communication pipe is provided.

Detailed Description

The present application is described in further detail below with reference to figures 1-11.

The embodiment of the application discloses a die-opening-free telegraph pole production system. Referring to fig. 1 and 2, this production system includes support 1, and support 1 is rectangular shape, still includes mould sleeve pipe 2, and mould sleeve pipe 2 is used for placing on support 1 along support 1 length direction, and mould sleeve pipe 2 is the round platform shape, and coaxial cover is established and is welded on 2 outer walls of mould sleeve pipe has a plurality of running wheels 3, and a plurality of running wheels 3 are the equidistance setting along 2 length direction of mould sleeve pipe, and the equal coaxial fixedly connected with hollow flange dish 4 in 2 both ends of mould sleeve pipe.

Referring to fig. 1 and 3, the production system further includes a reinforcement cage 5, the reinforcement cage 5 is adapted to be inserted into the mold sleeve 2, and the reinforcement cage 5 has a truncated cone shape.

Referring to fig. 3 and 4, be equipped with 6 groups of multiunit buckle along its length direction equidistance on the 5 outer walls of steel reinforcement cage, 6 groups of every group buckle are a plurality of buckles 6 along 5 circumference equidistance joints of steel reinforcement cage, and fixedly connected with is used for the pulley 7 of butt mould sleeve 2 inner walls on buckle 6.

Referring to fig. 2, two moving frames three 8 are slidably connected to the first bracket 1 along the length direction thereof, clamping devices for clamping the mold sleeve 2 are respectively arranged on the two moving frames three 8, each clamping device comprises two oppositely arranged clamping plates 9, the shortest connecting line of the two clamping plates 9 is arranged along the width direction of the first bracket 1, the clamping plates 9 are slidably connected to the moving frames three 8 along the width direction of the first bracket 1, the clamping plates 9 are arc-shaped, and the convex parts of the two clamping plates 9 are mutually far away, the two clamping plates 9 are mutually matched to clamp the mold sleeve 2, the lower ends of the clamping plates 9 are fixedly connected with sliding rods 10, the upper surface of the movable frame III 8 is slidably connected with sliding rails I11 along the width direction, the bottom surfaces of the sliding rails I11 are square, the sliding rails I11 abut against the upper surface of the support I1, the sliding rails I11 are provided with moving grooves 12 for the sliding of the sliding rods 10 along the length direction of the sliding rails I11, and the bottom surfaces of the sliding rods 10 are square and abut against the bottom surfaces.

Be equipped with the drive assembly 13 that is used for driving two splint 9 and is close to each other or keep away from on the slide rail 11, drive assembly 13 includes motor one 14 and two-way lead screw 15, two-way lead screw 15 sets up along splint 9 slip direction, two-way lead screw 15 rotates to be connected on slide rail one 11, two slide bars 10 are worn out simultaneously to two-way lead screw 15, and two slide bars 10 threaded connection are on two sections reverse thread line of two-way lead screw 15 respectively, motor one 14 passes through screw fixed connection on slide rail one 11, the coaxial fixed connection of motor one 14 output shaft is in the one end of two-way lead screw 15.

Referring to fig. 2 and 3, the production system further comprises a feeding mechanism for inserting the reinforcement cage 5 into the mold sleeve 2, the upper surface of the first support 1 is fixedly connected with two slide rails 16 which are oppositely arranged along the length direction, the feeding mechanism comprises a first movable frame 17 and a second movable frame 18, the first movable frame 17 is located between the mold sleeve 2 and the second movable frame 18, and the first movable frame 17 and the second movable frame 18 are both connected to the second slide rails 16 in a sliding manner along the length direction of the first support 1.

Referring to fig. 3 and 5, the bottom surface of the first moving frame 17 is rotatably connected with a first rotating rod 19 along two ends of the first support 1 in the length direction, the rotating axis of the first rotating rod 19 is arranged along the width direction of the first support 1, two ends of the first rotating rod 19 are coaxially and fixedly connected with a first roller 20, a first sliding groove 21 for the first roller 20 to slide is formed in the side wall, opposite to the second sliding rail 16, of the first sliding rail, the first roller 20 is inserted into the first sliding groove 21, the first roller 20 abuts against the upper surface and the lower surface of the first sliding groove 21, and a second rotating rod 19 is coaxially and fixedly connected.

The first moving frame 17 is provided with a second driving assembly 23 used for driving the first moving frame 17 to slide, the first driving assembly 13 comprises a second motor 24 and a first gear 25, the second motor 24 is fixedly connected to the bottom surface of the first moving frame 17 through screws, an output shaft of the second motor 24 is coaxially and fixedly connected with the first gear 25, and the first gear 25 is meshed with the second gear 22.

Referring to fig. 3 and 6, the two ends of the bottom surface of the second moving frame 18 along the length direction of the first support 1 are rotatably connected with a second rotating rod 26, the rotating axis of the second rotating rod 26 is arranged along the width direction of the first support 1, the two ends of the second rotating rod 26 are coaxially and fixedly connected with a second roller 27, the second roller 27 is inserted into the first sliding groove 21, the second roller 27 abuts against the upper surface and the lower surface of the first sliding groove 21, and the second rotating rod 26 is coaxially and fixedly connected with a fourth gear 28.

The second moving frame 18 is provided with a third driving assembly 29 for driving the second moving frame 18 to slide, the third driving assembly 29 comprises a third motor 30 and a third gear 31, the third motor 30 is fixedly connected to the bottom surface of the second moving frame 18 through screws, an output shaft of the third motor 30 is coaxially and fixedly connected with the third gear 31, and the third gear 31 is meshed with the fourth gear 28.

Referring to fig. 3, there is a support frame 32 that is used for supporting steel reinforcement cage 5 along vertical direction sliding connection on removing frame one 17, support frame one 32 is the arc, support frame one 32 bulge is downward, support frame one 32 and steel reinforcement cage 5 looks adaptation, it is used for driving piece two that the support frame slides and fix a position to be equipped with on removing frame one 17, driving piece two is cylinder one 33, cylinder one 33 passes through screw fixed connection at removing frame one 17 lower surface along vertical direction, cylinder one 33 piston rod wears out and removes frame one 17 fixed connection support frame one 32 salient end lower surface.

When the piston rod of the first cylinder 33 is not extended, the height of the first support frame 32 is smaller than the height of the hollow flange 4 at one end of the mould sleeve 2 close to the first moving frame 17, and the first moving frame 17 can move to the lower part of the mould sleeve 2, so that the second moving frame 18 can completely push the reinforcement cage 5 into the mould sleeve 2.

The second support frame 34 used for pushing the reinforcement cage 5 to move is arranged on the second moving frame 18, an arc-shaped groove 35 used for placing the reinforcement cage 5 is formed in the upper surface of the second support frame 34, one side, close to the first moving frame 17, of the arc-shaped groove 35 is arranged in a penetrating mode, and the other side of the arc-shaped groove 35 is fixedly connected with a positioning ring 36 used for pushing the reinforcement cage 5.

Referring to fig. 7 and 8, the production system further comprises a release agent spraying mechanism, a second support 37 is integrally formed on one side of the first support 1 in the width direction, the heights of the second support 37 and the upper surface of the first support 1 are consistent, the spraying mechanism comprises a fourth moving frame 38, a third sliding rail 39 is fixedly connected to the second support 37 along the length direction of the second support, two opposite side walls of the third sliding rail 39 are respectively provided with a second sliding groove 40 along the length direction of the third sliding rail, the fourth moving frame 38 is slidably connected to the second support 37 along the length direction of the second support 37, two ends of the bottom surface of the fourth moving frame 38 along the length direction of the second support 37 are respectively and rotatably connected with a fourth rotating rod 41, the rotating axis of the fourth rotating rod 41 is arranged along the width direction of the second support 37, two ends of the fourth rotating rod 41 are respectively and coaxially and fixedly connected with a fourth roller 42, the fourth roller 42 is inserted into the second sliding groove 40 and the, the fourth moving frame 38 is provided with a fifth driving assembly 44 for driving the fourth moving frame 38 to slide.

The driving assembly five 44 comprises a motor six 45 and a gear seven 46, the motor six 45 is fixedly connected to the bottom surface of the movable frame four 38 through screws, an output shaft of the motor six 45 is coaxially and fixedly connected with the gear seven 46, and the gear seven 46 is meshed with the gear eight 43.

Referring to fig. 7 and 9, a water tank 47 has been placed on the fourth moving frame 38, water tank 47 is used for storing the release agent, water tank 47 lower extreme intercommunication and fixedly connected with water pump 48, water pump 48 delivery port intercommunication and threaded connection have communicating pipe 77, communicating pipe 77 sets up along the second 37 length direction of support, communicating pipe 77 keeps away from water pump 48's one end fixedly connected with atomizer 49, the nozzle periphery wall has been seted up orifice 50, fixedly connected with mount 51 on communicating pipe 77, mount 51 lower extreme rotates and is connected with the universal wheel, the universal wheel is used for butt mould sleeve 2 inner wall.

The second cylinder 52 is fixedly connected to the second support 37 through screws, the second cylinder 52 is arranged in the vertical direction, a supporting plate 53 for abutting against the universal wheel is fixedly connected to the piston rod of the second cylinder 52 in a perpendicular mode, the supporting plate 53 is located between the mold and the fourth moving frame 38, when the second cylinder 52 is not stretched, the supporting plate 53 is lower than the fourth moving frame 38 in height, and one end, away from the fourth moving frame 38, of the upper surface of the supporting plate 53 is an arc-shaped convex surface.

Referring to fig. 2 and 10, a plurality of bottom plates 54 are slidably connected to the first bracket 1 along the width direction thereof, the first bracket 1 is fixedly connected with two oppositely-arranged slide rails four 55 along the width direction thereof, the slide rails two 16, the slide rails three 39 and the slide rails four 55 are communicated in a staggered manner, the slide rails four 55 extend to the second bracket 37, two opposite side walls of the slide rails four 55 are respectively provided with a slide groove three 56 along the length direction thereof, two ends of the bottom surface of the bottom plate 54 along the width direction of the first bracket 1 are respectively rotatably connected with a rotating rod five 57, the rotating axis of the rotating rod five 57 is arranged along the length direction of the first bracket 1, two ends of the rotating rod five 57 are respectively and coaxially and fixedly connected with a roller five 58, the roller five 58 is inserted into the slide groove three 56 and, one rotating rod five 57 is coaxially and fixedly connected with a gear ten 59, and a driving assembly six 60 for driving the moving frame five to slide is arranged on the moving frame five.

The driving assembly six 60 comprises a motor seven 61 and a gear nine 62, the motor seven 61 is fixedly connected to the bottom surface of the movable frame four 38 through screws, an output shaft of the motor seven 61 is coaxially and fixedly connected with the gear nine 62, and the gear nine 62 is meshed with the gear ten 59.

The bottom plate 54 is vertically and fixedly connected with a third air cylinder 63, the three air cylinders 63 are fixedly connected with a support platform 64 used for supporting the die sleeve 2 through telescopic rods, the cross section of the support platform 64 in the width direction is in an arc shape matched with the die sleeve 2, and the three air cylinders 63 drive the die sleeve 2 to ascend so as to be separated from the clamping plate 9.

Referring to fig. 1, the pouring mechanism includes a pump station 65, the pump station 65 is communicated with and fixedly connected with a concrete conveying pump 66, a discharge port of the concrete conveying pump 66 is communicated with and fixedly connected with a feeding pipe 67, the positioning ring 36 is used for the feeding pipe 67 to pass through, and during feeding, the first movable frame 17 and the second movable frame 18 are moved to the position of the pump station 65.

Referring to fig. 2 and 11, a third moving frame 8 is connected to a second sliding rail 16 in a sliding manner along the length direction of a first support 1, the bottom surface of the third moving frame 8 is connected with a third rotating rod 68 in a rotating manner along both ends of the length direction of the first support 1, the rotating axis of the third rotating rod 68 is arranged along the width direction of the first support 1, both ends of the third rotating rod 68 are fixedly connected with a third roller 69 coaxially, the third roller 69 is inserted into a first sliding groove 21 and the third roller 69 abuts against the upper surface and the lower surface of the first sliding groove 21, a sixth gear 73 is fixedly connected with the third rotating rod 68 coaxially, and a fourth driving assembly 70 for driving the third moving frame 8 to slide.

The driving assembly four 70 comprises a motor four 71 and a gear five 72, the motor four 71 is fixedly connected to the bottom surface of the moving frame three 8 through screws, an output shaft of the motor four 71 is coaxially and fixedly connected with the gear five 72, and the gear five 72 is meshed with the gear six 73.

Referring to fig. 1, the production system further includes a demolding mechanism, the demolding mechanism includes a third support 74, the third support 74 is used for supporting and clamping the mold sleeve 2, a first driving part for driving the molded electric pole to be separated from the mold sleeve 2 is arranged on the third support 74, the first driving part is a hydraulic cylinder 75, the hydraulic cylinder 75 is fixedly connected to the third support 74 through screws along the length direction of the third support 74, the hydraulic cylinder 75 is located at one end of the small diameter of the mold sleeve 2, the mold sleeve 2 and the hydraulic cylinder 75 are coaxial, a telescopic rod of the hydraulic cylinder 75 is penetrated by a hollow flange 4, the third support 74 is slidably connected with two movable vehicle plates 76 along the length direction of the third support, and the two movable vehicle plates 76 are respectively consistent with the first movable frame 17 and the second movable frame 18 in structure, so that when the hydraulic cylinder 75 pushes the electric pole to be demolded.

The implementation principle of the mold opening and closing-free telegraph pole production system in the embodiment of the application is as follows: when the mold sleeve 2 is used, the mold sleeve 2 is hung on the support platform 64 through a traveling crane, the smaller end of the mold sleeve 2 is controlled to be far away from the first moving frame 17, then the bottom plate 54 is driven to move to the second support frame 37 through the driving assembly six 60 until the mold sleeve 2 is aligned with the communicating pipe 77, then the fourth moving frame 38 is driven to move through the driving assembly five 44 until the communicating pipe 77 is inserted into the mold sleeve 2, after the spray head moves to the end, away from the fourth moving frame 38, of the mold sleeve 2, the water pump 48 is started, then the fourth moving frame 38 is driven to move through the driving assembly five 44 until the communicating pipe 77 is separated from the mold sleeve 2, the water pump 48 is closed, after the release agent is sprayed, the mold sleeve 2 is driven to move to the first support frame 1 through the driving assembly six 60, then the support platform 64 is driven to descend through the air cylinder three 63 until the mold sleeve 2 moves between the two clamping plates 9, and then, clamping the column by the mould sleeve 2, then hanging the reinforcement cage 5 provided with the buckle 6 on a first support frame 32 and a second support frame 34 by a travelling crane, controlling a positioning ring 36 on the reinforcement cage 5 to be inserted into an arc-shaped groove 35, then driving the reinforcement cage 5 to move by a second drive assembly 23 and a third drive assembly 29, driving the first support frame 32 to descend by a first air cylinder 33 when a first moving frame 17 moves to the position of the mould sleeve 2, then driving the first moving frame 17 to move close to the second support frame 34 by the second drive assembly 23, driving the first support frame 32 to support the reinforcement cage 5 by the first air cylinder 33, reciprocating in such a way until the reinforcement cage 5 is completely inserted into the mould sleeve 2, at the moment, closing one end with smaller cross section area of the mould sleeve 2 by a solid flange plate, and then moving the first moving frame 17 and the second moving frame 18 to a pump station 65 position by the second drive assembly 23 and the third drive assembly 29, then, the driving assembly four 70 drives the moving frame three 8 to move until the feeding pipe 67 is inserted into the mold sleeve 2 and moves to the smaller end of the mold sleeve 2, at this time, the concrete conveying pump 66 is started to convey the concrete of the pump station 65 into the mold sleeve 2, meanwhile, the driving assembly four 70 drives the moving frame three 8 to gradually get away from the mold sleeve 2 until the feeding pipe 67 is separated from the mold sleeve 2, the concrete conveying pump 66 is closed, then the end, close to the moving frame one 17, of the mold sleeve 2 is closed through a solid flange, then the mold sleeve 2 is sent to a centrifugation and steam curing process through a crane (which is consistent with the prior art and is not repeated here), after the steam curing is finished, the mold sleeve 2 is hoisted on the support three 74, the mold sleeve 2 is clamped through a clamping device, then the solid flange is removed, and the electric pole formed in the mold sleeve 2 is pushed out through the hydraulic cylinder 75, and the position of the movable carriage plate 76 is controlled, and the pushed electric pole is supported on the movable carriage plate 76.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An exempt from compound die wire pole production system, includes support one (1), its characterized in that: still include mould sleeve pipe (2), be arranged in inserting steel reinforcement cage (5) in mould sleeve pipe (2), be used for with steel reinforcement cage (5) are inserted feed mechanism, release agent spraying mechanism, concrete placement mechanism in mould sleeve pipe (2) and be used for driving the pole after the shaping and break away from the driving piece one of mould sleeve pipe (2), mould sleeve pipe (2) length direction is followed support one (1) length direction sets up, be equipped with on support one (1) and be used for the centre gripping the clamping device of mould sleeve pipe (2), the equal coaxial fixedly connected with hollow flange dish (4) in both ends of mould sleeve pipe (2).

2. The open-free utility pole production system of claim 1, wherein: clamping device is including installing two removal frame three (8) on support one (1), and two removal frame three (8) shortest lines are followed support one (1) length direction sets up, follow on the removal frame three (8) support one (1) width direction sliding connection has two to be used for the centre gripping splint (9) of mould sleeve pipe (2), be equipped with on support one (1) and be used for driving two drive assembly one (13) that splint (9) are close to each other or keep away from.

3. The open-free utility pole production system of claim 2, wherein: the first driving assembly (13) comprises a first motor (14) and a two-way screw rod (15), the two-way screw rod (15) is rotatably connected to the first support (1), the two-way screw rod (15) rotates to drive the two clamping plates (9) to be close to or far away from each other, and the first motor (14) is used for driving the two-way screw rod (15) to rotate.

4. The open-free utility pole production system of claim 1, wherein: feed mechanism is including removing a (17) and removing a two (18), it is located to remove a (17) mould sleeve pipe (2) with remove between two (18), remove a (17) with remove and all follow a two (18) support one (1) length direction sliding connection is in on the support one (1), be equipped with on removing a (17) and be used for the drive remove a (17) gliding drive assembly two (23), be equipped with on removing a two (18) and be used for the drive remove a two (18) gliding drive assembly three (29), it has along vertical direction sliding connection on removing a (17) and is used for supporting the first (32) of support frame of steel reinforcement cage (5), be equipped with on removing a (17) and be used for the drive piece two that support frame (32) slided and fix a position, be equipped with on removing a two (18) and be used for promoting a two (34) of support frame (5) removal ).

5. The clamp-free utility pole production system of claim 4, wherein: drive assembly two (23) are including motor two (24) and gear (25), it is connected with dwang one (19) to rotate on removing frame one (17), dwang one (19) axis of rotation sets up along support one (1) width direction, dwang one (19) equal coaxial fixedly connected with gyro wheel one (20) in both ends, gyro wheel one (20) butt is in on support one (1), dwang one (19) coaxial fixedly connected with gear two (22), motor two (24) fixed connection be in remove on frame one (17), the coaxial fixed connection of motor two (24) output shaft gear one (25), gear one (25) with gear two (22) meshing is connected.

6. The clamp-free utility pole production system of claim 4, wherein: the driving part II is a cylinder I (33).

7. The open-free utility pole production system of claim 2, wherein: the pouring mechanism comprises a pump station (65), the pump station (65) is communicated with a fixedly connected concrete conveying pump (66), a discharge hole of the concrete conveying pump (66) is communicated with a fixedly connected feeding pipe (67), the movable frame (8) is connected to the movable frame (1) in a sliding mode along the length direction of the movable frame (1), and the movable frame (8) is provided with a driving assembly four (70) for driving the movable frame (8) to slide.

8. The open-free utility pole production system of claim 1, wherein: the first driving piece is a hydraulic cylinder (75).

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