CN112078002B

CN112078002B - Concrete pipe pile pouring equipment

Info

Publication number: CN112078002B
Application number: CN202011027864.4A
Authority: CN
Inventors: 杨桂英
Original assignee: Jiangsu Power Transmission And Distribution Co ltd
Current assignee: JIANGSU POWER TRANSMISSION AND DISTRIBUTION Co.,Ltd.
Priority date: 2020-09-26
Filing date: 2020-09-26
Publication date: 2021-12-10
Anticipated expiration: 2040-09-26
Also published as: CN112078002A

Abstract

The invention discloses a concrete pipe pile pouring device, which comprises a box body, wherein an internal matching cavity is arranged in the box body, a sliding fit box body is arranged in the inner fit cavity in a sliding manner, a side sliding box is arranged on one side of the sliding fit box body, a pouring cavity is arranged in the side sliding box, symmetrical dies are arranged at two ends of the pouring cavity, a plurality of through holes are arranged in the dies, a sliding expansion device which can lead the box body and the sliding fit box body to slide and expand is arranged between the box body and the sliding fit box body, a plurality of steel bar die devices for enabling steel bars to penetrate through the through holes at variable intervals and extend into the pouring cavity are arranged on one side of the sliding fit box body, the equipment can be used for loading the steel bars with various specifications, then according to actual need, the size of the punched hole is changed, and then the steel bar is punched between the punched hole and the die, so that a person can simultaneously place a steel ring and tie the steel ring and then pour the steel ring.

Description

Concrete pipe pile pouring equipment

Technical Field

The invention relates to the technical field of concrete pipe pile manufacturing equipment, in particular to concrete pipe pile pouring equipment.

Background

In the existing filling and pouring process of a building, pipe piles with different intervals are formed to be placed according to the length of the pipe piles and the distribution range of corresponding reinforcing steel bars, in the process, the two side plates of the pipe piles to be built are used for fully installing and clamping, the reinforcing steel bars penetrate through equipment and are arranged and clamped between the two side plates, in the process, most of the adopted modes are that a reinforcing steel bar framework is tightened manually and then poured, a large amount of time is consumed when the reinforcing steel bar framework is tightened, so that the personnel is inconvenient in actual work, in addition, a plurality of personnel are needed to cooperatively adjust and then normally tighten the reinforcing steel bars with different specification intervals in the process of penetrating and tightening, the waste of a large amount of human resources is caused, and certain precision and accuracy cannot be ensured, the tubular pile is inconvenient for subsequent use in the manufacturing process.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a concrete pipe pile casting apparatus, which can solve the above problems in the prior art.

The invention is realized by the following technical scheme: the invention relates to a concrete pipe pile pouring device, which comprises a box body, wherein an internal matching cavity is arranged in the box body, a sliding fit box body is arranged in the inner fit cavity in a sliding manner, a side sliding box is arranged on one side of the sliding fit box body, a pouring cavity is arranged in the side sliding box, symmetrical dies are arranged at two ends of the pouring cavity, a plurality of through holes are arranged in the dies, a sliding expansion device which can lead the box body and the sliding fit box body to slide and expand is arranged between the box body and the sliding fit box body, a plurality of steel bar die devices which are used for enabling steel bars to pass through the through holes at variable intervals and extend into the pouring cavity are arranged on one side of the sliding fit box body, the steel bar die is characterized in that a lifting device used for conveying lifting steel bars so that the steel bars can enter the steel bar die device is arranged in the sliding fit box body, and a telescopic pushing device used for pushing the steel bars is arranged on the upper side of the box body.

According to a further technical scheme, the sliding telescopic device comprises inner grooves which are arranged in the box body and are symmetrical, side driving motors are arranged in the end walls of the inner grooves, a rotating threaded rod is arranged on one side of each side driving motor in a power connection mode, a guide rod is arranged on one side of the sliding fit box body, the guide rod is in sliding fit connection with the inner grooves, and the rotating threaded rod extends into the guide rod and is in threaded fit connection with the guide rod.

Further technical scheme, the reinforcing bar mould device including set up with the dress in the cooperation box of sliding is received the inner chamber, dress inner chamber end wall in-connection is provided with the cooperation and is held the chamber, the cooperation holds chamber outside annular array and is provided with a plurality of penetrating grooves that slide, penetrating groove runs through the cooperation box that slides, it is provided with the internal thread piece that slides to slide to penetrate inslot gliding, be provided with the symmetry in the internal thread piece that slides and pass the delivery outlet, penetrating groove and cooperation are held the intracavity and are provided with the messenger to slide internal thread piece is close to simultaneously the cooperation holds the chamber or keeps away from simultaneously the flexible drive assembly that the cooperation held the chamber.

According to the technical scheme, the telescopic driving assembly comprises a connecting bevel gear arranged in the matching containing cavity, the connecting bevel gear is driven by a motor to rotate, a plurality of matching bevel gears are meshed on one side of the connecting bevel gear, a power threaded rod is arranged on one side of the matching bevel gear, the power threaded rod runs through the matching containing cavity and stretches into the sliding penetrating groove, and the power threaded rod is in threaded matching connection with the sliding internal thread block.

Further technical scheme, the lifting device include with the bottom inner chamber of holding the inner chamber intercommunication, bottom inner chamber downside intercommunication is provided with transmission cooperation inner chamber, the intracavity is provided with the support in the bottom, the support internal rotation be provided with the normal running fit wheel of symmetry, one of them normal running fit wheel is rotated by motor drive, normal running fit takes turns the surface winding and is provided with the cooperation conveyer belt, cooperation conveyer belt surface is provided with a plurality of lugs, be provided with the messenger in bottom inner chamber and the transmission cooperation inner chamber the support carries out the lift drive assembly that goes up and down to remove.

Further technical scheme, the lift drive assembly including set up in rotating connection motor in the end wall under the transmission cooperation inner chamber, rotating connection motor upside power connection is provided with cooperation power bevel gear, transmission cooperation inner chamber end wall is provided with middle fixed pedestal, cooperation power bevel gear both sides meshing is provided with the top side meshing bevel gear of symmetry, be provided with the output connecting rod in the top side meshing bevel gear, the output connecting rod with middle fixed pedestal and transmission cooperation inner chamber end wall normal running fit are connected, gliding sliding fit piece that is provided with in transmission cooperation inner chamber, sliding fit piece with the output connecting rod screw-thread fit is connected, the internal rotation of sliding fit piece is provided with the swinging arms, the swinging arms with the support normal running fit is connected.

In a further technical scheme, the telescopic pushing device comprises top bracket shells which are arranged at the top of the box body and are symmetrical, an open top sliding groove is arranged in the top bracket shell, a rotating matching threaded shaft driven by a motor is arranged in the end wall of the top sliding groove in a rotating way, a sliding fit connecting block is arranged in the top sliding groove in a sliding way and is in threaded fit connection with the rotating fit threaded shaft, the top of the sliding fit connecting block is provided with a fixed seat, a penetrating sliding chute is arranged in the fixed seat, the power connection threaded rod which penetrates through the sliding groove and rotates is provided with a driving motor for driving, the outer surface of the power connection threaded rod is provided with a sliding matching block in a threaded matching way, the sliding fit block is connected with the sliding fit through the sliding groove, and a telescopic pushing assembly which adopts a telescopic moving mode to push the reinforcing steel bars is arranged in the sliding fit block.

Further technical scheme, flexible subassembly of pushing away including set up in the top casing of sliding fit piece upside, be provided with inside cooperation chamber in the casing of top, the internal rotation of inside cooperation chamber endwall is provided with an internal thread section of thick bamboo, inside cooperation chamber endwall is provided with the side cooperation and connects the motor, the side cooperation is connected motor one side power and is connected and be provided with the output connection gear, the output connection gear with the meshing of internal thread section of thick bamboo sets up, internal thread section of thick bamboo internal thread fit connects and is provided with the lift external screw thread axle that slides, lift external screw thread axle one side of sliding is provided with pushes away the sliding closure, push away the sliding closure with inside cooperation chamber sliding fit connects, lift external screw thread axle downside that slides is provided with the counterbalance and pushes away the piece.

The invention has the beneficial effects that:

the device is simple in structure, and can load steel bars with various specifications, change the sizes of the steel bars according to the actual requirements of the penetrating holes, penetrate the steel bars between the penetrating holes and the die, and enable personnel to place steel rings, tie the steel rings and pour the steel rings.

When loading the reinforcing bar into inside the equipment, the side driving motor drives after the work rotating threaded rod rotates, makes rotating threaded rod drive after rotating the guide arm is in the inside groove slides, makes the guide arm drives the cooperation box that slides is in inside cooperation intracavity slides, can make the good reinforcing bar of loading that cooperation box and box can be better slides, and the reinforcing bar is located the cooperation conveyer belt upside position between the lug and pile up the top of lug.

When the equipment works, firstly, according to the specifications of a through hole and a mould which are placed in the pouring cavity, then the hole distance between the through output holes needs to be adjusted, then the connecting bevel gear works and drives the matching bevel gear to rotate, so that the matching bevel gear rotates and drives the power threaded rod to rotate, the sliding internal threaded block slides in the sliding penetrating groove, the through output hole is opposite to the through hole, when a steel bar needs to pass through the through output hole, firstly, the rotating connecting motor works and drives the matching power bevel gear to rotate, so that the matching power bevel gear drives the top side meshing bevel gear to rotate, the top side meshing bevel gear drives the output connecting rod to rotate, at the moment, the sliding matching block can slide and then drive the swinging rod to enable the support to move upwards and lift, and according to the distribution of the steel bars, the rotating matching wheel drives the matching conveying belt to rotate after working, so that the matching conveying belt drives the steel bars to respectively move to one side of the passing output hole through the convex block, when the steel bars pass through the output hole, the power connection threaded rod drives the sliding matching block to move after working, the side matching connection motor drives the output connection gear to rotate after working, as the output connection gear is meshed with the internal thread cylinder, the abutting pushing block and the lifting sliding external thread shaft slide in the internal matching cavity, so that the abutting pushing block moves to one end of the steel bars, and then the rotating matching threaded shaft drives the sliding matching connecting block to slide in the top sliding groove after rotating, so that the abutting pushing block can push the steel bars into the passing hole from the passing output hole and carry out full clamping, after the steel bars pass through the through holes, steel bar rings can be sleeved on the outer sides of the steel bars and then are sufficiently bound, and then cement is poured into the pouring cavity.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal overall structure of a concrete pipe pile casting device according to the present invention;

FIG. 2 is a schematic view of the direction A in FIG. 1;

FIG. 3 is a schematic view of the direction B-B in FIG. 1;

FIG. 4 is a schematic view in the direction C-C of FIG. 1;

FIG. 5 is a schematic view at D of FIG. 4;

FIG. 6 is a schematic view at E in FIG. 4;

FIG. 7 is a schematic view at F of FIG. 4;

in the figure, a box body 11, a through hole 12, a mould 13, a pouring cavity 14, a side sliding box 15, a sliding fit box body 21, a guide rod 22, an inner groove 23, a rotating threaded rod 24, a side driving motor 25, an inner fit cavity 27, an accommodating inner cavity 31, a connecting bevel gear 32, a lug 33, a bottom inner cavity 34, a fit conveying belt 35, a rotating fit wheel 36, a swinging rod 37, a sliding fit block 38, a support 39, a fit accommodating cavity 42, a passing output hole 43, a sliding penetration groove 44, a power threaded rod 45, a sliding inner threaded block 46, a fit bevel gear 47, a rotating fit threaded shaft 51, a sliding fit connecting block 52, a top sliding groove 53, a top support shell 54, a fixed seat 55, a power connecting threaded rod 56, a passing sliding groove 57, an inner threaded cylinder 58, an output connecting gear 59, a side fit connecting motor 61, a lifting sliding outer threaded shaft 62, an inner fit cavity 63, a top shell 64, a sliding fit block 65, a sliding fit block 24, a sliding fit screw rod 24, a sliding fit output screw rod 43, a sliding fit output screw rod and a sliding fit cavity, The device comprises an abutting pushing block 66, a rotating connecting motor 72, a matching power bevel gear 73, a transmission matching inner cavity 74, an output connecting rod 75, a top-side meshing bevel gear 76 and a middle fixing seat body 77.

Detailed Description

As shown in fig. 1 to 7, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down left-right front-back direction is consistent with the up-down left-right front-back direction of the projection relation of the self-body shown in figure 1, the concrete pipe pile casting equipment comprises a box body 11, an internal matching cavity 27 is arranged in the box body 11, a sliding matching box body 21 is arranged in the internal matching cavity 27 in a sliding manner, one side of the sliding matching box body 21 is provided with a sideslip box 15, a casting cavity 14 is arranged in the sideslip box 15, two ends of the casting cavity 14 are provided with symmetrical moulds 13, a plurality of through holes 12 are arranged in the moulds 13, a sliding expansion device for enabling the sliding expansion between the box body 11 and the sliding matching box body 21 is arranged between the box body 11 and the sliding matching box body 21, a plurality of steel bar mould devices for enabling steel bars to pass through the through holes 12 at variable intervals and extend into the casting cavity 14 are arranged on one side of the sliding matching box body 21, the sliding fit box body 21 is internally provided with a lifting device which is used for conveying lifting steel bars so that the steel bars can enter the steel bar die device, and the upper side of the box body 11 is provided with a telescopic pushing device which is used for pushing the steel bars.

Advantageously, the sliding telescopic device comprises an inner groove 23 which is arranged in the box body 11 and is symmetrical, a side driving motor 25 is arranged in the end wall of the inner groove 23, a rotating threaded rod 24 is arranged on one side of the side driving motor 25 in a power connection mode, a guide rod 22 is arranged on one side of the sliding fit box body 21, the guide rod 22 is in sliding fit connection with the inner groove 23, and the rotating threaded rod 24 extends into the guide rod 22 and is in threaded fit connection with the guide rod 22.

Beneficially, wherein, the reinforcing steel bar formwork device includes the setting with the holding inner chamber 31 in the cooperation box 21 that slides, holding inner chamber 31 end wall in-connection is provided with the cooperation and holds the chamber 42, cooperation holds that the chamber 42 outside annular array is provided with a plurality of and slides and penetrates groove 44, it penetrates to slide and penetrate groove 44 the cooperation box 21 that slides, it is provided with the interior screw block 46 that slides to slide in the groove 44 that slides, it just passes delivery outlet 43 that passes that runs through to be provided with symmetry in the interior screw block 46 that slides, it makes to slide to penetrate groove 44 and cooperation to hold the intracavity 42 to be provided with the messenger slide interior screw block 46 and be close to simultaneously the cooperation holds chamber 42 or keep away from simultaneously the flexible drive assembly that the cooperation holds chamber 42.

Beneficially, the telescopic driving assembly comprises a connecting bevel gear 32 arranged in the matching cavity 42, the connecting bevel gear 32 is driven by a motor to rotate, a plurality of matching bevel gears 47 are arranged on one side of the connecting bevel gear 32 in a meshed manner, a power threaded rod 45 is arranged on one side of the matching bevel gears 47, the power threaded rod 45 rotatably penetrates through the matching cavity 42 and extends into the sliding penetrating groove 44, and the power threaded rod 45 is in threaded matching connection with the sliding inner threaded block 46.

Beneficially, the lifting device includes a bottom inner cavity 34 communicated with the containing inner cavity 31, a transmission matching inner cavity 74 is communicated with the lower side of the bottom inner cavity 34, a support 39 is arranged in the bottom inner cavity 34, symmetrical rotation matching wheels 36 are rotatably arranged in the support 39, one of the rotation matching wheels 36 is driven by a motor to rotate, a matching conveying belt 35 is wound on the outer surface of the rotation matching wheel 36, a plurality of convex blocks 33 are arranged on the outer surface of the matching conveying belt 35, and a lifting driving assembly for enabling the support 39 to lift and move is arranged in the bottom inner cavity 34 and the transmission matching inner cavity 74.

Advantageously, wherein the lifting drive assembly comprises a rotary connection motor 72 disposed in the lower end wall of said drive fit cavity 74, the upper side of the rotating connection motor 72 is provided with a matching power bevel gear 73 in a power connection way, the end wall of the transmission matching inner cavity 74 is provided with a middle fixed seat body 77, symmetrical top-side engaging bevel gears 76 are engaged on two sides of the matching power bevel gear 73, an output connecting rod 75 is arranged in the top-side meshing bevel gear 76, the output connecting rod 75 is connected with the end walls of the middle fixed seat body 77 and the transmission matching inner cavity 74 in a rotating matching way, a sliding fit block 38 is arranged in the transmission fit cavity 74 in a sliding manner, the sliding fit block 38 is in threaded fit connection with the output connecting rod 75, a swing rod 37 is rotatably arranged on the sliding fit block 38, and the swing rod 37 is connected with the bracket 39 in a rotating fit manner.

Beneficially, the telescopic pushing device includes a top support housing 54 symmetrically disposed on the top of the box 11, an open top sliding groove 53 is disposed in the top support housing 54, a rotating matching threaded shaft 51 driven by a motor is rotatably disposed in an end wall of the top sliding groove 53, a sliding matching connecting block 52 is slidably disposed in the top sliding groove 53, the sliding matching connecting block 52 is in threaded matching connection with the rotating matching threaded shaft 51, a fixing seat 55 is disposed on the top of the sliding matching connecting block 52, a penetrating sliding groove 57 is disposed in the fixing seat 55, a power connecting threaded rod 56 driven by a driving motor is rotatably disposed in the penetrating sliding groove 57, a sliding matching block 65 is disposed on an outer surface of the power connecting threaded rod 56 in threaded matching connection, and the sliding matching block 65 is in sliding matching connection with the penetrating sliding groove 57, a telescopic pushing assembly which pushes the reinforcing steel bars in a telescopic moving mode is arranged in the sliding matching block 65.

Beneficially, wherein, flexible pushing assembly includes set up in the top casing 64 of sliding fit piece 65 upside, be provided with inside cooperation chamber 63 in the top casing 64, the internal rotation of inside cooperation chamber 63 end wall is provided with interior thread section of thick bamboo 58, inside cooperation chamber 63 end wall is provided with side cooperation and connects motor 61, side cooperation is connected motor 61 one side power connection and is provided with output connection gear 59, output connection gear 59 with the meshing setting of interior thread section of thick bamboo 58, interior thread section of thick bamboo 58 internal thread cooperation is connected and is provided with lift external screw thread shaft 62, lift external screw thread shaft 62 one side is provided with pushes away the sliding plate 81, push away sliding plate 81 with inside cooperation chamber 63 sliding fit is connected, lift external screw thread shaft 62 downside is provided with the counterbalance and pushes away piece 66.

In the initial state, the device, the assembly and the structure are in the stop working state, the equipment can load steel bars with various specifications, and then the steel bars are subjected to size change according to the actual requirement and then pass through the through holes 12 and the mould 13, so that personnel can place steel rings and tie the steel rings at the same time and then pour the steel rings.

When reinforcing steel bars are loaded into the equipment, the side driving motor 25 drives the rotating threaded rod 24 to rotate after working, so that the rotating threaded rod 24 drives the guide rod 22 to slide in the inner groove 23, the guide rod 22 drives the sliding fit box body 21 to slide in the inner fit cavity 27, and then the sliding fit box body 21 and the box body 11 can better load the reinforcing steel bars, and the reinforcing steel bars are located at the positions between the convex blocks 33 on the upper side of the fit conveying belt 35 and stacked above the convex blocks 33.

When the device works, firstly, according to the specifications of the through hole 12 and the die 13 placed in the pouring cavity 14, then the pitch between the through output holes 43 needs to be adjusted, at this time, the connecting bevel gear 32 works and drives the matching bevel gear 47 to rotate, so that the matching bevel gear 47 rotates and drives the power threaded rod 45 to rotate, the sliding internal threaded block 46 slides in the sliding through groove 44, the through output hole 43 is opposite to the through hole 12, when the reinforcing steel bar needs to pass through the through output hole 43, firstly, the rotating connecting motor 72 works and drives the matching power bevel gear 73 to rotate, so that the matching power bevel gear 73 drives the top meshing bevel gear 76 to rotate, and the top meshing bevel gear 76 drives the output connecting rod 75 to rotate, at this moment, the sliding fit block 38 can be made to slide to drive the swing rod 37 to make the support 39 move upwards and lift, and according to the distribution of the steel bars, the rotating fit wheel 36 drives the fit conveying belt 35 to rotate after working, so that the fit conveying belt 35 drives the steel bars to move to one side of the passing output hole 43 through the convex block 33, when the steel bars pass through the passing output hole 43, the power connection threaded rod 56 drives the sliding fit block 65 to move after working, and the side fit connection motor 61 drives the output connection gear 59 to rotate after working, because the output connection gear 59 is meshed with the internal thread cylinder 58, the abutting push block 66 and the lifting sliding external thread shaft 62 slide in the internal fit cavity 63, so that the abutting push block 66 moves to one end of the steel bars, and then the rotating fit threaded shaft 51 drives the sliding fit connection block 52 to slide in the top sliding groove 52 after rotating 53 so that the pushing blocks 66 can push the rebar from the through output hole 43 into the through hole 12 and sufficiently clamp the rebar, and after the rebar passes through the through hole 12, the rebar can be sleeved with a rebar ring and sufficiently bound, and then cement is poured into the pouring cavity 14.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. A concrete pipe pile pouring device comprises a box body, wherein an internal matching cavity is arranged in the box body, a sliding fit box body is arranged in the inner fit cavity in a sliding manner, a side sliding box is arranged on one side of the sliding fit box body, a pouring cavity is arranged in the side sliding box, symmetrical dies are arranged at two ends of the pouring cavity, a plurality of through holes are arranged in the dies, a sliding expansion device which can lead the box body and the sliding fit box body to slide and expand is arranged between the box body and the sliding fit box body, a plurality of steel bar die devices which are used for enabling steel bars to pass through the through holes at variable intervals and extend into the pouring cavity are arranged on one side of the sliding fit box body, the steel bar die is characterized in that a lifting device used for conveying lifting steel bars so that the steel bars can enter the steel bar die device is arranged in the sliding fit box body, and a telescopic pushing device used for pushing the steel bars is arranged on the upper side of the box body.

2. The concrete pipe pile casting device according to claim 1, wherein: the sliding telescopic device comprises inner grooves which are arranged in the box body and are symmetrical, side driving motors are arranged in the end walls of the inner grooves, a rotating threaded rod is arranged on one side of each side driving motor in a power connection mode, a guide rod is arranged on one side of the sliding fit box body, the guide rod is connected with the inner grooves in a sliding fit mode, and the rotating threaded rod extends into the guide rod and is connected with the guide rod in a threaded fit mode.

3. The concrete pipe pile casting device according to claim 1, wherein: reinforcing bar module device including set up with the intracavity is received to the dress in the cooperation box that slides, dress is received inner chamber end wall in-connection and is provided with the cooperation and holds the chamber, the cooperation holds chamber outside annular array and is provided with a plurality of penetrating grooves that slide, the penetrating groove that slides runs through the cooperation box that slides, it pierces through the inslot gliding internal thread piece that is provided with that slides to slide, be provided with the symmetry in the internal thread piece that slides and pass the delivery outlet, it is provided with the messenger to slide penetrating groove and cooperation and hold the intracavity the internal thread piece that slides is close to simultaneously the cooperation holds the chamber or keeps away from simultaneously the flexible drive assembly that the cooperation holds the chamber.

4. The concrete pipe pile casting device according to claim 3, wherein: flexible drive assembly including set up in the intracavity is held in the cooperation connection bevel gear, connection bevel gear is rotated by motor drive, it is provided with a plurality of cooperation bevel gears to connect bevel gear one side meshing, cooperation bevel gear one side is provided with the power threaded rod, power threaded rod pivoted runs through the cooperation holds the chamber and stretches into slide in the penetration groove, the power threaded rod with the internal thread piece screw-thread fit connection slides.

5. The concrete pipe pile casting device according to claim 3, wherein: the lifting device include with the bottom inner chamber of holding the inner chamber intercommunication, bottom inner chamber downside intercommunication is provided with the transmission cooperation inner chamber, be provided with the support in the bottom inner chamber, the support internal rotation be provided with the normal running fit wheel of symmetry, one of them the normal running fit wheel is rotated by motor drive, normal running fit wheel surface winding is provided with the cooperation conveyer belt, cooperation conveyer belt surface is provided with a plurality of lugs, be provided with in bottom inner chamber and the transmission cooperation inner chamber and make the support carries out the lift drive assembly that goes up and down to remove.

6. The concrete pipe pile casting device according to claim 5, wherein: the lifting driving assembly comprises a rotating connection motor arranged in the lower end wall of the transmission fit inner cavity, the rotating connection motor is provided with a fit power bevel gear in a side power connection mode, the end wall of the transmission fit inner cavity is provided with a middle fixed base, two sides of the fit power bevel gear are meshed with symmetrical top side meshed bevel gears, an output connecting rod is arranged in the top side meshed bevel gears, the output connecting rod is connected with the middle fixed base and the end wall of the transmission fit inner cavity in a rotating fit mode, a sliding fit block is arranged in the transmission fit inner cavity in a sliding fit mode, the sliding fit block is connected with the output connecting rod in a threaded fit mode, a swing rod is arranged in the sliding fit block in a rotating fit mode, and the swing rod is connected with the support in a rotating fit mode.

7. The concrete pipe pile casting device according to claim 1, wherein: the telescopic pushing device comprises top bracket shells which are arranged at the top of the box body and are symmetrical, a top sliding groove with an opening is arranged in the top bracket shell, a rotating matching threaded shaft driven by a motor is arranged in the end wall of the top sliding chute in a rotating way, a sliding matching connecting block is arranged in the top sliding chute in a sliding way, the sliding fit connecting block is in threaded fit connection with the rotating fit threaded shaft, a fixed seat is arranged at the top of the sliding fit connecting block, a penetrating sliding chute is arranged in the fixed seat, a power connection threaded rod driven by a driving motor is arranged in the penetrating sliding chute and rotates, the outer surface of the power connection threaded rod is provided with a sliding matching block in a threaded matching connection way, the sliding matching block is connected with the penetrating chute in a sliding matching way, and a telescopic pushing assembly which adopts a telescopic moving mode to push the reinforcing steel bars is arranged in the sliding matching block.

8. The concrete pipe pile casting apparatus of claim 7, wherein: the telescopic pushing assembly comprises a top shell arranged on the upper side of the sliding matching block, an inner matching cavity is formed in the top shell, an inner thread cylinder is arranged at the inner rotating end wall of the inner matching cavity, a side matching connection motor is arranged at the end wall of the inner matching cavity, a power connection is arranged on one side of the side matching connection motor and is provided with an output connection gear, the output connection gear is meshed with the inner thread cylinder, an inner thread matching connection of the inner thread cylinder is provided with a lifting sliding outer thread shaft, a pushing sliding plate is arranged on one side of the lifting sliding outer thread shaft and is connected with the inner matching cavity in a sliding fit mode, and the lower side of the lifting sliding outer thread shaft is provided with a pushing block in a propping mode.