CN108611988A - A kind of Cast-in-place Bent Cap construction method - Google Patents

A kind of Cast-in-place Bent Cap construction method Download PDF

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Publication number
CN108611988A
CN108611988A CN201810719835.0A CN201810719835A CN108611988A CN 108611988 A CN108611988 A CN 108611988A CN 201810719835 A CN201810719835 A CN 201810719835A CN 108611988 A CN108611988 A CN 108611988A
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CN
China
Prior art keywords
gear
shaft
bevel gear
cavity
fixedly connected
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Granted
Application number
CN201810719835.0A
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Chinese (zh)
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CN108611988B (en
Inventor
俞李娜
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Guangdong Guangli Construction Group Co., Ltd.
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PUJIANG COUNTY JIEHAO IMPORT AND EXPORT Co Ltd
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Priority to CN201810719835.0A priority Critical patent/CN108611988B/en
Publication of CN108611988A publication Critical patent/CN108611988A/en
Application granted granted Critical
Publication of CN108611988B publication Critical patent/CN108611988B/en
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Classifications

    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01DCONSTRUCTION OF BRIDGES, ELEVATED ROADWAYS OR VIADUCTS; ASSEMBLY OF BRIDGES
    • E01D21/00Methods or apparatus specially adapted for erecting or assembling bridges
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01DCONSTRUCTION OF BRIDGES, ELEVATED ROADWAYS OR VIADUCTS; ASSEMBLY OF BRIDGES
    • E01D19/00Structural or constructional details of bridges
    • E01D19/02Piers; Abutments ; Protecting same against drifting ice
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01DCONSTRUCTION OF BRIDGES, ELEVATED ROADWAYS OR VIADUCTS; ASSEMBLY OF BRIDGES
    • E01D19/00Structural or constructional details of bridges
    • E01D19/04Bearings; Hinges

Abstract

A kind of Cast-in-place Bent Cap construction method of the present invention, including apparatus main body, the first equipment being set in described device main body, the second equipment being set in described device main body and the third equipment being set in described device main body, first equipment includes the pressurizing block for being set to described device main body right end and being fixedly connected, the right end of the pressurizing block is provided with opening to the right and the first groove of rear side inner wall connection free surrounding space, rotatable pressure road block is provided in first groove, front and back end is fixedly connected at the axle center of the pressure road block to be rotatably assorted by bearing respectively the first rotating shaft being connected on the first groove upper and lower sides inner wall;What the present apparatus can automate carries out processing reinforcing to bent cap substrate, can also facilitate the work of construction personnel, and can also accelerate treatment effeciency while reducing the manpower service time makes the work construction time shorten, and also increases the safety of bridge and service life.

Description

A kind of Cast-in-place Bent Cap construction method
Technical field
The present invention relates to technical field of building construction, specifically a kind of Cast-in-place Bent Cap construction method.
Background technology
The development in China is getting faster, and occurs more and more, miscellaneous bridge under construction, in bridge Cast-in-place Bent Cap Construction in just need that substrate could construct after processing is qualified, how to be automated in previous manpower is handled Processing reinforcing is carried out to bent cap substrate, can also facilitate the work of construction personnel, can also while reducing the manpower service time Accelerating treatment effeciency makes the work construction time shorten, and also increases the safety of bridge and service life, therefore designs a kind of existing Pour construction method of bent cap it is really necessary to.
Invention content
Technical problem to be solved by the invention is to provide a kind of Cast-in-place Bent Cap construction methods, can solve above-mentioned present The problems in technology.
The present invention is achieved through the following technical solutions:A kind of Cast-in-place Bent Cap construction method of the present invention, including dress Set main body, the first equipment for being set in described device main body, the second equipment being set in described device main body And it is set to the third equipment in described device main body, first equipment includes being set to described device main body The pressurizing block that right end is fixedly connected, the right end of the pressurizing block be provided with opening to the right and rear side inner wall connection free surrounding space the One groove is provided with rotatable pressure road block in first groove, front and back end is fixedly connected at the axle center of the pressure road block Be rotatably assorted by bearing the first rotating shaft being connected on the first groove upper and lower sides inner wall respectively, first groove it is upper The first drive cavity is provided in the inner wall of side, the upper end of the first rotating shaft, which extends, to be passed through in first drive cavity and be fixedly connected There is rotatable first bevel gear, be provided with rotatable in first drive cavity and engage cooperation company with the first bevel gear The second bevel gear connect is fixedly connected with front and back end at the axle center of the second bevel gear and is rotatably assorted connection by bearing respectively The second shaft before and after first drive cavity on the inner wall of side, is provided with first gear chamber in described device main body, and described The left end extension of two shafts is passed through the first gear intracavitary and is fixedly connected with rotatable first spur gear on it, described The downside inner wall of first gear chamber is provided with and communicated with the second drive cavity, and the lower end of first spur gear extends into described second and passes It moves intracavitary and engagement is connected with rotatable second spur gear, left and right is fixedly connected at the axle center of second spur gear Hold the third shaft being connected on the second drive cavity left and right sides inner wall that is rotatably assorted respectively by bearing, the third shaft On be fixedly connected with third hand tap gear, the downside inner wall of second drive cavity is provided with and communicated with second gear chamber, described second It is provided with rotatable in gear cavity and engages the 4th bevel gear being connected, second tooth with the third hand tap gear lower end It takes turns in the downside inner wall of chamber and is provided with third drive cavity, rotatable and lower end is fixedly connected at the axle center of the 4th bevel gear Extending the 4th shaft being passed through in the third drive cavity, the lower end of the 4th shaft is fixedly connected with rotatable disk, The inner left wall of the third drive cavity is provided with and communicated with sliding cavity, and the lower end of the disk is eccentric and is fixedly connected with fixation Block, the front end of the disk are provided with to be rotatably assorted with the fixed block and connect and left end extends into promotion in the sliding cavity Bar, the left end of the catch bar are rotatably assorted to be connected with to grab and horizontally slip in the sliding cavity and symmetrical above and below and pass through connecting rod The upper inside walls of the sealing plate block being fixedly connected, the sliding cavity are provided with and communicated with the rubble slot of opening upwards, the sliding cavity Perforative first through hole up and down is provided on the inner wall of downside, when original state, the sealing plate block by rubble slot and first through hole every Disconnected, rubble can not be fallen to outside apparatus main body.
Second equipment includes being set in the first gear chamber inner left wall as a preferred technical solution, Third gear cavity, the left end extension of second shaft is passed through in the third gear cavity and is fixedly connected with can turn on it The 5th dynamic bevel gear, the inner left wall of the third gear cavity are provided with and communicated with the 4th gear cavity, in the 4th gear cavity Rotatable and right end is provided with to extend into the third gear cavity and engage mating connection with the 5th bevel gear lower end 6th bevel gear, be fixedly connected at the axle center of the 6th bevel gear upper end be rotatably assorted respectively by bearing be connected to it is described The 5th shaft on 4th gear cavity upper and lower sides inner wall is provided with the 4th drive cavity in the downside inner wall of the 4th gear cavity, The lower end of 5th shaft, which extends to be passed through in the 4th drive cavity and be rotatably assorted by bearing, is connected to the 4th biography It is fixedly connected on inner wall and on it rotatable 7th bevel gear on the downside of dynamic chamber, is provided in the 4th drive cavity and institute The 8th bevel gear that the engagement of the 7th bevel gear is connected is stated, the 5th transmission is provided in the rear side inner wall of the 4th drive cavity Chamber, rear end is fixedly connected at the axle center of the 8th bevel gear extends and be passed through in the 5th drive cavity and match by the way that shaft rotation is dynamic The 6th shaft being connected on rear side of the 5th drive cavity on inner wall is closed, being fixedly connected in the 6th shaft can be described the The first transmission gear rotated in five drive cavities, be provided in the 5th drive cavity it is symmetrical and with first driving cog Extend outside described device main body and be fixedly connected in the rear end of the second transmission gear that wheel engagement is connected, the 6th shaft There is first to put down plate, rear end is fixedly connected at the axle center of second transmission gear and extends the steering outside the main body Axis, the rear end of the steering shaft, which is fixedly connected with, sweeps the second of plate alignment with described first and puts down plate.
The third equipment includes being set in the third gear cavity inner left wall as a preferred technical solution, The 5th gear cavity, the left end of second shaft extends into the 5th gear cavity and is rotatably assorted by bearing and is connected to It is fixedly connected in the 5th gear cavity inner left wall and on it rotatable 9th bevel gear, the 5th gear cavity Inner left wall is provided with and communicated with the 6th gear cavity, be provided in the seven or six gear cavity it is rotatable and with the 9th bevel gear The tenth bevel gear being connected is engaged, the gear grooved of opening upwards, institute are provided on the downside inner wall of the 6th gear cavity It states to be fixedly connected with lower end at the axle center of the tenth bevel gear and extend and is passed through in the gear grooved and is rotatably assorted connection by bearing The 7th shaft on the downside of the gear grooved on inner wall is fixedly connected with actively in the 7th shaft in the gear grooved Bevel gear is provided with stir chamber for opening forward, the rear end engagement of the drive bevel gear in the downside inner wall of the gear grooved It is connected with rotatable and lower end and extends the driven wheel of differential being passed through in the stir chamber, be provided with and can turn in the stir chamber Dynamic stirring block, the outer end of the stirring block are fixedly connected with the gear ring block that can be engaged and be connected with the driven wheel of differential, The upper end of the stirring block is provided with the work nest of opening upwards, and stirring cutter is fixedly connected on the inner wall of the work nest, The lower end of the stirring block is fixedly connected with lower end and rotates quota Ei by bearing and be connected on the downside of the stir chamber on inner wall Rotary shaft, be provided on the downside inner wall of the work nest and run through up and down and the channel by being connected to free surrounding space after rotary shaft It manages, solenoid valve is fixedly installed in the tube channel.
Described device lower body is provided with driving wheel as a preferred technical solution, and the driving wheel fills to push It sets the roads advance Shi Ya block and rolls driving equipment progress while road pavement is pressurizeed.
Described method includes following steps:
First, device is moved to by personnel needs Coping Construction place to carry out the processing of substrate to it, starts driving wheel and drives dress It sets the roads advance Shi Ya block and can be abutted with ground and worked, pressure road block rolls the ground after pressurization since first rotating shaft rotates band Dynamic first bevel gear rotation, makes second bevel gear rotation drive the rotation of the second shaft, while the first spur gear drives the second straight-tooth Wheel rotation, third shaft drive third hand tap gear rotation that the 4th bevel gear is made to rotate, and the 4th shaft is disc-rotated to make fixation It drives sealing plate block to horizontally slip in sliding cavity by catch bar while block carries out center of circle movement, makes rubble slot and first through hole Connection is fallen on rubble to the ground pressurizeed.
Secondly, it also drives the 5th bevel gear to rotate while the second shaft rotates, the 6th bevel gear is made to drive the 5th shaft Rotation rotates the 7th bevel gear, to which the 8th bevel gear drives the rotation of the 6th shaft to rotate the second transmission gear, herein together When the first transmission gear and steering shaft drive first to put down plate and second put down plate rotation simultaneously, to preceding during device advances The rubble that face is fallen is paved, while the rotation of the second shaft drives the rotation of the 9th bevel gear, the rotation of the tenth bevel gear to drive the The rotation of seven shafts rotates drive bevel gear, and driven wheel of differential rotation at this time drives stirring block to be stirred concrete, often moves Opens solenoid valve, which falls to concrete by tube channel, after a dynamic fragment position carries out bent cap substrate on the road surface for pave rubble Processing.
The beneficial effects of the invention are as follows:The configuration of the present invention is simple, it is easy to operate, when carrying out duct cleaning by the present apparatus, Device is moved to by personnel needs Coping Construction place to carry out the processing of substrate to it, and starting the advance of driving wheel driving device makes pressure Road block can be abutted with ground and be worked, and pressure road block rolls the ground after pressurization since first rotating shaft rotation drives the first cone tooth Wheel rotation makes second bevel gear rotation drive the rotation of the second shaft, while the first spur gear drives the rotation of the second spur gear, third Shaft drives third hand tap gear rotation that the 4th bevel gear is made to rotate, and the 4th shaft is disc-rotated to make fixed block carry out center of circle fortune It drives sealing plate block to horizontally slip in sliding cavity by catch bar while dynamic, so that rubble slot is connected to first through hole and fall rubble To the ground pressurizeed, the second shaft also drives the 5th bevel gear to rotate while rotation, and the 6th bevel gear is made to drive the 5th Shaft rotation rotates the 7th bevel gear, to which the 8th bevel gear drives the rotation of the 6th shaft to rotate the second transmission gear, The first transmission gear and steering shaft drive first to put down plate and second put down plate rotation simultaneously simultaneously for this, during device advances The rubble that front is fallen is paved, while the rotation of the second shaft drives the rotation of the 9th bevel gear, the tenth bevel gear to rotate band Dynamic 7th shaft rotation rotates drive bevel gear, and driven wheel of differential rotation at this time drives stirring block to be stirred concrete, Concrete is fallen to progress bent cap base on the road surface for pave rubble by opens solenoid valve by tube channel after often moving a fragment position The processing at bottom, what the present apparatus can automate carries out processing reinforcing to bent cap substrate, can also facilitate the work of construction personnel, subtract Can also accelerate treatment effeciency while few manpower service time makes the work construction time shorten, and also makes the safety and use of bridge Service life increases.
Description of the drawings
The present invention is described in detail by following specific embodiment and attached drawing for ease of explanation,.
Fig. 1 is a kind of internal structure schematic diagram of Cast-in-place Bent Cap construction method of the present invention;
Fig. 2 is the structural schematic diagram in direction " A-A " in Fig. 1;
Fig. 3 is the vertical view in direction " B-B " in Fig. 2.
Specific implementation mode
As shown in Figure 1-Figure 3, a kind of Cast-in-place Bent Cap construction method of the invention, including apparatus main body 10, be set to it is described It the first equipment on apparatus main body 10, the second equipment being set in described device main body 10 and is set to described Third equipment on apparatus main body 10, first equipment include being set to 10 right end of described device main body and fixing to connect The right end of the pressurizing block 11 connect, the pressurizing block 11 is provided with opening to the right and the first groove of rear side inner wall connection free surrounding space 12, it is provided with rotatable pressure road block 13 in first groove 12, is fixedly connected at the axle center of the pressure road block 13 front and back The first rotating shaft 14 being connected on first groove, 12 upper and lower sides inner wall that is rotatably assorted respectively by bearing is held, described first is recessed The first drive cavity 15 is provided in the upper inside walls of slot 12, the upper end of the first rotating shaft 14, which extends, is passed through first drive cavity In 15 and it is fixedly connected with rotatable first bevel gear 16, is provided in first drive cavity 15 rotatable and with described the One bevel gear 16 engages the second bevel gear 17 being connected, and front and back end is fixedly connected at the axle center of the second bevel gear 17 The second shaft 18 being rotatably assorted respectively by bearing before and after being connected to first drive cavity 15 on the inner wall of side, described device master First gear chamber 19 is provided in body 10, the left end extension of second shaft 18 is passed through in the first gear chamber 19 and at it On be fixedly connected with rotatable first spur gear 20, the downside inner wall of the first gear chamber 19 is provided with and communicated with the second transmission Chamber 21, the lower end of first spur gear 20 extends into second drive cavity 21 and engagement is connected with rotatable the Two spur gears 22, are fixedly connected with left and right end at the axle center of second spur gear 22 and are rotatably assorted respectively by bearing and be connected to Third shaft 23 on second drive cavity, 21 left and right sides inner wall is fixedly connected with third hand tap gear in the third shaft 23 24, the downside inner wall of second drive cavity 21 is provided with and communicated with second gear chamber 25, is provided in the second gear chamber 25 The 4th bevel gear 26 that is rotatable and engage mating connection with 24 lower end of the third hand tap gear, under the second gear chamber 25 It is provided with third drive cavity 27 in the inner wall of side, rotatable and lower end is fixedly connected at the axle center of the 4th bevel gear 26 and is extended The lower end of the 4th shaft 28 being passed through in the third drive cavity 27, the 4th shaft 28 is fixedly connected with rotatable disk 29, the inner left wall of the third drive cavity 27 is provided with and communicated with sliding cavity 30, and the lower end of the disk 29 is eccentric and fixation connects Be connected to fixed block 40, the front end of the disk 29 be provided be rotatably assorted with the fixed block 40 connect and left end extend into it is described Catch bar 31 in sliding cavity 30, the left end of the catch bar 31, which is rotatably assorted to be connected with, can grab left and right cunning in the sliding cavity 30 Sealing plate block 32 that is dynamic and symmetrical above and below and being fixedly connected by connecting rod, the upper inside walls of the sliding cavity 30 are provided with and communicated with opening Upward rubble slot 33, is provided with perforative first through hole 34 up and down on the downside inner wall of the sliding cavity 30, when original state, The sealing plate block 32 separates rubble slot 33 and first through hole 34, and rubble can not be fallen to outside apparatus main body.
Valuably, second equipment includes the third gear being set in 19 inner left wall of first gear chamber The left end extension of chamber 41, second shaft 18 is passed through in the third gear cavity 41 and is fixedly connected on it rotatable The inner left wall of 5th bevel gear 42, the third gear cavity 41 is provided with and communicated with the 4th gear cavity 43, the 4th gear cavity It is provided with rotatable and right end in 43 and extends into the third gear cavity 41 and is engaged with 42 lower end of the 5th bevel gear and matches The 6th bevel gear 44 of connection is closed, upper end is fixedly connected at the axle center of the 6th bevel gear 44 and is matched respectively by bearing rotation It closes and is connected to the 5th shaft 45 on 43 upper and lower sides inner wall of the 4th gear cavity, in the downside inner wall of the 4th gear cavity 43 It is provided with the 4th drive cavity 46, the lower end of the 5th shaft 45, which extends, to be passed through in the 4th drive cavity 46 and turn by bearing It is dynamic to be connected in being fixedly connected on 43 downside inner wall of the 4th drive cavity and on it rotatable 7th bevel gear 47, Be provided in 4th drive cavity 43 engaged with the 7th bevel gear 47 be connected the 8th bevel gear 48, the described 4th It is provided with the 5th drive cavity 49 in the rear side inner wall of drive cavity 43, rear end is fixedly connected at the axle center of the 8th bevel gear 48 Extension is passed through in the 5th drive cavity 49 and is connected on 49 rear side inner wall of the 5th drive cavity by the way that shaft rotation is dynamic 6th shaft 50 is fixedly connected with the first transmission gear that can be rotated in the 5th drive cavity 49 in the 6th shaft 50 51, it is provided in the 5th drive cavity 49 symmetrical and engages second to be connected with first transmission gear 51 and pass Moving gear 52, the rear end of the 6th shaft 50, which extends outside described device main body 10 and is fixedly connected with first, puts down plate 53, It is fixedly connected with rear end at the axle center of second transmission gear 52 and extends the steering shaft 54 outside main body 10, described turn It is fixedly connected with and described first puts down that plate 53 is aligned second puts down plate 55 to the rear end of axis 54.
Valuably, the third equipment includes the 5th gear being set in 41 inner left wall of third gear cavity Chamber 60, the left end of second shaft 18 extend into the 5th gear cavity 60 and be rotatably assorted by bearing be connected to it is described It is fixedly connected in 5th gear cavity, 60 inner left wall and on it rotatable 9th bevel gear 61, the 5th gear cavity 60 Inner left wall be provided with and communicated with the 6th gear cavity 62, be provided in the seven or six gear cavity 62 rotatable and with the described 9th Bevel gear 61 engages the tenth bevel gear 63 being connected, and opening upwards are provided on the downside inner wall of the 6th gear cavity 62 Gear grooved 64, lower end be fixedly connected at the axle center of the tenth bevel gear 63 extend and be passed through in the gear grooved 64 and pass through Bearing is rotatably assorted the 7th shaft 65 being connected on 64 downside inner wall of the gear grooved, and described in the gear grooved 64 It is fixedly connected with drive bevel gear 66 in seven shafts 65, stirring for opening forward is provided in the downside inner wall of the gear grooved 64 Chamber 67, the rear end engagement of the drive bevel gear 66 are connected with the extension of rotatable and lower end and are passed through in the stir chamber 67 Driven wheel of differential 68 is provided with rotatable stirring block 69 in the stir chamber 67, and the outer end of the stirring block 69 is fixedly connected There is the gear ring block 70 that can be engaged and be connected with the driven wheel of differential 68, the upper end of the stirring block 69 is provided with opening upwards Work nest 71, stirring cutter 72 is fixedly connected on the inner wall of the work nest 70, the lower end of the stirring block 69, which is fixed, to be connected It is connected to the rotary shaft 73 that lower end rotates quota Ei by bearing and is connected on 67 downside inner wall of the stir chamber, the work nest It is provided with and runs through up and down and by the tube channel 74 of connection free surrounding space after rotary shaft 73, the tube channel on 71 downside inner wall Solenoid valve 75 is fixedly installed in 74.
Valuably, 10 lower end of described device main body is provided with driving wheel 76, and the driving wheel 76 advances to pushing meanss The roads Shi Ya block 13 rolls driving equipment while road pavement is pressurizeed and carries out.
Described method includes following steps:
First, device is moved to by personnel needs Coping Construction place to carry out the processing of substrate to it, starts driving wheel 76 and drives The roads device advance Shi Ya block 13 can be abutted with ground to work, and pressure road block 13 rolls the ground after pressurization due to first rotating shaft 14 rotations drive first bevel gear 16 to rotate, and the rotation of second bevel gear 17 is made to drive the rotation of the second shaft 18, while the first straight-tooth Wheel 20 drives the rotation of the second spur gear 22, third shaft 23 to drive the rotation of third hand tap gear 24 that the 4th bevel gear 26 is made to rotate, the Four shafts 28 pass through catch bar 31 while driving the rotation of disk 29 that fixed block 40 is made to carry out center of circle movement and sealing plate block 32 are driven to exist It horizontally slips in sliding cavity 30, so that rubble slot 33 is connected to first through hole 34 and fall on rubble to the ground pressurizeed.
Secondly, it also drives the 5th bevel gear 42 to rotate while the second shaft 18 rotates, the 6th bevel gear 44 is made to drive the The rotation of five shafts 45 rotates the 7th bevel gear 47, to which the 8th bevel gear 48 drives the rotation of the 6th shaft 50 by the second driving cog 52 rotation of wheel, at the same time the first transmission gear 51 drive first to put down plate 53 and second put down 55 turns of plate simultaneously with steering shaft 54 It is dynamic, the rubble that front is fallen is paved during device advances, while the rotation of the second shaft 18 drives the 9th bevel gear 61 rotations, the rotation of the tenth bevel gear 63 drive the rotation of the 7th shaft 65 to rotate drive bevel gear 66, at this time driven wheel of differential 68 Rotation drives stirring block 69 to be stirred concrete, and concrete is passed through channel by opens solenoid valve 75 after often moving a fragment position Pipe 74 falls on the road surface for pave rubble the processing for carrying out bent cap substrate.
When carrying out duct cleaning by the present apparatus, device is moved to by personnel needs Coping Construction place to carry out substrate to it Processing, start driving wheel driving device advance Shi Ya roads block and can be abutted with ground and works, pressure road block rolls pressurize after Ground due to first rotating shaft rotate drive first bevel gear rotation, make second bevel gear rotation drive the second shaft rotation, together When the first spur gear drive the rotation of the second spur gear, third shaft to drive third hand tap gear rotation that the 4th bevel gear is made to rotate, the Four shafts are disc-rotated to be made to drive sealing plate block left in sliding cavity by catch bar while fixed block progress center of circle movement Right sliding makes rubble slot be connected to first through hole and falls on rubble to the ground pressurizeed, also band while the second shaft rotates Dynamic 5th bevel gear rotation, makes the 6th bevel gear that the rotation of the 5th shaft be driven to rotate the 7th bevel gear, to the 8th bevel gear The rotation of the 6th shaft is driven to rotate the second transmission gear, the first transmission gear drives first to sweep simultaneously with steering shaft at the same time Tablet and second plate rotation is put down, the rubble that front is fallen is paved during device advances, while the second shaft turn Dynamic to drive the rotation of the 9th bevel gear, the rotation of the tenth bevel gear drives the rotation of the 7th shaft to rotate drive bevel gear, driven at this time Bevel gear rotation drives stirring block to be stirred concrete, often move opens solenoid valve after a fragment position concrete is passed through it is logical Deferent falls on the road surface for pave rubble the processing for carrying out bent cap substrate.
The beneficial effects of the invention are as follows:The configuration of the present invention is simple, it is easy to operate, when carrying out duct cleaning by the present apparatus, Device is moved to by personnel needs Coping Construction place to carry out the processing of substrate to it, and starting the advance of driving wheel driving device makes pressure Road block can be abutted with ground and be worked, and pressure road block rolls the ground after pressurization since first rotating shaft rotation drives the first cone tooth Wheel rotation makes second bevel gear rotation drive the rotation of the second shaft, while the first spur gear drives the rotation of the second spur gear, third Shaft drives third hand tap gear rotation that the 4th bevel gear is made to rotate, and the 4th shaft is disc-rotated to make fixed block carry out center of circle fortune It drives sealing plate block to horizontally slip in sliding cavity by catch bar while dynamic, so that rubble slot is connected to first through hole and fall rubble To the ground pressurizeed, the second shaft also drives the 5th bevel gear to rotate while rotation, and the 6th bevel gear is made to drive the 5th Shaft rotation rotates the 7th bevel gear, to which the 8th bevel gear drives the rotation of the 6th shaft to rotate the second transmission gear, The first transmission gear and steering shaft drive first to put down plate and second put down plate rotation simultaneously simultaneously for this, during device advances The rubble that front is fallen is paved, while the rotation of the second shaft drives the rotation of the 9th bevel gear, the tenth bevel gear to rotate band Dynamic 7th shaft rotation rotates drive bevel gear, and driven wheel of differential rotation at this time drives stirring block to be stirred concrete, Concrete is fallen to progress bent cap base on the road surface for pave rubble by opens solenoid valve by tube channel after often moving a fragment position The processing at bottom, what the present apparatus can automate carries out processing reinforcing to bent cap substrate, can also while reducing the manpower service time Accelerating treatment effeciency makes the work construction time shorten, and also increases the safety of bridge and service life.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection domain should be determined by the scope of protection defined in the claims.

Claims (4)

1. a kind of Cast-in-place Bent Cap construction method of the present invention, including apparatus main body, the first work for being set in described device main body Make device, the second equipment being set in described device main body and the third work clothes being set in described device main body It sets, first equipment includes the pressurizing block for being set to described device main body right end and being fixedly connected, the right side of the pressurizing block End is provided with opening to the right and the first groove of rear side inner wall connection free surrounding space, is provided in first groove rotatable Road block is pressed, front and back end is fixedly connected at the axle center of the pressure road block and is rotatably assorted that be connected to described first recessed by bearing respectively First rotating shaft on slot upper and lower sides inner wall, is provided with the first drive cavity in the upper inside walls of first groove, described first turn The upper end of axis, which extends, to be passed through in first drive cavity and is fixedly connected with rotatable first bevel gear, first drive cavity It is inside provided with rotatable and engages the second bevel gear being connected, the axle center of the second bevel gear with the first bevel gear Place be fixedly connected with front and back end be rotatably assorted respectively by bearing be connected to first drive cavity before and after on the inner wall of side second Shaft, first gear chamber is provided in described device main body, and the left end extension of second shaft is passed through the first gear chamber Interior and be fixedly connected with rotatable first spur gear on it, the downside inner wall of the first gear chamber is provided with and communicated with second The lower end of drive cavity, first spur gear extends into second drive cavity and engagement is connected with rotatable second Spur gear, is fixedly connected with left and right end at the axle center of second spur gear and is rotatably assorted respectively by bearing and be connected to described Third shaft on two drive cavity left and right sides inner walls is fixedly connected with third hand tap gear in the third shaft, and described second passes The downside inner wall of dynamic chamber is provided with and communicated with second gear chamber, and the second gear intracavitary is provided with rotatable and is bored with the third The 4th bevel gear being connected is engaged in gear lower end, and third drive cavity is provided in the downside inner wall of the second gear chamber, It is fixedly connected with rotatable and lower end at the axle center of 4th bevel gear and extends the 4th turn be passed through in the third drive cavity The lower end of axis, the 4th shaft is fixedly connected with rotatable disk, the inner left wall connection setting of the third drive cavity There is sliding cavity, the lower end of the disk is eccentric and is fixedly connected with fixed block, and the front end of the disk is provided with and the fixation Block is rotatably assorted connection and left end extends into the catch bar in the sliding cavity, and the left end of the catch bar, which is rotatably assorted, to be connected with It can grab and horizontally slip in the sliding cavity and sealing plate block that is symmetrical above and below and being fixedly connected by connecting rod, the upside of the sliding cavity Inner wall is provided with and communicated with the rubble slot of opening upwards, and it is logical that upper and lower perforative first is provided on the downside inner wall of the sliding cavity Hole, when original state, the sealing plate block separates rubble slot and first through hole, and rubble can not be fallen to outside apparatus main body.
2. a kind of Cast-in-place Bent Cap construction method according to claim 1, it is characterised in that:Second equipment includes The left end extension of the third gear cavity being set in the first gear chamber inner left wall, second shaft is passed through the third It is fixedly connected in gear cavity and on it rotatable 5th bevel gear, the inner left wall connection setting of the third gear cavity Have the 4th gear cavity, be provided in the 4th gear cavity rotatable and right end extend into the third gear cavity and with it is described The 6th bevel gear being connected is engaged in 5th bevel gear lower end, and upper end point is fixedly connected at the axle center of the 6th bevel gear Be not rotatably assorted by bearing the 5th shaft being connected on the 4th gear cavity upper and lower sides inner wall, the 4th gear cavity The 4th drive cavity is provided in the inner wall of downside, the lower end of the 5th shaft, which extends, to be passed through in the 4th drive cavity and pass through axis Forward it is dynamic be connected on the downside of the 4th drive cavity on inner wall and be fixedly connected with rotatable 7th bevel gear on it, The 8th bevel gear for engaging and being connected with the 7th bevel gear, the 4th drive cavity are provided in 4th drive cavity Rear side inner wall in be provided with the 5th drive cavity, be fixedly connected at the axle center of the 8th bevel gear rear end extend be passed through it is described In 5th drive cavity and by dynamic the 6th shaft being connected on rear side of the 5th drive cavity on inner wall of shaft rotation, the described 6th It is fixedly connected with the first transmission gear that can be rotated in the 5th drive cavity in shaft, is provided in the 5th drive cavity The second transmission gear symmetrical and that mating connection is engaged with first transmission gear, the rear end of the 6th shaft extend Go out outside described device main body and be fixedly connected with first and put down plate, rear end is fixedly connected at the axle center of second transmission gear Extend the steering shaft outside the main body, the rear end of the steering shaft is fixedly connected with sweeps the of plate alignment with described first Two put down plate.
3. a kind of Cast-in-place Bent Cap construction method according to claim 1, it is characterised in that:The third equipment includes The left end of the 5th gear cavity being set in the third gear cavity inner left wall, second shaft extends into the 5th tooth It takes turns intracavitary and is rotatably assorted by bearing and be connected in the 5th gear cavity inner left wall and be fixedly connected with can turn on it The inner left wall of the 9th dynamic bevel gear, the 5th gear cavity is provided with and communicated with the 6th gear cavity, the seven or six gear cavity It is inside provided with rotatable and engages the tenth bevel gear being connected, the downside of the 6th gear cavity with the 9th bevel gear The gear grooved of opening upwards is provided on inner wall, be fixedly connected at the axle center of the tenth bevel gear lower end extend be passed through it is described Be rotatably assorted the 7th shaft being connected on the downside of the gear grooved on inner wall in gear grooved and by bearing, in the gear grooved The 7th shaft on be fixedly connected with drive bevel gear, be provided with for opening forward stir in the downside inner wall of the gear grooved Mix chamber, the rear end engagement of the drive bevel gear be connected with rotatable and lower end extend be passed through it is driven in the stir chamber Bevel gear, is provided with rotatable stirring block in the stir chamber, the outer end of the stirring block be fixedly connected with can with it is described from The gear ring block that dynamic bevel gear engagement is connected, the upper end of the stirring block is provided with the work nest of opening upwards, the work Stirring cutter is fixedly connected on the inner wall of slot, the lower end of the stirring block is fixedly connected with lower end and rotates quota Ei by bearing With the rotary shaft being connected on the downside of the stir chamber on inner wall, it is provided on the downside inner wall of the work nest and runs through and lead to up and down It crosses after rotary shaft and is connected to the tube channel of free surrounding space, solenoid valve is fixedly installed in the tube channel.
4. a kind of Cast-in-place Bent Cap construction method according to claim 1, it is characterised in that:Described device lower body is arranged There are driving wheel, the driving wheel to be rolled while road pavement is pressurizeed to the roads pushing meanss advance Shi Ya block and drive work clothes Set progress;Described method includes following steps:
First, device is moved to by personnel needs Coping Construction place to carry out the processing of substrate to it, starts driving wheel and drives dress It sets the roads advance Shi Ya block and can be abutted with ground and worked, pressure road block rolls the ground after pressurization since first rotating shaft rotates band Dynamic first bevel gear rotation, makes second bevel gear rotation drive the rotation of the second shaft, while the first spur gear drives the second straight-tooth Wheel rotation, third shaft drive third hand tap gear rotation that the 4th bevel gear is made to rotate, and the 4th shaft is disc-rotated to make fixation It drives sealing plate block to horizontally slip in sliding cavity by catch bar while block carries out center of circle movement, makes rubble slot and first through hole Connection is fallen on rubble to the ground pressurizeed;Secondly, it also drives the 5th bevel gear to rotate while the second shaft rotates, makes the Six bevel gears drive the rotation of the 5th shaft to rotate the 7th bevel gear, to which the 8th bevel gear drives the rotation of the 6th shaft by second Transmission gear rotates, and the first transmission gear and steering shaft drive first to put down plate and second put down plate rotation simultaneously at the same time, The rubble that front is fallen is paved during device advances, while the rotation of the second shaft drives the rotation of the 9th bevel gear, The rotation of tenth bevel gear drives the rotation of the 7th shaft to rotate drive bevel gear, and driven wheel of differential rotation at this time drives stirring block pair Concrete is stirred, and concrete is fallen to the road for paving rubble by opens solenoid valve by tube channel after often moving a fragment position The processing of bent cap substrate is carried out on face.
CN201810719835.0A 2018-07-03 2018-07-03 A kind of Cast-in-place Bent Cap construction method Active CN108611988B (en)

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN201865054U (en) * 2010-11-19 2011-06-15 贵阳深友工贸有限责任公司 Hydraulic climbing formwork device for high bridge pier
CN202830776U (en) * 2012-09-02 2013-03-27 中铁十二局集团第二工程有限公司 Bridge variable cross-section rectangular high pier cantilever creeping formwork construction device
KR20130110238A (en) * 2012-03-18 2013-10-10 박준국 Floating hydro power and wind power system
CN206438449U (en) * 2017-01-17 2017-08-25 河南省交科公路勘察设计有限公司 A kind of Novel road bridge anticollision device, collision-prevention device
CN107231963A (en) * 2017-07-19 2017-10-10 徐化均 Bridge pier spatial greening structure and its construction method
CN206591440U (en) * 2017-01-22 2017-10-27 中交第二航务工程局有限公司 It is a kind of to be used to build formwork structure and bridge pier structure with reeded bridge pier

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN201865054U (en) * 2010-11-19 2011-06-15 贵阳深友工贸有限责任公司 Hydraulic climbing formwork device for high bridge pier
KR20130110238A (en) * 2012-03-18 2013-10-10 박준국 Floating hydro power and wind power system
CN202830776U (en) * 2012-09-02 2013-03-27 中铁十二局集团第二工程有限公司 Bridge variable cross-section rectangular high pier cantilever creeping formwork construction device
CN206438449U (en) * 2017-01-17 2017-08-25 河南省交科公路勘察设计有限公司 A kind of Novel road bridge anticollision device, collision-prevention device
CN206591440U (en) * 2017-01-22 2017-10-27 中交第二航务工程局有限公司 It is a kind of to be used to build formwork structure and bridge pier structure with reeded bridge pier
CN107231963A (en) * 2017-07-19 2017-10-10 徐化均 Bridge pier spatial greening structure and its construction method

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