CN106042171A - Prefabricated concrete round pile machining device - Google Patents
Prefabricated concrete round pile machining device Download PDFInfo
- Publication number
- CN106042171A CN106042171A CN201610454587.2A CN201610454587A CN106042171A CN 106042171 A CN106042171 A CN 106042171A CN 201610454587 A CN201610454587 A CN 201610454587A CN 106042171 A CN106042171 A CN 106042171A
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- China
- Prior art keywords
- plate
- convex edge
- lower bolster
- cope match
- plate pattern
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B21/00—Methods or machines specially adapted for the production of tubular articles
- B28B21/56—Methods or machines specially adapted for the production of tubular articles incorporating reinforcements or inserts
- B28B21/68—Methods or machines specially adapted for the production of tubular articles incorporating reinforcements or inserts and applying centrifugal forces
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B21/00—Methods or machines specially adapted for the production of tubular articles
- B28B21/76—Moulds
- B28B21/82—Moulds built-up from several parts; Multiple moulds; Moulds with adjustable parts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B21/00—Methods or machines specially adapted for the production of tubular articles
- B28B21/90—Methods or apparatus for demoulding or discharging after shaping
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Ceramic Engineering (AREA)
- Mechanical Engineering (AREA)
- Conveying And Assembling Of Building Elements In Situ (AREA)
Abstract
The invention provides a prefabricated concrete round pile machining device, and belongs to the technical field of building prefabricated member machining equipment. The prefabricated concrete round pile machining device solves the problem that an existing prefabricated concrete round pile machining device is low in machining efficiency. The prefabricated concrete round pile machining device comprises a base, an upper form board and a lower form board. The two ends of the lower form board are rotationally connected to the rack. The upper form board and the lower form board are each provided with a plurality of drive protruding edges. The base is connected with a plurality of adjusting boards. A plurality of drive wheels are rotationally connected to the adjusting boards. The wheel faces of the drive wheels abut against the drive faces of the drive protruding edges. The rack is in sliding connection with a moving block in the horizontal direction. A guide wheel is rotationally connected to the moving block. A winding wheel is rotationally connected to the rack. A lifting rope is wound around the winding wheel and wound around the guide wheel and is fixedly connected with a lifting hook. The upper form board is provided with a lifting lug. The prefabricated concrete round pile machining device is high in automation degree, and therefore the machining efficiency is improved, and the human cost is reduced.
Description
Technical field
The invention belongs to architectural prefab technical field of processing equipment, relate to a kind of precast concrete circle stake processing unit (plant).
Background technology
Along with reform and opening-up and the development of economic construction, pretensioned prestressed concrete pipe pile starts to be widely used in railway
System, and expand the fields such as industry and civil buildings, municipal administration, metallurgy, harbour, highway to, at Yangtze River Delta and Zhujiang River triangle
Area, continent, owing to geological conditions is suitable for the handling characteristics of pile tube, the demand of pile tube surges, thus quickly form one emerging
Industry.Concrete is injected in mould adding man-hour requirement by pile tube, is then rotated by centrifugation apparatus so that concrete pastes
It is attached on mould intracavity wall, after solidification, forms the pile body of tubulose, owing to mould is directed to the precast concrete that weight is bigger, because of
The weight of this mould self is the biggest, therefore drives mould rotation and the unlatching of mould and Guan Bi the most more difficulty, causes adding
Work inefficiency.
Summary of the invention
It is an object of the invention to there are the problems referred to above for existing technology, it is proposed that a kind of precast concrete circle stake processing
Device, this precast concrete circle stake processing unit (plant) automaticity is high, thus improves working (machining) efficiency, reduces human cost.
The purpose of the present invention can be realized by following technical proposal: a kind of precast concrete circle stake processing unit (plant), including
Base, cope match-plate pattern and lower bolster, described base upper side has frame, described cope match-plate pattern and lower bolster all in strip, and
Cope match-plate pattern is the most curved with the cross section of lower bolster, it is characterised in that the two ends of described lower bolster are rotatably connected in frame, institute
Long edge is hinged with the one of lower bolster to state a long edge of cope match-plate pattern, and forms column when cope match-plate pattern covers on lower bolster
Die cavity, the lateral surface of described cope match-plate pattern and lower bolster is respectively provided with the driving convex edge of some arcs, and when cope match-plate pattern covers
Time on lower bolster, the convex edge that drives on cope match-plate pattern forms the drive surface of annular with the convex edge that drives on lower bolster, and described base exists
The side of lower bolster slidably connects some adjustable plates, and described adjustable plate is rotatably connected to some driving wheels, these some drivings
Wheel and some driving convex edges one_to_one corresponding, the wheel face of described driving wheel compresses mutually with the drive surface driving convex edge, each driving wheel
All drive motor to be connected with one, described base is additionally provided with the tune of the thrust that can regulate between driving wheel and driving convex edge
Joint part, described frame horizontally over slidably connects movable block at cope match-plate pattern, and the moving direction of this movable block is with upper
The length direction of template is perpendicular, described movable block is rotatably connected to directive wheel, described frame is rotatably connected to reel,
Being wound with lifting rope on described reel, the free end of this lifting rope is walked around directive wheel and is fixed with suspension hook, the edge of described cope match-plate pattern
There is hanger, described frame is respectively equipped with when suspension hook is hooked on hanger the lifting motor and energy that reel can be driven to rotate
The lifting cylinder enough driving movable block to move, described frame is additionally provided with and can be positioned by lower bolster when cope match-plate pattern is lifted
Keeper.
Cope match-plate pattern is covered on lower bolster and is locked by bolt, the pillared die cavity of shape between cope match-plate pattern and lower bolster, to
Inject concrete in die cavity, owing to weight concrete is relatively big, therefore according to the amount of concrete, by regulating part regulation driving wheel with
Driving the thrust between convex edge, it is to avoid occur skidding between driving wheel and driving convex edge, one drives driven by motor one to drive
Driving wheel rotates, and the most some driving wheels drive cope match-plate pattern and lower bolster to rotate simultaneously, and the concrete in die cavity is at the work of centrifugal force
Stick on mould intracavity wall under with, thus form hollow round stake, after concrete setting, suspension hook is hooked in the hanger of cope match-plate pattern
On, lifting driven by motor reel rotates, and reel retracting lifting rope makes cope match-plate pattern gradually open, owing to hanger is opened at cope match-plate pattern
Running orbit during opening is circular arc, therefore lifts by crane cylinder action in movable block while lifting motor work so that move
Motion block moves with directive wheel, so that the lifting rope part between directive wheel and suspension hook is to keep vertically, and this processing unit (plant)
I.e. can be automatically obtained the rotation of cope match-plate pattern and lower bolster, it is also possible to realize the automatic open close of cope match-plate pattern, automaticity is high, no
But improve working (machining) efficiency, and reduce human cost.
In above-mentioned precast concrete circle stake processing unit (plant), the cross section of described driving convex edge is isosceles trapezoid, described
On the wheel face of driving wheel circumference offer annular against groove, described relative two cell walls against groove are all obliquely installed, described in drive
The drive surface of dynamic convex edge leans with the bottom surface against groove, drives the opposite sides face of convex edge and the relative two cell wall phases against groove
Against.Cross section is isosceles trapezoid so that drives the sidewall of convex edge more effectively to fit with against groove cell wall, thus improves both
Between frictional force, it is to avoid occur skid.
In above-mentioned precast concrete circle stake processing unit (plant), described base upper side offers some gathering sills, and
The length direction of gathering sill is perpendicular with the length direction of lower bolster, and the downside of described adjustable plate has two guiding convex edges,
Described guiding convex edge is slidably connected in gathering sill, is additionally provided with holddown spring in described gathering sill, and one end of this holddown spring is supported
Being pressed on base, the other end is pressed on the end face of guiding convex edge, and under the effect of holddown spring, driving wheel is pressed on driving convex edge
On.I.e. under the effect of holddown spring, driving wheel is pressed on driving convex edge, improves both frictional force.
In above-mentioned precast concrete circle stake processing unit (plant), described regulating part includes the regulation head of column, described guiding
There is in groove location division, this location division offers screw, the periphery wall of described regulation head has external screw thread, and regulation head spiral shell
Being connected in the screw of location division, one end of described regulation head is towards guiding convex edge, and one end of above-mentioned holddown spring is pressed on regulation
On the end face of head, the other end of described regulation head stretches out circumference on screw, and one end periphery wall stretched out and offers some grafting
Hole.Inserted by spanner in the spliced eye of regulation head, it is possible to drive regulation head to rotate so that regulation head moves axially and regulates pressure
The thrust of tight spring.
In above-mentioned precast concrete circle stake processing unit (plant), described adjustable plate upper side is respectively provided with connection seat, described
Driving wheel is connected to connect on seat by axis of rotation, and the end of described rotating shaft is fixed with driven sprocket, and described driving motor is solid
Being connected on adjustable plate, and be fixed with drive sprocket on the output shaft of driving motor, described drive sprocket and driven sprocket pass through chain
Bar connects.Chain gear transmission is passed through, it is possible to avoiding skidding, transmission is more stable between driving wheel and driving motor.
In above-mentioned precast concrete circle stake processing unit (plant), described frame is fixed with support in the upper horizontal of cope match-plate pattern
Plate, described gripper shoe offers bar v notch v, and the length direction of this v notch v is perpendicular with the length direction of cope match-plate pattern, institute
Relative two edges stating bar v notch v are respectively provided with support convex edge, and the opposite sides face of described movable block is all hinged with two rollers,
Described roller is resisted against on support convex edge.Roller can reduce the frictional force between movable block and gripper shoe so that movable block moves
Dynamic more smooth and easy.
In above-mentioned precast concrete circle stake processing unit (plant), described movable block offers and dodges breach, above-mentioned guiding
Wheel is rotatably connected on the inwall dodging breach, and the top of described directive wheel is protruded and dodged breach, in the wheel face last week of directive wheel
To offering stopper slot.Dodge breach and stopper slot and lifting rope is carried out spacing, it is to avoid lifting rope departs from directive wheel and clamping stagnation occurs.
In above-mentioned precast concrete circle stake processing unit (plant), described keeper includes the location-plate of U-shaped, on described base
Level is fixed with supporting plate, and described supporting plate is fixed with fairlead, and in described fairlead, sliding plug has location bar, above-mentioned location-plate
It is connected in the end, one end of location bar, and location-plate has connection along its length towards lower bolster, the edge of described lower bolster
Portion, described supporting plate is also fixed with positioning cylinder, and the piston rod of this positioning cylinder is fixedly connected with the other end of location bar, works as location
When the piston rod of cylinder stretches out, location-plate can be enclosed within the connecting portion of lower bolster, and i.e. connecting portion is in the U-shaped groove of location-plate
In.While cope match-plate pattern is lifted, positioning cylinder stretches out and makes location-plate be enclosed within connecting portion, thus avoid lower bolster due to
Side pressurized and occur tilt.
In above-mentioned precast concrete circle stake processing unit (plant), described lifting cylinder is connected on the downside of gripper shoe,
Having connection protuberance on the downside of described movable block, the piston rod of described lifting cylinder is fixedly connected with being connected protuberance.Structure letter
Single, Stroke Control is accurate.
In above-mentioned precast concrete circle stake processing unit (plant), described lifting motor is connected on gripper shoe upper side, on
State reel to be connected on the output shaft of lifting motor.Simple and stable structure.
Compared with prior art, this precast concrete circle stake processing unit (plant) has the advantage that
1, the rotation of cope match-plate pattern and lower bolster can be i.e. automatically obtained due to this processing unit (plant), it is also possible to realize cope match-plate pattern
Automatic open close, automaticity is high, not only increases working (machining) efficiency, and reduces human cost.
2, owing to being inserted in the spliced eye regulating head by spanner, it is possible to drive regulation head to rotate so that regulation head is axial
The mobile thrust regulating holddown spring, thus it is applicable to process the slow setting soil circle stake of Different Weight.
3, while being lifted due to cope match-plate pattern, positioning cylinder stretches out and makes location-plate be enclosed within connecting portion, thus avoids
Lower bolster occurs due to side pressurized
Accompanying drawing explanation
Fig. 1 is the perspective view of the present invention.
Fig. 2 is the structural side view of the present invention.
Fig. 3 is the schematic enlarged-scale view in Fig. 1 at A.
Fig. 4 is the schematic enlarged-scale view in Fig. 1 at B.
Fig. 5 is the schematic enlarged-scale view in Fig. 1 at C.
In figure, 1, base;11, frame;12, cope match-plate pattern;121, hanger;122, connecting portion;13, lower bolster;14, drive convex
Edge;15, gathering sill;16, location division;2, adjustable plate;21, driving wheel;211, against groove;22, motor is driven;23, convex edge is guided;
24, seat is connected;25, drive sprocket;26, driven sprocket;3, regulating part;31, holddown spring;32, regulation head;33, spliced eye;4、
Movable block;41, directive wheel;411, stopper slot;42, lifting cylinder;43, roller;44, breach is dodged;45, protuberance is connected;5, volume
Around wheel;51, lifting rope;52, suspension hook;53, lifting motor;6, keeper;61, location-plate;62, supporting plate;63, fairlead;64, location
Bar;65, positioning cylinder;7, gripper shoe;71, bar v notch v;72, convex edge is supported.
Detailed description of the invention
The following is the specific embodiment of the present invention and combine accompanying drawing, technical scheme is further described,
But the present invention is not limited to these embodiments.
As it is shown in figure 1, a kind of precast concrete circle stake processing unit (plant), including base 1, cope match-plate pattern 12 and lower bolster 13, the end
There is frame 11, cope match-plate pattern 12 and lower bolster 13 all in strip on seat 1 upper side, and cope match-plate pattern 12 and lower bolster 13 is transversal
Face is the most curved, and the two ends of lower bolster 13 are rotatably connected in frame 11, a long edge of cope match-plate pattern 12 and the one of lower bolster 13
Long edge is hinged, and the pillared die cavity of shape when cope match-plate pattern 12 covers on lower bolster 13, cope match-plate pattern 12 and lower bolster 13
Lateral surface on be respectively provided with the driving convex edge 14 of some arcs, and when cope match-plate pattern 12 covers on lower bolster 13 on cope match-plate pattern 12
The convex edge 14 of driving form the drive surface of annular with the convex edge 14 that drives on lower bolster 13, base 1 is a sideslip of lower bolster 13
Be dynamically connected some adjustable plates 2, and adjustable plate 2 is rotatably connected to some driving wheels 21, these some driving wheels 21 and some drivings
Convex edge 14 one_to_one corresponding, the wheel face of driving wheel 21 compresses mutually with the drive surface driving convex edge 14, and each driving wheel 21 all drives with one
Galvanic electricity machine 22 is connected, and base 1 is additionally provided with the regulating part of the thrust that can regulate between driving wheel 21 and driving convex edge 14
3, frame 11 horizontally over slidably connects movable block 4 at cope match-plate pattern 12, the moving direction of this movable block 4 and upper mold
The length direction of plate 12 is perpendicular, and movable block 4 is rotatably connected to directive wheel 41, and frame 11 is rotatably connected to reel 5, volume
Being wound with lifting rope 51 on wheel 5, the free end of this lifting rope 51 is walked around directive wheel 41 and is fixed with suspension hook 52, the edge of cope match-plate pattern 12
There is hanger 121, frame 11 is respectively equipped with when suspension hook 52 is hooked on hanger 121 lifting that reel 5 can be driven to rotate
Motor 53 and the lifting cylinder 42 that movable block 4 can be driven to move, frame 11 is additionally provided with can when cope match-plate pattern 12 is lifted
The keeper 6 that lower bolster 13 is positioned.
Cope match-plate pattern 12 is covered on lower bolster 13 and is locked by bolt, and between cope match-plate pattern 12 and lower bolster 13, shape is pillared
Die cavity, injects concrete in die cavity, owing to weight concrete is relatively big, therefore according to the amount of concrete, is regulated by regulating part 3
Thrust between driving wheel 21 and driving convex edge 14, it is to avoid occurring skidding between driving wheel 21 and driving convex edge 14, one is driven
Galvanic electricity machine 22 drives a driving wheel 21 to rotate, and the most some driving wheels 21 drive cope match-plate pattern 12 and lower bolster 13 to rotate simultaneously,
Concrete in die cavity sticks on mould intracavity wall under the influence of centrifugal force, thus forms hollow round stake, treats that concrete coagulates
Gu being hooked on the hanger 121 of cope match-plate pattern 12 by suspension hook 52 after, lifting motor 53 drives reel 5 to rotate, and reel 5 furls lifting rope
51 make cope match-plate pattern 12 gradually open, and owing to the hanger 121 running orbit in cope match-plate pattern 12 opening process is circular arc, therefore exist
Lift by crane cylinder 42 while lifting motor 53 work and act on movable block 4 so that movable block 4 moves with directive wheel 41, thus
Making lifting rope 51 part between directive wheel 41 and suspension hook 52 is to keep vertically, and this processing unit (plant) i.e. can be automatically obtained upper mold
Plate 12 and the rotation of lower bolster 13, it is also possible to realize the automatic open close of cope match-plate pattern 12, automaticity is high, not only increases processing
Efficiency, and reduce human cost.
Specifically, shown in Fig. 2, Fig. 3, the cross section driving convex edge 14 is isosceles trapezoid, the wheel face of driving wheel 21
Upper circumference offer annular against groove 211, relative two cell walls against groove 211 are all obliquely installed, drive convex edge 14 driving
Face leans with the bottom surface against groove 211, drives the opposite sides face of convex edge 14 to offset with relative two cell walls against groove 211
Leaning on, cross section is isosceles trapezoid so that drives the sidewall of convex edge 14 more effectively to fit with against groove 211 cell wall, thus improves
Frictional force between the two, it is to avoid occur skidding.
Some gathering sills 15 are offered on base 1 upper side, and the length of the length direction of gathering sill 15 and lower bolster 13
Direction is perpendicular, and the downside of adjustable plate 2 has two guiding convex edges 23, guides convex edge 23 and is slidably connected in gathering sill 15,
Being additionally provided with holddown spring 31 in gathering sill 15, one end of this holddown spring 31 is pressed on base 1, and it is convex that the other end is pressed on guiding
Along the end face of 23, under the effect of holddown spring 31, driving wheel 21 is pressed on driving convex edge 14, i.e. at holddown spring 31
The lower driving wheel 21 of effect is pressed on driving convex edge 14, improves both frictional force.
Regulating part 3 includes the regulation 32 of column, has connecting portion 122 in gathering sill 15, and this connecting portion 122 offers
Screw, the periphery wall of regulation 32 has external screw thread, and regulation 32 is screwed onto in the screw of connecting portion 122, regulation 32
One end towards guiding convex edge 23, one end of above-mentioned holddown spring 31 is pressed on the end face of regulation 32, regulation 32 another
One end is stretched out circumference on screw, and one end periphery wall stretched out and is offered some spliced eyes 33, inserts regulation 32 by spanner
Spliced eye 33 in, it is possible to drive regulation 32 to rotate so that regulation 32 moves axially the compression regulating holddown spring 31
Power.
Being respectively provided with connection seat 24 on adjustable plate 2 upper side, driving wheel 21 is connected to connect on seat 24 by axis of rotation, turns
The end of axle is fixed with driven sprocket 26, drives motor 22 to be connected on adjustable plate 2, and drives on the output shaft of motor 22 connected
There are drive sprocket 25, drive sprocket 25 to be connected by chain with driven sprocket 26, pass through between driving wheel 21 and driving motor 22
Chain gear transmission, it is possible to avoiding skidding, transmission is more stable.
Shown in Fig. 4, Fig. 5, frame 11 is fixed with gripper shoe 7 in the upper horizontal of cope match-plate pattern 12, and gripper shoe 7 is offered
Having bar v notch v 71, the length direction of this v notch v 71 is perpendicular with the length direction of cope match-plate pattern 12, the phase of bar v notch v 71
Two edges are respectively provided with support convex edge 72, the opposite sides face of movable block 4 is all hinged with two rollers 43, described roller 43 against
Supporting on convex edge 72, roller 43 can reduce the frictional force between movable block 4 and gripper shoe 7 so that movable block 4 moves more
Smooth and easy.
Offering on movable block 4 and dodge breach 44, directive wheel 41 is rotatably connected on the inwall dodging breach 44, directive wheel
The top of 41 is protruded and is dodged breach 44, and on the wheel face of directive wheel 41, circumference offers stopper slot 411, dodges breach 44 and spacing
Lifting rope 51 is carried out spacing by groove 411, it is to avoid lifting rope 51 departs from directive wheel 41 and clamping stagnation occurs.
Keeper 6 includes the location-plate 61 of U-shaped, and on base 1, level is fixed with supporting plate 62, and supporting plate 62 is fixed with fairlead
63, in fairlead 63, sliding plug has location bar 64, and location-plate 61 is connected in the end, one end of location bar 64, and location-plate 61 court
To lower bolster 13, the edge of lower bolster 13 has connecting portion 122 along its length, and supporting plate 62 is also fixed with positioning cylinder 65,
The piston rod of this positioning cylinder 65 is fixedly connected with the other end of location bar 64, the location-plate when the piston rod of positioning cylinder 65 stretches out
61 can be enclosed within the connecting portion 122 of lower bolster 13, i.e. connecting portion 122 is positioned at the U-shaped groove of location-plate 61, when cope match-plate pattern 12
While being lifted, positioning cylinder 65 stretches out and makes location-plate 61 be enclosed within connecting portion 122, thus avoids lower bolster 13 due to one
Side pressurized and occur tilt.
Lifting cylinder 42 is connected on the downside of gripper shoe 7, the downside of movable block 4 has connection protuberance 45, rises
The piston rod hanging cylinder 42 is fixedly connected with being connected protuberance 45, and simple in construction, Stroke Control is accurate.Lifting motor 53 is connected in support
On plate 7 upper side, reel 5 is connected on the output shaft of lifting motor 53, simple and stable structure.
Specific embodiment described herein is only to present invention spirit explanation for example.Technology neck belonging to the present invention
Described specific embodiment can be made various amendment or supplements or use similar mode to replace by the technical staff in territory
Generation, but without departing from the spirit of the present invention or surmount scope defined in appended claims.
Claims (10)
1. a precast concrete circle stake processing unit (plant), including base (1), cope match-plate pattern (12) and lower bolster (13), described base
(1) there is frame (11), described cope match-plate pattern (12) and lower bolster (13) all in strip on upper side, and cope match-plate pattern (12) with under
The cross section of template (13) is the most curved, it is characterised in that the two ends of described lower bolster (13) are rotatably connected in frame (11),
One long edge of described cope match-plate pattern (12) is hinged with a long edge of lower bolster (13), and when cope match-plate pattern (12) covers in lower mold
Shape pillared die cavity when plate (13) is upper, the lateral surface of described cope match-plate pattern (12) and lower bolster (13) is respectively provided with some arcs
Drive convex edge (14), and when cope match-plate pattern (12) covers when lower bolster (13) is upper, the driving convex edge (14) on cope match-plate pattern (12) and
Driving convex edge (14) on lower bolster (13) forms the drive surface of annular, and described base (1) is at a Slideslip of lower bolster (13)
Connect and have some adjustable plates (2), described adjustable plate (2) is rotatably connected to some driving wheels (21), these some driving wheels (21)
With some driving convex edge (14) one_to_one corresponding, the wheel face of described driving wheel (21) compresses mutually with the drive surface driving convex edge (14),
Each driving wheel (21) all drives motor (22) to be connected with one, described base (1) is additionally provided with and can regulate driving wheel (21)
And drive the regulating part (3) of thrust between convex edge (14), described frame (11) in the top of cope match-plate pattern (12) along level side
To slidably connecting movable block (4), the moving direction of this movable block (4) is perpendicular with the length direction of cope match-plate pattern (12), described
It is rotatably connected to directive wheel (41) on movable block (4), described frame (11) is rotatably connected to reel (5), described reel
(5) being wound with lifting rope (51) on, the free end of this lifting rope (51) is walked around directive wheel (41) and is fixed with suspension hook (52), described upper mold
The edge of plate (12) has hanger (121), and described frame (11) is respectively equipped with the energy when suspension hook (52) is hooked on hanger (121)
Enough drive the lifting motor (53) that reel (5) rotates and the lifting cylinder (42) that movable block (4) movement can be driven, described machine
The keeper (6) that lower bolster (13) can be positioned when cope match-plate pattern (12) is lifted it is additionally provided with on frame (11).
Precast concrete the most according to claim 1 circle stake processing unit (plant), it is characterised in that described driving convex edge (14)
Cross section is isosceles trapezoid, on the wheel face of described driving wheel (21) circumference offer annular against groove (211), described against groove
(211) relative two cell walls are all obliquely installed, and the drive surface of described driving convex edge (14) offsets with the bottom surface against groove (211)
Lean on, drive the opposite sides face of convex edge (14) to lean with relative two cell walls against groove (211).
Precast concrete the most according to claim 2 circle stake processing unit (plant), it is characterised in that described base (1) upper side
On offer some gathering sills (15), and the length direction of gathering sill (15) is perpendicular with the length direction of lower bolster (13), institute
Stating and have two guiding convex edges (23) on the downside of adjustable plate (2), described guiding convex edge (23) is slidably connected at gathering sill (15)
In, it being additionally provided with holddown spring (31) in described gathering sill (15), one end of this holddown spring (31) is pressed on base (1), separately
One end is pressed on the end face guiding convex edge (23), and under the effect of holddown spring (31), driving wheel (21) is pressed on driving convex edge
(14) on.
Precast concrete the most according to claim 3 circle stake processing unit (plant), it is characterised in that described regulating part (3) includes
The regulation head (32) of column, has location division (16) in described gathering sill (15), this location division offers screw on (16), described
There is on the periphery wall of regulation head (32) external screw thread, and regulation head (32) is screwed onto in the screw of location division (16), described regulation
One end of head (32) is towards guiding convex edge (23), and one end of above-mentioned holddown spring (31) is pressed on the end face of regulation head (32),
The other end of described regulation head (32) stretches out circumference on screw, and one end periphery wall stretched out and offers some spliced eyes (33).
5. according to the precast concrete circle stake processing unit (plant) described in claim 3 or 4, it is characterised in that on described adjustable plate (2)
Being respectively provided with connection seat (24) on side, described driving wheel (21) is connected to connect on seat (24) by axis of rotation, described rotating shaft
End be fixed with driven sprocket (26), described driving motor (22) is connected on adjustable plate (2), and drive motor (22) defeated
Being fixed with drive sprocket (25) on shaft, described drive sprocket (25) is connected by chain with driven sprocket (26).
Precast concrete the most according to claim 5 circle stake processing unit (plant), it is characterised in that described frame (11) is in upper mold
The upper horizontal of plate (12) is fixed with gripper shoe (7), and described gripper shoe (7) offers bar v notch v (71), this v notch v
(71) length direction is perpendicular with the length direction of cope match-plate pattern (12), and relative two edges of described bar v notch v (71) are respectively provided with
Supporting convex edge (72), the opposite sides face of described movable block (4) is all hinged with two rollers (43), described roller (43) is resisted against
Support on convex edge (72).
Precast concrete the most according to claim 6 circle stake processing unit (plant), it is characterised in that described movable block is opened on (4)
Being provided with and dodge breach (44), above-mentioned directive wheel (41) is rotatably connected on the inwall dodging breach (44), described directive wheel (41)
Top protrude dodge breach (44), on the wheel face of directive wheel (41), circumference offers stopper slot (411).
Precast concrete the most according to claim 7 circle stake processing unit (plant), it is characterised in that described keeper (6) includes U
The location-plate (61) of shape, the upper level of described base (1) is fixed with supporting plate (62), and described supporting plate is fixed with fairlead on (62)
(63), described fairlead (63) interior sliding plug has location bar (64), above-mentioned location-plate (61) to be connected in the one of location bar (64)
Hold end, and location-plate (61) has connecting portion along its length towards lower bolster (13), the edge of described lower bolster (13)
(122), described supporting plate (62) is also fixed with positioning cylinder (65), the piston rod of this positioning cylinder (65) and location bar (64)
The other end is fixedly connected with, and when the piston rod of positioning cylinder (65) stretches out, location-plate (61) can be enclosed within the connecting portion of lower bolster (13)
(122) on.
Precast concrete the most according to claim 8 circle stake processing unit (plant), it is characterised in that described lifting cylinder (42) is solid
It is connected on the downside of gripper shoe (7), the downside of described movable block (4) has connection protuberance (45), described lifting cylinder
(42) piston rod is fixedly connected with being connected protuberance (45).
Precast concrete the most according to claim 9 circle stake processing unit (plant), it is characterised in that described lifting motor (53)
Being connected on gripper shoe (7) upper side, above-mentioned reel (5) is connected on the output shaft of lifting motor (53).
Priority Applications (1)
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CN110385782A (en) * | 2018-04-23 | 2019-10-29 | 周兆弟 | The stake telescopic clamping jaw structure of mould |
CN112659341A (en) * | 2020-12-18 | 2021-04-16 | 倪敏芳 | Assembled precast concrete spare system of processing |
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CN102275221A (en) * | 2011-08-20 | 2011-12-14 | 周兆弟 | Concrete tube pile forming die and concrete tube pile forming method |
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Denomination of invention: A processing device for precast concrete round pile Effective date of registration: 20210820 Granted publication date: 20180116 Pledgee: Zhejiang Zhoushan Putuo Rural Commercial Bank Co.,Ltd. Donggang sub branch Pledgor: ZHEJIANG HONGYU ENGINEERING SURVEY AND DESIGN Co.,Ltd. Registration number: Y2021330001194 |