CN108247826A - Multi-functional pour smashes floating vibrational system - Google Patents
Multi-functional pour smashes floating vibrational system Download PDFInfo
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- CN108247826A CN108247826A CN201711473811.3A CN201711473811A CN108247826A CN 108247826 A CN108247826 A CN 108247826A CN 201711473811 A CN201711473811 A CN 201711473811A CN 108247826 A CN108247826 A CN 108247826A
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- 238000007667 floating Methods 0.000 title claims abstract description 19
- 230000005540 biological transmission Effects 0.000 claims description 55
- 239000000463 material Substances 0.000 claims description 52
- 238000007493 shaping process Methods 0.000 claims description 26
- 238000003756 stirring Methods 0.000 claims description 10
- 238000005192 partition Methods 0.000 claims description 9
- 230000008676 import Effects 0.000 claims description 6
- 239000002994 raw material Substances 0.000 claims description 4
- 208000002925 dental caries Diseases 0.000 claims description 3
- 238000005096 rolling process Methods 0.000 claims description 3
- 239000007787 solid Substances 0.000 claims description 2
- 238000000034 method Methods 0.000 abstract description 4
- 238000000465 moulding Methods 0.000 description 8
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 description 8
- 238000010586 diagram Methods 0.000 description 6
- 230000003137 locomotive effect Effects 0.000 description 6
- 230000000694 effects Effects 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 3
- 238000010276 construction Methods 0.000 description 2
- 238000005520 cutting process Methods 0.000 description 2
- 238000007599 discharging Methods 0.000 description 2
- 230000003287 optical effect Effects 0.000 description 2
- 241001416181 Axis axis Species 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000006641 stabilisation Effects 0.000 description 1
- 238000011105 stabilization Methods 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
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
- B28B13/00—Feeding the unshaped material to moulds or apparatus for producing shaped articles; Discharging shaped articles from such moulds or apparatus
- B28B13/02—Feeding the unshaped material to moulds or apparatus for producing shaped articles
- B28B13/0215—Feeding the moulding material in measured quantities from a container or silo
- B28B13/023—Feeding the moulding material in measured quantities from a container or silo by using a feed box transferring the moulding material from a hopper to the moulding cavities
- B28B13/025—Feeding the moulding material in measured quantities from a container or silo by using a feed box transferring the moulding material from a hopper to the moulding cavities the feed box being vibrated, e.g. to promote discharging of the material
-
- 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
- B28B13/00—Feeding the unshaped material to moulds or apparatus for producing shaped articles; Discharging shaped articles from such moulds or apparatus
- B28B13/02—Feeding the unshaped material to moulds or apparatus for producing shaped articles
- B28B13/0215—Feeding the moulding material in measured quantities from a container or silo
- B28B13/023—Feeding the moulding material in measured quantities from a container or silo by using a feed box transferring the moulding material from a hopper to the moulding cavities
- B28B13/0235—Feeding the moulding material in measured quantities from a container or silo by using a feed box transferring the moulding material from a hopper to the moulding cavities the feed box being provided with agitating means, e.g. stirring vanes to avoid premature setting of the moulding material
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Ceramic Engineering (AREA)
- Mechanical Engineering (AREA)
- On-Site Construction Work That Accompanies The Preparation And Application Of Concrete (AREA)
Abstract
The present invention provides multi-functional pour of one kind to smash floating vibrational system, belongs to field of mechanical technique.It solves the problems, such as that the prior art is not high there is stability.This multi-functional pours smashes floating vibrational system, including power vehicle, double-shaft mixers and blanking device, a hopper is fixed on power vehicle, above-mentioned double-shaft mixers and blanking device are both connected on power vehicle, above-mentioned blanking device is located at hopper lower part, and above-mentioned double-shaft mixers are between hopper and blanking device.This multi-functional pours smashes floating stability of vibration system height.
Description
Technical field
The invention belongs to field of mechanical technique, are related to a kind of multi-functional pour and smash floating vibrational system.
Background technology
Prefabricated pile needs concrete material stabilization being delivered at molding die in the production process.Existing manufacturing process
In be typically the concrete being stirred is directly injected at molding die, concrete time during feeding is long, in this way
It is unfavorable for prefabricated pile stable molding.
All it is by the way that concrete material manually is sent into molding die meanwhile during existing prefabricated pile production operation
Place.This operating type efficiency is low and labor intensity is big, moreover, directly by manual operation operation, safety is also compared
It is low.
Invention content
It is high the purpose of the present invention is in view of the above-mentioned problems existing in the prior art, providing a kind of compact-sized and stability
Multi-functional pour smashes floating vibrational system.
The purpose of the present invention can be realized by following technical proposal:
A kind of multi-functional pour smashes floating vibrational system, which is characterized in that is filled including power vehicle, double-shaft mixers and blanking
It puts, a hopper is fixed on power vehicle, above-mentioned double-shaft mixers and blanking device are both connected on power vehicle, above-mentioned blanking
Device is located at hopper lower part, and above-mentioned double-shaft mixers are between hopper and blanking device.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the power vehicle includes a stent, the mid-stent
For installing the blanking device of delivering concrete raw material, the frame bottom has four rolling, and two of which idler wheel is symmetrical
Stent forepart is arranged on, other two idler wheel is symmetrically arranged on stent rear portion, and the cradle top is fixed with force piece, and dynamic
Power part is connected with above-mentioned rollers, further includes a support plate, and above-mentioned support plate side is connected in stent side portion, support plate opposite side tool
There is guardrail.
Blanking device is rack-mount, this power vehicle is located at prefabricated pile shaping mould top.Pass through this power vehicle energy
Make the concrete material in blanking device quick and smoothly enter at shaping mould.
Specifically, having guide rail at shaping mould, the idler wheel of above-mentioned locomotive is located at guide rail, the entire machine under railway effect
Vehicle stably translational.
The setting of support plate and guardrail can make operator have enough standing rooms, meanwhile, the energy under the action of guardrail
Operator is avoided to properly increase its safety by being fallen on locomotive.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, be connected between the force piece and idler wheel by transmission chain.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the quantity of the support plate is two and two support plates pair
What is claimed is arranged on stent both sides.
Such setting can make operator be stood according to actual needs in the either side of locomotive.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the quantity of the force piece is identical with number of rollers and one by one
It is correspondingly arranged.
As can be seen that this locomotive can be made to overcome the workplace of various complexity by the way of four-wheel drive, effectively improve
Its stability.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the support plate is horizontally disposed with, and support plate side passes through weldering
It connects and is connected on stent.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the height between the support plate and cradle top is
0.6-1.2 meters.
Such structure can make to form the sky for operator is comfortable and stands safely between stent side portion, guardrail and support plate
Between.
Smash in above-mentioned multi-functional pour and smooth out vibrational system, the double-shaft mixers include it is internal be cavity housing,
The housing central section has partition board and housing is divided into two adjacent cavitys of left and right by partition board:Cavity one and cavity two, it is described
There is actuator, the top of the cavity two is the import communicated with its inner cavity, and two lower part of cavity is and its inner cavity in cavity one
The outlet communicated is axially fixed with two shafts in above-mentioned cavity two:Shaft one and shaft two, above-mentioned shaft one and shaft two-way
It crosses transmission mechanism to be connected with actuator, there is the stirring structure for stirring material in above-mentioned shaft one and shaft two.
Two shafts of use of this blender creativeness are stirred concrete material, and turning blender since this is double is located at
Between hopper and molding die.
It can quickly enter at molding die after concrete material is agitated, the finished product of prefabricated pile can be effectively improved in this way
Rate.Certainly, shaft one, shaft two and stirring structure are all located in housing, and therefore, structure is compact.
Cavity one and cavity two is made to separate completely under the action of partition board, the actuator in cavity one will not enter object
Material, effectively raises its stability.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the transmission mechanism includes transmission gear one and driving cog
Wheel two, above-mentioned transmission gear one is connected in shaft one, and above-mentioned transmission gear two is connected in shaft two, and transmission gear one is with passing
Moving gear two is meshed, and above-mentioned actuator is connected with shaft one.
While actuator drives the rotation of shaft one, shaft two can be made under the action of transmission gear one and transmission gear two
Also with rotating together.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the transmission gear one is located at that cavity one is interior and transmission gear
One is connected in shaft one end, and the transmission gear two is located in cavity one and transmission gear two is connected in two end of shaft.
Such structure is avoided that material enters at transmission gear one and transmission gear two, improves the stability of blender.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the actuator is motor.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the transmission mechanism includes transmission belt, and transmission belt is sleeved on
In shaft one and shaft two, the shaft one is connected with actuator one.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the stirring structure includes tubular sleeve, described
Sleeve is sleeved in shaft one and has flaky blade on the outside of sleeve.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the sleeve passes through key connection with shaft one.
Blade, using split structure, in this way convenient for handling, and can be also individually replaced with shaft after blade damage.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the quantity of the blade is at least three pieces, if above-mentioned cured leaf
Piece is circumferentially uniformly arranged along sleeve.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the quantity of the sleeve is several and sleeve along shaft one
Axial setting.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the blade on two neighboring sleeve is in interleaved state.
Material can be sufficiently stirred by such structure.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the blanking device, including being arranged on prefabricated forming pile
The rack on mould top, the rack side are connected with discharge component, and the rack opposite side has sub-material component, above-mentioned discharging group
Concrete material can be delivered at shaping mould by part, and above-mentioned sub-material component can fully tamp concrete material at shaping mould.
This blanking device creative setting discharge component and sub-material component in rack, can make concrete material quick
Into at shaping mould, while concrete material can be tamped adequately in shaping mould.
As can be seen that the yield rate of prefabricated pile can be effectively improved by this cutting agency.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the discharge component includes housing and feed spool, in housing
Portion is cavity, and upper part of the housing is the import communicated with its inner cavity, and lower part of the housing is the outlet communicated with its inner cavity, above-mentioned feed spool
Horizontally disposed and feed spool is located at exit.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, motor is fixed in the rack, the shaft of motor is with sending
Material shaft end is connected.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, there is the sub-material twist protruded on the outside of the feed spool
Piece.
Motor drive feed spool rotation process in, by sub-material piece can make concrete material stablize be filled in shaping mould
Place.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the motor is connected at upper rack, above-mentioned feed spool
It is connected at frame lower and between motor and feed spool by transmission chain and drive.
Such structure effectively can avoid concrete material from entering at motor, and appropriate improves present apparatus stability.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the sub-material component includes guide rod, guide cylinder, vibrating arm
And cylinder, above-mentioned guide rod and guide cylinder are tilted and are connected in rack, guide rod and guide cylinder are arranged in parallel, above-mentioned vibrating arm
Upper end is flexibly connected on the guide bar, is located in guide cylinder in the middle part of vibrating arm, vibrating arm lower end is above-mentioned close to above-mentioned feed spool
Cylinder is connected with vibrating arm.
Inclined vibrating arm moves back and forth under the action of cylinder, so as to which the concrete material in shaping mould fully be smash
It is real.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the angle of inclination of the guide rod is 50-70 degree.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the vibrating arm upper end is fixed with plate-like bottom plate, institute
Stating on bottom plate has cylindrical movable cylinder and movable jacket casing is on the guide bar, and vibrator is also fixed on above-mentioned bottom plate, on
It states vibrating arm upper end to be connected on a shaker, piston rod and the bottom plate of above-mentioned cylinder are connected.
Common vibrator of the vibrator for use during concrete jolt ramming.While vibrator drives vibrating arm vibration,
Cylinder drives vibrating arm upper and lower translation.The most abundant jolt ramming of concrete material at shaping mould at last of such manner of execution.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the guide cylinder includes spiral guide spring,
It is located in guide spring in the middle part of above-mentioned vibrating arm.
Helical spring has appropriate elasticity, vibrating arm can be played in vibration and moving process in vibrating arm certain
Cushioning effect.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, above-mentioned vibrator, vibrating arm and guide spring form one
Unit is tamped, the above-mentioned quantity for tamping unit is uniformly arranged for several and along the length direction of bottom plate.
Multiple carry out blanking operations for tamping unit energy batch, while delivering concrete raw material is stablized to multiple shaping moulds.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, further include a troweling mechanism, which is located at rack,
Including fixed seat one, fixed seat two, troweling actuator, swing arm and troweling axis, above-mentioned fixed seat one and fixed seat two are connected in
In rack, above-mentioned troweling actuator is connected in fixed seat one, and above-mentioned swing arm inner end is hinged on troweling axis, above-mentioned troweling axis axis
To being connected at swing arm outer end, there is drive mechanism between above-mentioned troweling actuator and troweling axis, above-mentioned troweling actuator passes through
Drive mechanism can drive troweling shaft rotation to move.
This troweling mechanism is creative to be firmly fixed to troweling actuator in rack by fixed seat one.Pass through fixation
Seat two is hinged on what swing arm inner end was stablized in rack.
When carrying out troweling construction operation, troweling actuator drives troweling shaft rotation to move by drive mechanism, the troweling axis of rotation
The concrete material on shaping mould top is smoothed out.
Simultaneously as swing arm inner end is hinged on two row of fixed seat, therefore, troweling axis is when carrying out troweling operation, energy
Appropriate swing by a small margin, so as to further improve its trowelability.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the troweling actuator is motor, and motor is connected in
In reservation one.
Smash in above-mentioned multi-functional pour and smooth out vibrational system, the fixed seat two include pedestal and positioned at pedestal top be in
The connecting portion of tubular, above-mentioned pedestal are connected in by fastener in rack, and above-mentioned swing arm inner end is hinged on the outside of connecting portion, above-mentioned
The shaft of motor is located at connecting portion.
It can stablize swing arm inner end by connecting portion to be hinged in fixed seat two, fixed seat two can be stablized by pedestal solid
It is connected in rack.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, there is bearing between the machine shaft and connecting portion.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the swing arm outer end has tubular positioning tube, above-mentioned
Troweling shaft end is axially connected in positioning tube.
The axial direction for smearing optical axis stable can be connected at swing arm outer end by positioning tube.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, there is bearing between the troweling shaft end and positioning tube.
Troweling axis can smooth rotation under the action of bearing.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, driving wheel is fixed in the shaft of the motor, it is described to smear
Optical axis end is fixed with driven wheel and driving wheel is connected with driven wheel.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the driving wheel is and driven wheel is sprocket wheel, driving wheel
It is connected with driven wheel by transmission chain.
It smashes in above-mentioned multi-functional pour and smoothes out vibrational system, the driving wheel and driven wheel are belt pulley, actively
Wheel is connected with driven wheel by transmission belt.
Smash in above-mentioned multi-functional pour and smooth out vibrational system, above-mentioned fixed seat one, fixed seat two, troweling actuator and
Swing arm forms a driving unit, and the quantity of the driving unit is two, and two driving units are located at the both ends of troweling axis respectively
Place.
Troweling shaft rotation being driven to move by two driving units, there are two act on:
One, since troweling axis both ends are all connected, can guarantee the connective stability of troweling axis;
Secondly, troweling shaft rotation can be driven to move due to two driving units, power is strong during troweling shaft rotation is moved
Strength can effectively improve troweling effect.
Compared with prior art, this multi-functional pours smashes floating vibrational system since discharge component and sub-material component being integrated in
In one rack, therefore, structure is compact.
The concrete material being sufficiently stirred can be made to rapidly enter at shaping mould by discharge component, can be incited somebody to action by sub-material component
Concrete material in shaping mould fully consolidates, and therefore, stability is higher, has very high practical value.
Description of the drawings
Fig. 1, which is that sheet is multi-functional, pours the main structure diagram smash and smooth out vibrational system.
Fig. 2, which is that sheet is multi-functional, pours the structure diagram smash and smooth out double-shaft mixers in vibrational system.
Fig. 3, which is that sheet is multi-functional, pours the side structure schematic view smash and smooth out vibrational system.
Fig. 4, which is that sheet is multi-functional, pours the structure diagram smash and smooth out the side view of blanking device in vibrational system.
Fig. 5, which is that sheet is multi-functional, pours the overlooking the structure diagram smash and smooth out blanking device in vibrational system.
Fig. 6, which is that sheet is multi-functional, pours the side structure schematic view smash and smooth out troweling mechanism in vibrational system.
Fig. 7, which is that sheet is multi-functional, pours the dimensional structure diagram smash and smooth out troweling mechanism in vibrational system.
Fig. 8, which is that sheet is multi-functional, pours the structure diagram smash and smooth out blanking device another program in vibrational system.
In figure, 1, stent;2nd, idler wheel;3rd, force piece;4th, support plate;5th, guardrail;6th, hopper;
A1, housing;A1a, cavity one;A1b, cavity two;A2, partition board;A3, shaft one;A4, shaft two;A5, transmission gear
One;A6, transmission gear two;A7, actuator;A8, sleeve;A8a, blade;
B2, rack;B3, feed spool;B3a, sub-material piece;B4, motor;B5, guide rod;B6, guide spring;B7, vibrating arm;
B8, cylinder;B9, bottom plate;B10, movable cylinder;B11, vibrator.
C2, fixed seat one;C3, fixed seat two;C3a, pedestal;C3b, connecting portion;C4, troweling actuator;C5, swing arm;
C5a, positioning tube;C6, troweling axis;C7, driving wheel;C8, driven wheel.
Specific embodiment
This is multi-functional to pour to smash and smoothes out vibrational system and include power vehicle, double-shaft mixers and blanking device, on power vehicle
A hopper 6 is fixed with, above-mentioned double-shaft mixers and blanking device are both connected on power vehicle, and above-mentioned blanking device is located at hopper
6 lower parts, above-mentioned double-shaft mixers between hopper 6 and blanking device
As shown in Figure 1, power vehicle includes including a stent 1 for the power vehicle of concrete conveyance, in the stent 1
Portion is used to install the blanking device of delivering concrete raw material, and 1 bottom of stent has four rolling 2, and two of which idler wheel 2 is right
What is claimed is arranged on 1 forepart of stent, other two idler wheel 2 is symmetrically arranged on 1 rear portion of stent, and 1 top of stent is fixed with dynamic
Power part 3, and force piece 3 is connected with above-mentioned rollers 2, further includes a support plate 4, above-mentioned 4 side of support plate is connected in 1 side of stent
Portion, 4 opposite side of support plate have guardrail 5.
It is connected between the force piece 3 and idler wheel 2 by transmission chain.
The quantity of the support plate 4 is symmetrically arranged on 1 both sides of stent for two and two support plates 4.
The quantity of the force piece 3 is identical with 2 quantity of idler wheel and is arranged in a one-to-one correspondence.
The support plate 4 is horizontally disposed, and 4 side of support plate is connected in by welding on stent 1.
Height between 1 top of the support plate 4 and stent is 0.6-1.2 meters.
Blanking device is rack-mount, this power vehicle is located at prefabricated pile shaping mould top.Pass through this power vehicle energy
Make the concrete material in blanking device quick and smoothly enter at shaping mould.
Specifically, having guide rail at shaping mould, the idler wheel of above-mentioned locomotive is located at guide rail, the entire machine under railway effect
Vehicle stably translational.
The setting of support plate and guardrail can make operator have enough standing rooms, meanwhile, the energy under the action of guardrail
Operator is avoided to properly increase its safety by being fallen on locomotive.
As shown in Fig. 2, double-shaft mixers include having in the middle part of internal housing A1, the housing A1 for cavity partition board A2 and
Housing A1 is divided into two adjacent cavitys of left and right by partition board A2:Have in one A1a of cavity and cavity two A1b, one A1a of cavity
There is actuator A7, the top of two A1b of cavity is the import communicated with its inner cavity, and two A1b lower parts of cavity are and its inner cavity phase
Logical outlet is axially fixed with two shafts in above-mentioned two A1b of cavity:One A3 of shaft and shaft two A4, above-mentioned one A3 of shaft and
Two A4 of shaft is connected by transmission mechanism and actuator A7, has to stir material on above-mentioned one A3 of shaft and two A4 of shaft
Stirring structure.
The transmission mechanism includes two A6 of one A5 of transmission gear and transmission gear, and above-mentioned one A5 of transmission gear, which is connected in, to be turned
On one A3 of axis, above-mentioned two A6 of transmission gear is connected on two A4 of shaft, and one A5 of transmission gear is meshed with two A6 of transmission gear, on
Actuator A7 is stated with one A3 of shaft to be connected.
One A5 of transmission gear is located in one A1a of cavity and one A5 of transmission gear is connected in one A3 ends of shaft, described
Two A6 of transmission gear is located in one A1a of cavity and two A6 of transmission gear is connected in two A4 ends of shaft.
The actuator A7 is motor.
According to actual conditions, the transmission mechanism includes transmission belt, and transmission belt is sleeved in shaft one and shaft two, described
It is also feasible that shaft one is connected with actuator one.
The stirring structure includes tubular sleeve A8, and the sleeve A8 is sleeved on one A3 of shaft and on the outside of sleeve A8
With flaky blade A8a.
The sleeve A8 and one A3 of shaft passes through key connection.
The quantity of the blade A8a is at least three pieces, and above-mentioned several blade A8a are circumferentially uniformly arranged along sleeve A8.
The quantity of the sleeve A8 is axially set for several and sleeve A8 along one A3 of shaft.
Blade A8a on two neighboring sleeve A8 is in interleaved state.
Two shafts of use of this blender creativeness are stirred concrete material, and turning blender since this is double is located at
Between hopper and molding die.
It can quickly enter at molding die after concrete material is agitated, the finished product of prefabricated pile can be effectively improved in this way
Rate.Certainly, shaft one, shaft two and stirring structure are all located in housing, and therefore, structure is compact.
Cavity one and cavity two is made to separate completely under the action of partition board, the actuator in cavity one will not enter object
Material, effectively raises its stability.
As shown in Fig. 3 and Fig. 4 and Fig. 5, the blanking device of concrete material includes being arranged on prefabricated pile shaping mould top
Rack B2, the rack B2 sides are connected with discharge component, and the rack B2 opposite sides have sub-material component, above-mentioned discharge component
Concrete material can be delivered at shaping mould, above-mentioned sub-material component can fully tamp concrete material at shaping mould.
The discharge component includes housing A1 and feed spool B3, is cavity inside housing A1, housing A1 tops be in it
The import that chamber communicates, housing A1 lower parts are the outlet communicated with its inner cavity, and above-mentioned feed spool B3 is horizontally disposed with and feed spool B3
In exit.
Motor B4 is fixed on the rack B2, shaft and the feed spool B3 ends of motor B4 are connected.
There is the sub-material piece B3a twist protruded on the outside of the feed spool B3.
The motor B4 is connected at rack B2 tops, and above-mentioned feed spool B3 is located at rack B2 lower parts and motor B4 is with sending
It is connected between material axis B3 by transmission chain and drive.
According to actual conditions, the quantity of feed spool B3 could be provided as two, so as to effectively improve discharging stability, see figure
Shown in 8.
The sub-material component includes guide rod B5, guide cylinder, vibrating arm B7 and cylinder B8, above-mentioned guide rod B5 and guide cylinder
It tilts and is connected on rack B2, guide rod B5 and guide cylinder are arranged in parallel, and above-mentioned vibrating arm B7 upper ends are movably connected in guiding
On bar B5, it is located in guide cylinder in the middle part of vibrating arm B7, vibrating arm B7 lower ends are close to above-mentioned feed spool B3, and above-mentioned cylinder B8 is with shaking
Lever B7 is connected.
The angle of inclination of the guide rod B5 is 50-70 degree.
The vibrating arm B7 upper ends, which are fixed on plate-like bottom plate B9, the bottom plate B9, has cylindrical movable cylinder
And movable jacket casing is also fixed with vibrator B11, above-mentioned vibrating arm B7 upper ends, which are connected in, to shake on guide rod B5 on above-mentioned bottom plate B9
On dynamic device B11, piston rod and the bottom plate B9 of above-mentioned cylinder B8 are connected.
The guide cylinder includes spiral guide spring B6, is located at guide spring B6 in the middle part of above-mentioned vibrating arm B7
It is interior.
Above-mentioned vibrator B11, vibrating arm B7 and guide spring B6 form one and tamp unit, the above-mentioned quantity for tamping unit
It is uniformly arranged for several and along the length direction of bottom plate B9.
This blanking device creative setting discharge component and sub-material component in rack, can make concrete material quick
Into at shaping mould, while concrete material can be tamped adequately in shaping mould.
As can be seen that the yield rate of prefabricated pile can be effectively improved by this cutting agency.
As shown in Figure 6 and Figure 7, this troweling mechanism is located at rack 1, is driven including one C2 of fixed seat, two C3 of fixed seat, troweling
Moving part C4, swing arm C5 and troweling axis C6, above-mentioned one C2 of fixed seat and two C3 of fixed seat are connected on rack C1, and above-mentioned troweling drives
Moving part C4 is connected on one C2 of fixed seat, and above-mentioned swing arm C5 inner ends are hinged on troweling axis C6, and above-mentioned troweling axis C6 is axially connected
At swing arm C5 outer ends, there is drive mechanism between above-mentioned troweling actuator C4 and troweling axis C6, above-mentioned troweling actuator C4 leads to
Crossing drive mechanism can drive troweling axis 6 to rotate.
The troweling actuator C4 is motor, and motor is connected on one C2 of fixed seat.
Two C3 of fixed seat includes pedestal C3a and positioned at the tubular connecting portion C3b in pedestal C3a tops, above-mentioned pedestal
C3a is connected in by fastener on rack C1, and above-mentioned swing arm C5 inner ends are hinged on the outside of connecting portion C3b, the shaft of above-mentioned motor
At connecting portion 3b.
There is bearing between the machine shaft and connecting portion C3b.
The swing arm C5 outer ends have tubular positioning tube C5a, and above-mentioned troweling axis C6 ends are axially connected in positioning tube
In C5a.
There is bearing between the troweling axis C6 ends and positioning tube C5a.
Driving wheel C7 is fixed in the shaft of the motor, the troweling axis C6 ends are fixed with driven wheel C8 and driving wheel
C7 is connected with driven wheel C8.
The driving wheel is and driven wheel is sprocket wheel, and driving wheel is connected with driven wheel by transmission chain.According to practical feelings
It is also feasible that condition, the driving wheel and driven wheel are belt pulley, driving wheel and driven wheel to be connected by transmission belt.
Above-mentioned one C2 of fixed seat, two C3 of fixed seat, troweling actuator C4 and swing arm C5 forms a driving unit, the drive
The quantity of moving cell is two, and two driving units are respectively at the both ends of troweling axis C6.
This troweling mechanism is creative to be firmly fixed to troweling actuator in rack by fixed seat one.Pass through fixation
Seat two is hinged on what swing arm inner end was stablized in rack.
When carrying out troweling construction operation, troweling actuator drives troweling shaft rotation to move by drive mechanism, the troweling axis of rotation
The concrete material on shaping mould top is smoothed out.
Simultaneously as swing arm inner end is hinged on two row of fixed seat, therefore, troweling axis is when carrying out troweling operation, energy
Appropriate swing by a small margin, so as to further improve its trowelability.
Claims (10)
1. a kind of multi-functional pour smashes floating vibrational system, which is characterized in that is filled including power vehicle, double-shaft mixers and blanking
It puts, a hopper is fixed on power vehicle, above-mentioned double-shaft mixers and blanking device are both connected on power vehicle, above-mentioned blanking
Device is located at hopper lower part, and above-mentioned double-shaft mixers are between hopper and blanking device.
2. multi-functional pour according to claim 1 smashes floating vibrational system, which is characterized in that the power vehicle includes one
Stent, the mid-stent are used to install the blanking device of delivering concrete raw material, and the frame bottom has four rolling,
In two idler wheels be symmetrically arranged on stent forepart, other two idler wheel is symmetrically arranged on stent rear portion, the cradle top
Force piece is fixed with, and force piece is connected with above-mentioned rollers, further includes a support plate, above-mentioned support plate side is connected in bracket side
Portion, support plate opposite side have guardrail.
3. multi-functional pour according to claim 2 smashes floating vibrational system, which is characterized in that the force piece and idler wheel it
Between be connected by transmission chain.
4. multi-functional pour according to claim 3 smashes floating vibrational system, which is characterized in that the quantity of the support plate is
Two and two support plates are symmetrically arranged on stent both sides.
5. multi-functional pour according to claim 1 smashes floating vibrational system, which is characterized in that the double-shaft mixers include
Inside is the housing of cavity, and the housing central section has partition board and housing is divided into two adjacent cavitys of left and right by partition board:Chamber
Body one and cavity two, have actuator in the cavity one, and the top of the cavity two is the import communicated with its inner cavity, cavity
Two lower parts are the outlet communicated with its inner cavity, and two shafts are axially fixed in above-mentioned cavity two:Shaft one and shaft two, it is above-mentioned
Shaft one and shaft two are connected by transmission mechanism and actuator, have to stir material in above-mentioned shaft one and shaft two
Stirring structure.
6. multi-functional pour according to claim 5 smashes floating vibrational system, which is characterized in that the transmission mechanism includes
Transmission gear one and transmission gear two, above-mentioned transmission gear one are connected in shaft one, and above-mentioned transmission gear two is connected in shaft
On two, transmission gear one is meshed with transmission gear two, and above-mentioned actuator is connected with shaft one.
7. multi-functional pour according to claim 6 smashes floating vibrational system, which is characterized in that the transmission gear one is located at
In cavity one and transmission gear one is connected in shaft one end, and the transmission gear two is located in cavity one and transmission gear two is solid
It is connected in two end of shaft.
8. multi-functional pour according to claim 1 smashes floating vibrational system, which is characterized in that the blanking device includes setting
The rack on prefabricated pile shaping mould top is put, the rack side is connected with discharge component, and the rack opposite side has sub-material
Concrete material can be delivered at shaping mould by component, above-mentioned discharge component, and above-mentioned sub-material component can be abundant by concrete material
It tamps at shaping mould.
9. multi-functional pour according to claim 8 smashes floating vibrational system, which is characterized in that the discharge component includes shell
Body and feed spool, enclosure interior are cavity, and upper part of the housing is the import communicated with its inner cavity, and lower part of the housing is communicates with its inner cavity
Outlet, above-mentioned feed spool is horizontally disposed with and feed spool is located at exit.
10. multi-functional pour according to claim 9 smashes floating vibrational system, which is characterized in that is fixed in the rack
Motor, shaft and the feeding shaft end of motor are connected.
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CN201711473811.3A CN108247826B (en) | 2017-12-29 | 2017-12-29 | Multifunctional pouring, tamping and trowelling vibration system |
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CN201711473811.3A CN108247826B (en) | 2017-12-29 | 2017-12-29 | Multifunctional pouring, tamping and trowelling vibration system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113815102A (en) * | 2021-09-23 | 2021-12-21 | 广州德亚机械制造有限公司 | Automatic feeding equipment for pipe die |
CN114474340A (en) * | 2021-12-13 | 2022-05-13 | 山东中恒建设集团有限公司 | Automatic pouring device of cement prefabricated section for construction |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN102335960A (en) * | 2011-11-09 | 2012-02-01 | 冯忠绪 | Gear synchronous double-horizontal-shaft vibrating stirrer |
CN104626346A (en) * | 2013-11-13 | 2015-05-20 | 山东万斯达建筑科技有限公司 | Concrete material distributor provided with discharging device |
CN205201774U (en) * | 2015-12-16 | 2016-05-04 | 王巍 | Cloth machine that production recess board was used |
CN207656925U (en) * | 2017-12-29 | 2018-07-27 | 嘉兴欣创混凝土制品有限公司 | Multi-functional pour smashes floating vibrational system |
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2017
- 2017-12-29 CN CN201711473811.3A patent/CN108247826B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102335960A (en) * | 2011-11-09 | 2012-02-01 | 冯忠绪 | Gear synchronous double-horizontal-shaft vibrating stirrer |
CN104626346A (en) * | 2013-11-13 | 2015-05-20 | 山东万斯达建筑科技有限公司 | Concrete material distributor provided with discharging device |
CN205201774U (en) * | 2015-12-16 | 2016-05-04 | 王巍 | Cloth machine that production recess board was used |
CN207656925U (en) * | 2017-12-29 | 2018-07-27 | 嘉兴欣创混凝土制品有限公司 | Multi-functional pour smashes floating vibrational system |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113815102A (en) * | 2021-09-23 | 2021-12-21 | 广州德亚机械制造有限公司 | Automatic feeding equipment for pipe die |
CN114474340A (en) * | 2021-12-13 | 2022-05-13 | 山东中恒建设集团有限公司 | Automatic pouring device of cement prefabricated section for construction |
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CN108247826B (en) | 2024-02-27 |
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