Invention content
Technical problem to be solved by the invention is to provide a kind of flexible water construction equipment, can solve above-mentioned existing
In the art the problem of.
The present invention is achieved through the following technical solutions:A kind of flexible water construction equipment of the present invention, including
Matrix and the host being arranged at the top of described matrix are fixedly connected equipped with top with the host bottom surface in described matrix top surface
Pressure thrustor, be correspondingly provided on the described matrix top surface at left and right sides of the pressure thrustor smooth with the host
The first slide guide bar being connected, the host is interior to be equipped with sliding chamber, and first chamber is equipped in the host below the sliding chamber,
Lead to second chamber and third chamber, the sliding intracavitary equipped with extension setting downwards at left and right sides of the first chamber respectively to set
There is the first swing arm for extending setting up and down, extends end pin at the top of first swing arm and connect with the sliding intracavitary roof convolution cooperation
It connects, the logical host passed through between the sliding chamber and the first chamber of first swing arm bottom extension and convolution cooperation company
It connects, first swing arm bottom extension end pin probes into the first chamber and end pin is installed with the first tooth runner, the sliding chamber
Interior first swing arm outer surface is installed with convex runner, the sliding intracavitary top pressure neat fit connection on the right side of the convex runner
There is sliding block, the sliding arm for extending setting to the right is installed on the right side of the sliding block, the sliding arm right-side extension is logical to be passed through
Outside the host outer right wall and end pin spy to the host right side, visit into the sliding arm outside the host right side
Be connected with and tiltedly push to slide device, the sliding arm outer surface on the right side of the sliding block be equipped with the first spring element, described second
The first buckling and locking device to be connect with the first tooth runner left outer surface cooperation clamping lock, the third chamber are equipped in chamber
Interior is equipped with the power plant to be connect with the first tooth runner right side outer surface wedging, the institute on the right side of the third chamber
The second buckling and locking device being equipped in host to be connect with power plant cooperation clamping lock is stated, is fixed on the right side of the host top surface
It is provided with water tank, logical pass through is installed with suction pump at the top of the water tank, and logical pass through is installed with atomization on the suction pump right side
Watering dust removal showerhead.
Preferably technical solution, described tiltedly to push to slide device include the sliding being arranged outside the host right side
Guide runner and neat fit in arm are arranged in the guide runner and the upper and lower montant for extending setting, in the guide runner
Neat fit is connected with the second slide guide bar that left and right extends setting in the montant, extend on the left of the second slide guide bar end pin with
The guide runner inner left wall is fixedly connected, and is extended end pin on the right side of the second slide guide bar and is fixed with inner wall on the right side of the guide runner
It connects, the second slide guide rod outer surface on the right side of the montant is equipped with the second spring element, and the montant bottom extends end pin rotation
It connects and is connected with hammering plate, being screwed between outer surface and hammering plate right side top surface on the right side of the montant is connected with tune
Position device.
Preferably technical solution, the power plant include that neat fit is arranged in the indoor positioning of third chamber
Sliding block and the second screw rod being arranged with the positioning slipper screw line mating connection and left and right extension, second screw rod
Left side extends end pin and the first engine is connected, and first engine outer surface is arranged on the left of the third chamber interior
It in wall and is fixedly connected, extends end pin on the right side of second screw rod and be connected with inner wall convolution on the right side of the third chamber,
It is installed with the second engine in the positioning sliding block top surface, spy is connected at the top of second engine and is slided to clamping lock positioning
The second tooth runner outside block top surface.
Preferably technical solution, first buckling and locking device include that neat fit is arranged in the second chamber
Clamping lock sliding block and the first screw rod being arranged with clamping lock slipper screw line mating connection and left and right extension, first spiral shell
Extend end pin on the left of swing arm to be connected with second chamber inner left wall convolution, clamping lock sliding block right side and described the
One tooth runner left outer surface is installed with clamping lock head with respect to place, extends end pin and second power on the right side of first screw rod
Machine left side is oppositely arranged and is connected.
Preferably technical solution, second buckling and locking device include that the host is arranged on the right side of the third chamber
The interior and downward latch groove for extending setting and neat fit connect the clamping lock column being arranged in the latch groove, the clamping lock column
Bottom end pin is fixedly connected with described matrix top surface, and latch hole, the third chamber right side are equipped in the section of the clamping lock capital
Lead between inner wall and the latch groove inner left wall and provided hole slot, in the hole slot neat fit be connected with left side with it is described
The clamping lock bar that is fixedly connected of clamping lock positioning sliding block right side bottom, the clamping lock bar right end to the smooth clamping lock of the latch hole
It is connected.
The beneficial effects of the invention are as follows:
1. being passed through outside host outer right wall and end pin spy to host right side by the way that sliding arm right-side extension is logical, visits and arrive host
It being connected in sliding arm outside right side and tiltedly pushes to slide device, the sliding arm outer surface on the right side of sliding block sets the first spring element, the
The first buckling and locking device to be connect with the first tooth runner left outer surface cooperation clamping lock is set in two chambers, and use is set in third chamber
With the power plant being connect with outer surface wedging on the right side of the first tooth runner, set in the host on the right side of third chamber to be filled with power
The second buckling and locking device for setting cooperation clamping lock connection automatically controls hammering work to realize, improves working efficiency, reduces artificial behaviour
Make, improves hammering quality.
2. including the guide runner and neat fit in the sliding arm being arranged outside host right side by tiltedly pushing to slide device
It is arranged in guide runner and extends up and down the montant of setting, neat fit connection left and right extends setting in the montant in guide runner
Second slide guide bar, the second slide guide bar left side extend end pin and are fixedly connected with guide runner inner left wall, extended on the right side of the second slide guide bar
End pin is fixedly connected with inner wall on the right side of guide runner, and the second slide guide rod outer surface on the right side of montant sets the second spring element, montant bottom
Extension end pin, which is screwed on to be connected, hammers plate, is screwed on to be connected between outer surface and hammering plate right side top surface on the right side of montant and transpose
Device, to realize according to different pile bodies to hole gradient carry out automatically controlling hammering plate and carry out the tune of corresponding gradient
Hammer effect is improved in position, meanwhile, the impact force for reducing and being generated when hammering can be realized automatically, play cushioning effect.
3. by power plant include neat fit setting the indoor positioning sliding block of third chamber and with transpose sliding block spiral shell
Lira is connected and left and right extends the second screw rod of setting, extends end pin on the left of the second screw rod and the first engine coordinates
Connection, the first engine outer surface are arranged in third chamber inner left wall and are fixedly connected, and extend tail on the right side of the second screw rod
The tip is connected with inner wall convolution on the right side of third chamber, fixed second engine in positioning sliding block top surface, at the top of the second engine
Be connected the second tooth runner visited to outside clamping lock positioning sliding block top surface, to realize that automatic positoning controls the second tooth runner and the
The wedging of one tooth runner is connected and is detached from, and realization automatically controls hammering work operations, is reduced manual operation, is improved the work of hammering
Make efficiency, ensures the fixed stability of pile body.
4. the configuration of the present invention is simple, easy to operate, can realize according to different pile bodies to hole gradient carry out it is automatic
Control hammering plate carries out the positioning of corresponding gradient, improves hammer effect, meanwhile, it can realize that is generated when reduction hammering hits automatically
Power is hit, cushioning effect is played, moreover it is possible to realize that automatic positoning controls the second tooth runner and connect and take off with the wedging of the first tooth runner
From realization automatically controls hammering work operations, reduces manual operation, improves the working efficiency of hammering, ensures that pile body is fixed steady
It is qualitative.
Specific implementation mode
As Figure 1-Figure 4, a kind of flexible water construction equipment of the invention, including matrix 5 and setting are described
The host 6 at the top of matrix 5, the pressure thrustor being fixedly connected with 6 bottom surface of the host equipped with top in 5 top surface of described matrix
51, it is correspondingly provided on 5 top surface of described matrix of the left and right sides of the pressure thrustor 51 and is connect with 6 neat fit of the host
The first slide guide bar 52, sliding chamber 63 is equipped in the host 6, first chamber is equipped in the host 6 of 63 lower section of the sliding chamber
61,61 left and right sides of the first chamber is led to respectively equipped with the second chamber 62 and third chamber 64 for extending setting downwards, institute
The first swing arm 631 for being equipped in sliding chamber 63 and extending setting up and down is stated, first swing arm, 631 top extends end pin and the sliding chamber
The convolution of 63 inner roof walls is connected, and first swing arm, 631 bottom extension is logical to pass through the sliding chamber 63 and the first chamber 61
Between the host 6 and convolution be connected, 631 bottom of the first swing arm extends end pin and probes into the first chamber 61
And end pin is installed with the first tooth runner 610,631 outer surface of the first swing arm in the sliding chamber 63 is installed with convex runner 632,
Top pressure neat fit is connected with sliding block 633,633 right side of the sliding block in the sliding chamber 63 on 632 right side of the convex runner
It is installed with the sliding arm 634 for extending setting to the right, 634 right-side extension of sliding arm is logical to pass through 6 outer right wall of the host
And end pin is visited to outside 6 right side of the host, is visited into the sliding arm 634 outside 6 right side of the host and is connected with
Tiltedly pushing to slide device 7,634 outer surface of sliding arm on 633 right side of the sliding block is equipped with the first spring element 635, and described second
The first buckling and locking device to be connect with 610 left outer surface of the first tooth runner cooperation clamping lock is equipped in chamber 62, it is described
The power plant to be connect with 610 right side outer surface wedging of the first tooth runner, the third are equipped in third chamber 64
The second buckling and locking device to be connect with power plant cooperation clamping lock is equipped in the host 6 on 64 right side of chamber, it is described
Water tank 74 is fixedly installed on the right side of 6 top surface of host, logical pass through in 74 top of the water tank is installed with suction pump 75, the suction pump
Lead to pass through on 75 right sides and is installed with atomization watering dust removal showerhead 76.
Valuably, the device 7 that tiltedly pushes to slide includes in the sliding arm 634 being arranged outside 6 right side of the host
Guide runner 6341 and neat fit are arranged in the guide runner 6341 and extend the montant 71 of setting, the guide runner up and down
Neat fit is connected with the second slide guide bar 6342 that left and right extends setting, the second slide guide bar in the montant 71 in 6341
6342 left sides extend end pin and are fixedly connected with 6341 inner left wall of the guide runner, and 6342 right side of the second slide guide bar extends tail
The tip is fixedly connected with 6341 right side inner wall of the guide runner, and 6342 outer surface of the second slide guide bar on 71 right side of the montant is set
There is the second spring element 6343,71 bottom of montant extension end pin, which is screwed on, is connected with hammering plate 72,71 right side of the montant
It is screwed between outer surface and the 72 right side top surface of hammering plate and is connected with rackwork 73, to realize according to different pile bodies
To hole gradient carry out automatically controlling hammering plate 72 and carry out the positioning of corresponding gradient, improve hammer effect, meanwhile, energy
It is automatic to realize the impact force for reducing and being generated when hammering, play cushioning effect.
Valuably, the power plant include the positioning sliding block 641 that is arranged in the third chamber 64 of neat fit with
And the second screw rod 645 with positioning 641 spiral lamination of the sliding block mating connection and left and right extension setting, second screw rod
645 left sides extend end pin and the first engine 646 is connected, and 646 outer surface of the first engine is arranged in the third
It in 64 inner left wall of chamber and is fixedly connected, second screw rod, 645 right side extends end pin and 64 right side of the third chamber
Inner wall convolution is connected, and the second engine 642 is installed in 641 top surface of positioning sliding block, and second engine 642 pushes up
Portion is connected with the second tooth runner 643 visited to outside 641 top surface of clamping lock positioning sliding block, to realize automatic positoning control second
Tooth runner 643 connect and is detached from the wedging of the first tooth runner 610, and realization automatically controls hammering work operations, reduces manpower
Operation improves the working efficiency of hammering, ensures the fixed stability of pile body.
Valuably, first buckling and locking device includes the clamping lock sliding block that neat fit is arranged in the second chamber 62
622 and with 622 spiral lamination of clamping lock sliding block be connected and left and right extend setting the first screw rod 621, described first
621 left side of screw rod extends end pin and is connected with the convolution of 62 inner left wall of the second chamber, 622 right side of the clamping lock sliding block
Face place opposite with 610 left outer surface of the first tooth runner is installed with clamping lock head 6221, and first screw rod, 621 right side is prolonged
Long end pin is oppositely arranged and is connected with 642 left side of the second engine, and the first tooth runner is automatically controlled to realize
610 clamping lock work, improves stability when mobile or transport, prevents from movement or generate to shake when transporting to lead to equipment damage,
Improve stability.
Valuably, second buckling and locking device includes that setting is interior and downward in 64 right side of the third chamber host 6
The latch groove 53 and neat fit for extending setting connect the clamping lock column 531 being arranged in the latch groove 53, the clamping lock column
531 bottom end pins are fixedly connected with 5 top surface of described matrix, are equipped with latch hole 532 in 531 top section of clamping lock column, and described the
Lead between three chambers, 64 right side inner wall and 53 inner left wall of the latch groove and provided hole slot 644, smoothly matches in the hole slot 644
It closes and is connected with the clamping lock bar 6441 that left side is fixedly connected with 641 right side bottom of clamping lock positioning sliding block, the clamping lock bar
6441 right ends with 532 smooth snap fit of the latch hole to connect, to realize the card for automatically controlling matrix 5 and host 6
Work is locked, stability when mobile or transport is improved, movement is prevented from or generates to shake when transporting to lead to equipment damage, further carry
High stability.
When original state, clamping lock column 531 utmostly probes into latch groove 53, at this point, the latch hole in clamping lock column 531
532 are in relative status with hole slot 644, meanwhile, positioning sliding block 641 is located at the right-most position in third chamber 64, at this point, adjusting
Position 641 top end of sliding block the second tooth runner 643 utmostly far from 610 right side outer surface of the first tooth runner, meanwhile, by transposing
Sliding block 641 drives 6441 left side section of clamping lock bar to be slid completely into hole slot 644, and then 6441 right side section of clamping lock bar is made utmostly to slide
Enter in latch hole 532 and neat fit connects, at this point, clamping lock sliding block 622 is located at the right-most position in second chamber 62, together
When, by clamping lock sliding block 622 drive the clamping lock head 6221 of 622 right hand top of clamping lock sliding block utmostly probe into first chamber 61 and
It is connect with the 610 left outer surface snap fit of the first tooth runner in first chamber 61.
When needing to hammer work, hammering plate 72 is controlled by rackwork 73 first and carries out angle positioning, when having transposed
Then Cheng Hou is moved at the position for needing to hammer by matrix 5 by device 7 is tiltedly pushed to slide, at this point, passing through the first engine 646
Second screw rod 645 on right side and the first screw rod 621 convolution in left side are driven, and then is driven and is adjusted by the second screw rod 645
The gradually left direction sliding in third chamber 64 of position sliding block 641, meanwhile, the card of bottom right side is driven by positioning sliding block 641
6441 left side section of locking bar gradually probes into third chamber 64, meanwhile, so that 6441 right side section of clamping lock bar is gradually slipped away latch hole 532
It is interior, at this point, the first screw rod 621 drives left direction sliding of the clamping lock sliding block 622 gradually in second chamber 62, meanwhile, by
Clamping lock sliding block 622 drives the clamping lock head 6221 of right hand top to be gradually distance from 610 left outer surface of the first tooth runner, until such as Fig. 3
When shown positioning sliding block 641 slides into the left-most position in third chamber 64, at this point, making the second of 641 top of positioning sliding block
The maximum circumscribed circle in 643 left side of tooth runner probes into first chamber 61 and outer with 610 right side of the first tooth runner in first chamber 61
Surface wedging connection, meanwhile, drive 6441 left side section of clamping lock bar utmostly to probe into third chamber 64 by positioning sliding block 641,
At this point, make 6441 right side end pin of clamping lock bar utmostly far from latch hole 532, meanwhile, drive clamping lock to slide by the first screw rod 621
Block 622 utmostly slides into the left-most position in second chamber 62, at this point, driving clamping lock head 6221 by clamping lock sliding block 622
Utmostly far from 610 outer exterior surface of the first tooth runner, then, by starting pressure thrustor 51, to realize host 6
Lifting positioning, in addition, the convolution of the second tooth runner 643 is driven by the second engine 642, and then by 643 band of the second tooth runner
The first swing arm 631 convolution on dynamic first tooth runner 610 and the first tooth runner 610, at this point, being driven by the first swing arm 631 convex
Runner 632 circles round, since sliding block 633 is by the top pressure active force of the first spring element 635, to circle round reality when convex runner 632
Now sliding block 633 or so is driven to reciprocatingly slide, and then the oblique cunning on sliding arm 634 and sliding arm 634 is driven by sliding block 633
Pushing device 7 realizes that inclined-plane hammers work.
The beneficial effects of the invention are as follows:
1. being passed through outside host outer right wall and end pin spy to host right side by the way that sliding arm right-side extension is logical, visits and arrive host
It being connected in sliding arm outside right side and tiltedly pushes to slide device, the sliding arm outer surface on the right side of sliding block sets the first spring element, the
The first buckling and locking device to be connect with the first tooth runner left outer surface cooperation clamping lock is set in two chambers, and use is set in third chamber
With the power plant being connect with outer surface wedging on the right side of the first tooth runner, set in the host on the right side of third chamber to be filled with power
The second buckling and locking device for setting cooperation clamping lock connection automatically controls hammering work to realize, improves working efficiency, reduces artificial behaviour
Make, improves hammering quality.
2. including the guide runner and neat fit in the sliding arm being arranged outside host right side by tiltedly pushing to slide device
It is arranged in guide runner and extends up and down the montant of setting, neat fit connection left and right extends setting in the montant in guide runner
Second slide guide bar, the second slide guide bar left side extend end pin and are fixedly connected with guide runner inner left wall, extended on the right side of the second slide guide bar
End pin is fixedly connected with inner wall on the right side of guide runner, and the second slide guide rod outer surface on the right side of montant sets the second spring element, montant bottom
Extension end pin, which is screwed on to be connected, hammers plate, is screwed on to be connected between outer surface and hammering plate right side top surface on the right side of montant and transpose
Device, to realize according to different pile bodies to hole gradient carry out automatically controlling hammering plate and carry out the tune of corresponding gradient
Hammer effect is improved in position, meanwhile, the impact force for reducing and being generated when hammering can be realized automatically, play cushioning effect.
3. by power plant include neat fit setting the indoor positioning sliding block of third chamber and with transpose sliding block spiral shell
Lira is connected and left and right extends the second screw rod of setting, extends end pin on the left of the second screw rod and the first engine coordinates
Connection, the first engine outer surface are arranged in third chamber inner left wall and are fixedly connected, and extend tail on the right side of the second screw rod
The tip is connected with inner wall convolution on the right side of third chamber, fixed second engine in positioning sliding block top surface, at the top of the second engine
Be connected the second tooth runner visited to outside clamping lock positioning sliding block top surface, to realize that automatic positoning controls the second tooth runner and the
The wedging of one tooth runner is connected and is detached from, and realization automatically controls hammering work operations, is reduced manual operation, is improved the work of hammering
Make efficiency, ensures the fixed stability of pile body.
4. the configuration of the present invention is simple, easy to operate, can realize according to different pile bodies to hole gradient carry out it is automatic
Control hammering plate carries out the positioning of corresponding gradient, improves hammer effect, meanwhile, it can realize that is generated when reduction hammering hits automatically
Power is hit, cushioning effect is played, moreover it is possible to realize that automatic positoning controls the second tooth runner and connect and take off with the wedging of the first tooth runner
From realization automatically controls hammering work operations, reduces manual operation, improves the working efficiency of hammering, ensures that pile body is fixed steady
It is qualitative.
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.