A kind of environmental protection bank protection cement pipe
Technical field
The present invention relates to a kind of environmental protection bank protection equipment, and in particular to a kind of environmental protection bank protection cement pipe, especially
It is related to a kind of environmental protection bank protection cement pipe that can convey cement automatically during slope protection construction.
Background technology
The constantly improve for environmental protection installation is also further promoted with the enhancing of environmental protection consciousness, wherein
The protection on hillside is an important link of protection during present environmental protection, so as to pass through the protection to hillside
The loss that water and soil can further be prevented avoids generation landslide from leading so as to which further road is protected
Zhi Dui highways cause to bury, wherein mostly protected by using cement in present hillside protection process, to
The problem of being spliced into after frame structure and then carry out again the greening of massif, landslide is prevented so as to further reach,
Although the frame structure using cement can reach certain safeguard measure, due to needing to be accomplished manually, and transporting
Need to use the transport that large-scale crane carries out massif cement during cement, due to massif height and width not
It is fixed, since the operating radius of crane limits, to result in needing the work of more cranes simultaneously, to just can guarantee workload
Completion, to just further cause massif protection cost increase.
Thus, it is necessary to design a kind of environmental protection bank protection cement pipe, to solve the above technical problems.
Invention content
The object of the present invention is to overcome the problems of the prior art, provides a kind of environmental protection bank protection cement transportation
Pipe, the configuration of the present invention is simple can convey cement by first delivery pipe, be arranged in first delivery pipe
Have the control casing of sliding, can further be controlled by the sliding of the control casing connection of the discharge gate with
It is closed, so as to further control the circulation of cement, can further be controlled by the sliding of first drawstring
The rotation for making the rotation ring gear can further adjust cement so as to control the position of the control casing
Transfer position, can by after in cement transportation to the cement tube, due to cement have to first pressing plate it is certain
Pressure, so as to further drive the sliding of first pressing plate, so as to pass through the sliding energy of first pressing plate
The circulation of enough further control cement is further avoided to utilize and be hung so as to achieve the purpose that control cement circulation
The increase of cost caused by vehicle handling cement can further reduce the cost of slope protection construction, improve efficiency.
The invention is realized by the following technical scheme:
A kind of environmental protection bank protection cement pipe, including with first delivery pipe, be provided with one in first delivery pipe
The control casing for arranging sliding, is provided with several rows of material mouth in first delivery pipe, described in the sliding control of the control casing
The closure of discharge gate, it is described to control the second delivery pipe being separately connected on casing there are one connection corresponding with the discharge gate.
Cement can be conveyed by first delivery pipe, can further be controlled by the sliding of the control casing
The closure for making the discharge gate, so as to further control being passed in second delivery pipe of cement.
The sliding sleeve slided in first delivery pipe there are one being respectively set on the control casing, the sliding
Casing pushes the sliding of the control casing, and there are one the rotation ring gear rotated, the turning gears for the interior setting of the sliding sleeve
The rotation of ring drives the sliding of the sliding sleeve, also sets up that there are one control the rotation ring gear to rotate in the sliding sleeve
The first drawstring.The rotation that the rotation ring gear can be further driven by first drawstring, so as to logical
The sliding of the control lantern ring can further be driven by crossing the rotation of the rotation ring gear, so as to further control water
The circulation of mud.
The conveying connecting tube of the corresponding connection of a row is connected separately in second delivery pipe, in the conveying connecting tube
The tube cavity there are one corresponding connection is respectively set, a circle is respectively arranged in the tube cavity in the conveying connecting tube
The pressure ram of swing, is respectively set that there are one sealing blocks on the pressure ram, described after a circle pressure ram synchronous hunting is dynamic
The corresponding connection of sealing block, the sealing block seal the tube cavity, are respectively set that there are one slide in the conveying connecting tube
Extruding lantern ring, the lantern ring that squeezes squeezes the connection that the tube cavity is controlled after the pressure ram respectively.Conveying can be passed through
The corresponding connection of connecting tube, the hillside so as to further carry out different depth to cement convey cement, and can
Can top pressure further be carried out to the pressure ram by the sliding for squeezing lantern ring, so as to further control institute
Connection and the closure for stating tube cavity to control the circulation of cement, while can facilitate between two conveying connecting tubes
Connection.
There are one cement tubes for connection in the conveying connecting tube, and there are one the interior settings of the cement tube and the tube cavity phase
The cylinder slot of corresponding connection, setting is there are one the first pressing plate slided in the cylinder slot, described in the sliding control of first pressing plate
The closure of tube cavity.After cement is passed in the cylinder slot, can top pressure further be carried out to first pressing plate, from
And the sliding of first pressing plate can be further driven, it can further be controlled by the sliding of first pressing plate
The cement circulation in the tube cavity is made, to achieve the purpose that automatically control cement circulation, further avoids utilizing crane
Cost caused by handling cement increases.
Further, the supporting rack of the corresponding setting of a row is connected in first delivery pipe, described in each adjacent two
There are one support slide-bar, the control casing to be respectively arranged with the sliding sleeve and slided in the support for setting between supporting rack
The slide opening slided on axis, is respectively set that there are one the thirds of connection corresponding with the discharge gate to slide in first delivery pipe
Slot is respectively set in the third sliding slot there are one the sealing plate slided in the discharge gate, in first delivery pipe also
The 4th sliding slot there are one connection corresponding with the third sliding slot is respectively set, the 4th sliding slot is opposite with the discharge gate
It should be connected to, be respectively set that there are one the top pressure slide-bar that is slided in the 4th sliding slot, the 4th sliding slots on the sealing plate
It is inside also respectively provided with a third spring for suppressing the top pressure slide-bar, the control casing is distinguished on the sliding sleeve
Setting there are one support slide opening corresponding with first delivery pipe, be respectively set in the control casing there are one it is T-shaped
The 5th sliding slot being arranged is respectively set in the 5th sliding slot there are one the pressure end slided, the T-shaped setting of pressure end,
It is respectively set in 5th sliding slot there are one the 4th spring for suppressing the pressure end, the pressure end is in the 4th sliding slot
Push the top pressure slide-bar to slide after interior sliding, be respectively set on the control casing there are one it is corresponding with the discharge gate
It is described to interface connection corresponding with second delivery pipe to interface, it is respectively set that there are one pull in the control casing
Second drawstring of the pressure end sliding.The top pressure slide-bar can be further driven by the top pressure of the pressure end
Sliding, so as to further drive the sealing plate to slide, so as to further make cement in the discharge gate
It is passed to described to that in interface, so as to further control the circulation of the cement, and can be drawn by described second
The pulling of rope can control top pressure of the pressure end to the top pressure slide-bar, can further control and be carried out to different location
The control of cement circulation.
Further, in first turn of chamber of circular setting, the rotation there are one being respectively set in the sliding sleeve
Ring gear is rotated in first turn of intracavitary respectively, and there are two connections corresponding with first turn of chamber for setting on the sliding sleeve
Drawstring slide opening, first drawstring slides in the first drawstring slide opening respectively after being wound on the rotation ring gear, described
The first groove there are three concave setting is also set up in sliding sleeve, is respectively set that there are one described in first groove
The 4th shaft rotated in sliding sleeve, is respectively set that there are one the drives rotated on the sliding sleeve in the 4th shaft
Turn wheel, is respectively arranged with the 5th shaft of multiple rotations between three the 4th shafts, the 4th shaft and described the
Respectively by the corresponding rotation connection of universal joint between five shafts, there are one the interior settings of the sliding sleeve and the 4th shaft
Corresponding the 6th shaft vertically rotated, passes through a first bevel gear respectively between the 6th shaft and the 4th shaft
Corresponding connection, in the 6th shaft setting there are one first gear, the first gear on the rotation ring gear set by
Tooth socket corresponding engagement connection.The rotation ring gear can be further driven by the rotation of first drawstring
Rotation can further drive so as to be connected with the corresponding engagement of the first gear by the rotation ring gear
The rotation of the driving runner can be into one so as to the rotation using the driving runner in first delivery pipe
The sliding of the promotion sliding sleeve of step.
Further, the second sliding slot of eight connections corresponding with the tube cavity is provided in the connecting conveying pipe,
It is respectively set in the second sliding slot there are one the third shaft being connected on the connecting conveying pipe, the pressure ram exists respectively
It is rotated in the third shaft, the sealing block is that rubber material is constituted, and is respectively set that there are one suppress in the second sliding slot
The second spring of the pressure ram, described squeeze are provided with the corresponding spiral shell for engaging connection on lantern ring in the conveying connecting tube
Line is respectively set in the second sliding slot there are one gasket, and the gasket seals the second sliding slot respectively.It can pass through
The extruding lantern ring squeezes the pressure ram, so as to further drive the swing of the sealing block, so as to
Enough connection and closures for further controlling the tube cavity, can facilitate the connection between two connecting conveying pipes.
Further, setting is there are one connector is controlled on the cement tube, and there are one the bottom settings of the cement tube
6th sliding slot, setting is there are one the first compression bar slided in the 6th sliding slot on first pressing plate, in the 6th sliding slot also
It is arranged there are one the second shaft on the cement tube is connected to, there are one the second pressures rotated for setting in second shaft
Bar, there are one first rotating shaft, one end of second compression bar turns the end set of first compression bar in the first rotating shaft
Dynamic, there are one the connector inside groove of connection corresponding with the tube cavity, the control connections for setting on the control connector
There are one the first sliding groove of connection corresponding with the connector inside groove, the interior settings of the first sliding groove to slide close for the interior setting of head
Pressing plate is sealed, setting is there are one third compression bar on the sealing clamp, third compression bar described in the other end top pressure of second compression bar,
The first spring of first pressing plate is suppressed there are one being respectively set in the cylinder slot.The gravity of cement can be utilized further
Carrying out top pressure to first pressing plate can be by described close so as to further drive the sliding of the sealing clamp
The sliding of envelope pressing plate can further limit the circulation of cement, so as to achieve the purpose that control cement circulation, can keep away
Exempt to utilize trouble caused by crane handling cement.
Compared with prior art, the beneficial effects of the invention are as follows:Cement can be carried out by first delivery pipe defeated
It send, can further control connection and the closure of discharge gate by the sliding of the control casing, so as into one
The circulation of the control cement of step, can adjust the conveying that cement is carried out to the hillside of different location;
The rotation that the rotation ring gear can be further controlled by first drawstring, so as to further drive institute
The sliding for stating sliding sleeve further adjusts the control so as to further push the sliding of the control casing
The position of casing;
Further the pressure ram can be squeezed, so as into one by the sliding for squeezing lantern ring
The sliding of the drive sealing block of step can be controlled further so as to control connection and the closure of the tube cavity
The circulation of cement, to facilitate the connection between two conveying connecting tubes;
Can top pressure further can be carried out to first pressing plate after cement is passed in the cylinder slot, so as to
It further drives first pressing plate to slide, can further control the pipe by the sliding of first pressing plate
The cement of inner cavity circulates, and so as to achieve the purpose that automatically control cement circulation, can further avoid hanging using crane
Cost increases caused by transporting cement, can realize and automatically control cement circulation, while can further improve efficiency.
Description of the drawings
The present invention will be further described below in conjunction with the accompanying drawings.
Fig. 1 is environmental protection bank protection cement pipe overall structure diagram of the embodiment of the present invention.
Fig. 2 is sliding sleeve of the embodiment of the present invention and control casing overall structure diagram.
Fig. 3 is that the embodiment of the present invention controls lantern ring and the first delivery pipe attachment structure schematic diagram.
Fig. 4 is sliding sleeve overall structure side view of the embodiment of the present invention.
Fig. 5 is that the embodiment of the present invention conveys connecting tube overall structure diagram.
Fig. 6 is pressure ram of the embodiment of the present invention and sealing block overall structure side view.
In figure:1 first delivery pipe, 2 second delivery pipes, 3 conveying connecting tubes, 4 cement tubes, 5 slots, 6 first pressing plates, 7 the
One compression bar, 8 first springs, 9 second compression bars, 10 first rotating shafts, 11 second shafts, 12 the first sliding grooves, 13 sealing clamps, 14 thirds
Compression bar, 15 control connectors, 16 tube cavities, 17 second sliding slots, 18 third shafts, 19 pressure rams, 20 squeeze lantern ring, 21 second bullets
Spring, 22 sealing blocks, 23 control casings, 24 sliding sleeves, 25 supporting racks, 26 support slide-bars, 27 rotation ring gears, 28 first turns of chambers,
29 drawstring slide openings, 30 first drawstrings, 31 first grooves, 32 the 4th shafts, 33 the 5th shafts, 34 universal joints, 35 driving runners, 36
It is first gear, 37 the 6th shafts, 38 first bevel gears, 39 discharge gates, 40 pairs of interfaces, 41 third sliding slots, 42 the 4th sliding slots, 43 close
Sealing plate, 44 top pressure slide-bars, 45 third springs, 46 the 5th sliding slots, 47 pressure ends, 48 the 4th springs, 49 second drawstrings, 50 sealings
Pad, 51 support slide openings, 52 the 6th sliding slots, 53 connector inside grooves.
Specific implementation mode
As shown in Figures 1 to 6, a kind of environmental protection bank protection cement pipe, including with first delivery pipe 1, it is described
It is provided with the control casing 23 of row sliding in first delivery pipe 1, several rows of material mouth 39 is provided in first delivery pipe 1,
The sliding of the control casing 23 controls the closure of the discharge gate 39, be separately connected on the control casing 23 there are one with institute
State the second delivery pipe 2 of 39 corresponding connection of discharge gate.
Cement can be conveyed by first delivery pipe 1, so as to which the first delivery pipe 1 is erected at hillside
Eminence, be provided in first delivery pipe 1 row sliding control casing 23, it is described control casing 23 be arranged quantity
It can be configured according to the needs of design, several rows of material mouth 39, the discharge gate 39 are provided in first delivery pipe 1
The quantity of setting can be configured according to the needs of design, and can first delivery pipe 1 be arranged more and be passed through spiral shell
Line connects, and to easy to disassemble, the sliding of the control casing 23 can control connection and the closure of the discharge gate 39, to
The circulation that cement can further be controlled, there are one the second delivery pipes 2 for connection on the control casing 23, so as to make
Cement is further drained by the discharge gate 39 in second delivery pipe 2, so as to further to cement into
Row transport process, so as to be slided in first delivery pipe 1 by the control casing 23, to realize to different
Discharge gate 39 is controlled.
The sliding sleeve 24 slided in first delivery pipe 1 there are one being respectively set on the control casing 23, institute
The sliding that sliding sleeve 24 pushes the control casing 23 is stated, there are one the rotation ring gears rotated for the interior setting of the sliding sleeve 24
27, the rotation of the rotation ring gear 27 drives the sliding of the sliding sleeve 24, also set up in the sliding sleeve 24 there are one
Control the first drawstring 30 that the rotation ring gear 27 rotates.
Sliding sleeve 24 there are one being also set up on the control casing 23, can pass through the cunning of the sliding sleeve 24
It is dynamic, sliding of the control casing 23 on the sliding sleeve 24 can be further driven, in the sliding sleeve 24
It is arranged there are one the rotation ring gear 27 rotated, the cunning of the sliding sleeve 24 can be driven by the rotation of the rotation ring gear 27
Dynamic, there are one the first drawstrings 39 for setting on the sliding sleeve 24, and described turn can be wrapped in by first drawstring 39
On moving teeth ring 27, so as to drive the rotation of the rotation ring gear 27, described first is utilized so as to further realize
Drawstring 39 come control it is described control casing 23 sliding, so as to further realize the connection of the discharge gate 39 and close
It closes, to reach the excretion of control cement.
The conveying connecting tube 3 of the corresponding connection of a row, the conveying connecting tube are connected separately in second delivery pipe 2
The tube cavity 16 there are one corresponding connection is respectively set in 3, a circle is respectively arranged in the pipe in the conveying connecting tube 3
The pressure ram 19 swung in inner cavity 16 is respectively set on the pressure ram 19 there are one sealing block 22, the circle pressure ram 19
22 corresponding connection of the sealing block after synchronous hunting is dynamic, the sealing block 22 seal the tube cavity 16, the conveying connection
It is respectively set on pipe 3 there are one the extruding lantern ring 20 slided, the extruding lantern ring 20 controls after squeezing the pressure ram 19 respectively
The connection of the tube cavity 19.
It is connected separately with a row in second delivery pipe 2 and conveys connecting tube 3, the number that the conveying connecting tube 3 is arranged
Amount can be adjusted according to the height on hillside, be attached two conveying connecting tubes 3 in the way of threaded connection, to
The hillside that can adapt to different height is respectively set there are one tube cavity 16 in the conveying connecting tube 3, so as to pass through
Tube cavity 16 further conveys cement, and is respectively arranged with a circle in the pipe in the conveying connecting tube 3
The pressure ram 19 swung in inner cavity 16, the quantity that the pressure ram 19 is arranged can be configured according to the needs of design, described
Pressure ram 19 be arranged quantity can be configured according to the quantity of design, the sealing block 22 can be in the pipe
It is swung in chamber 16, so as to can further drive the swing of the sealing block 22 by the swing of the pressure ram 19,
The tube cavity 16 can be sealed after a circle 22 corresponding connection of sealing block, so as to pass through the pressure ram
The connection of tube cavity 16 and closure described in 19 weave control are high when carrying out conveying to realize the circulation of control cement
Connecting tube 3 can be conveyed during the adjustment of degree by connection to realize, but since there is flowing water in conveying connecting tube 3
Mud is provided with the extruding lantern ring 20 of sliding in the conveying connecting tube 3, so as to pass through the sliding for squeezing lantern ring 20
Further pressure ram 19 can be squeezed, to realize the connection of control tube cavity 16, be connected when in two conveyings
In 3 corresponding connection procedure of take over, can be controlled by the sliding for squeezing lantern ring 20 tube cavity 16 connection and
It is closed, can further control the circulation of cement, to ensure to be attached two conveying connecting tubes 3.
Connection is there are one cement tube 4 in the conveying connecting tube 3, in the cement tube 4 setting there are one in the pipe
The cylinder slot 5 of 16 corresponding connection of chamber, there are one the first pressing plate 6 slided, the cunnings of first pressing plate 6 for the interior setting of the cylinder slot 5
The dynamic closure for controlling the tube cavity 16.
There are one cement tubes 4 for connection in the conveying connecting tube 3, the cylinder slot 5 there are one settings on the cement tube 4,
So as to which cement to be further transported to by the tube cavity 16 in the cylinder slot 5, so as to pass through the cylinder slot 5
Cement is carried out to take use, there are one the first pressing plate 6 slided, the slidings of first pressing plate 6 for setting in the cylinder slot 5
The connection that the tube cavity 16 can be controlled, so as to control the circulation of cement, when cement is urged to first pressing plate 6
Afterwards, the sliding of first pressing plate 6 can control the connection of the tube cavity 16 can be into one to control the circulation of cement
The guarantee of step is automatically circulated to the cement in the cylinder slot 5, can be into one to avoid increasing using cost caused by crane
The cost of the reduction bank protection of step, while efficiency can be improved.
As shown in Figures 2 and 3, the supporting rack 25 of the corresponding setting of a row is connected in first delivery pipe 1, per adjacent
There are one support slide-bar 26, the control casing 23 to be set respectively with the sliding sleeve 24 for setting between two support frames as described above 25
Be equipped with the slide opening that slides on the support slide-bar 26, be respectively set in first delivery pipe 1 there are one with the discharge gate
The third sliding slot 41 of 39 corresponding connections, is respectively set that there are one slide in the discharge gate 39 in the third sliding slot 41
Sealing plate 43, the 4th that a connection corresponding with the third sliding slot 41 is also respectively provided in first delivery pipe 1 are slided
Slot 42, the 4th sliding slot 42 connection corresponding with the discharge gate 39 are respectively set that there are one in institute on the sealing plate 43
The top pressure slide-bar 44 slided in the 4th sliding slot 42 is stated, being also respectively provided with one in the 4th sliding slot 42 suppresses the jacking sliding
It is conveyed with described first there are one being respectively set on the third spring 45 of axis 44, the control casing 23 and the sliding sleeve 24
1 corresponding support slide opening 51 of pipe, it is described to control the 5th sliding slot 46 being respectively set in casing 23 there are one T-shaped setting, institute
State the pressure end 47 slided there are one being respectively set in the 5th sliding slot 46,47 T-shaped setting of the pressure end, the 5th sliding slot
It is respectively set in 46 there are one the 4th spring 48 for suppressing the pressure end 47, the pressure end 47 is in the 4th sliding slot 42
Push the top pressure slide-bar 44 to slide after sliding, be respectively set on the control casing 23 there are one with the discharge gate 39 relatively
Answer to interface 40, it is described to the connection corresponding with second delivery pipe 2 of interface 40, be respectively set in the control casing 23
There are one the second drawstrings 49 for pulling the pressure end 47 to slide.
Row's supporting rack 25 is connected in first delivery pipe 1, between two neighboring support frame as described above 25 respectively
It is arranged there are one support slide-bar 26, the control casing 23 is sliding on the support slide-bar 26 with the difference of the sliding sleeve 24
It is dynamic, so as to be supported using the support slide-bar 26, so as to prevent the control casing 23 and the sliding sleeve
Rotation, which occurs, for pipe 24 leads to the discharge gate 39 and described the problem of can not being docked to interface 40, in first delivery pipe 1
The third sliding slot 41 there are one connection corresponding with the discharge gate 39 is respectively set, is respectively set in the third sliding slot 41
It is close so as to be carried out to the discharge gate 39 by the sliding of the sealing plate 43 there are one the sealing plate 43 slided
Envelope is also respectively provided with one in first delivery pipe 1 and the third sliding slot 41 is opposite to prevent the leakage of cement
The 4th sliding slot 42 that should be connected to, there are one the top pressure slide-bars slided in the 4th sliding slot 42 for setting on the sealing plate 43
44, so as to can further drive the sliding of the sealing plate 43, Neng Gouli by the sliding of the top pressure slide-bar 44
Further the top pressure slide-bar 44 can be suppressed with the elastic force pressure of the third spring 45, so as to further
Top pressure is carried out to the sealing plate 43, when the control casing 23 is during sliding, the 4th spring 48 can be passed through
It, can during the sliding sleeve 24 slides after the pressure end 48 is slided into the 4th sliding slot 42
Top pressure further is carried out to the top pressure slide-bar 44, so as to drive the sliding of the sealing plate 43, so as to by institute
It states the unlatching of discharge gate 39 heel row and goes out cement, to interface 40 there are one settings in the control casing 23, so as to pass through
State discharge gate 39 further cement is drained into it is described in interface 40, so as to reach the conveying to cement, described
Second drawstring 49 there are one being respectively set in control casing 23, so as to pull the pressure end by second drawstring 49
47, so as to make the pressure end 47 be detached from the 4th sliding slot 42, can under the elastic force pressure of the third spring 45 energy
The sliding for enough resetting the sealing plate 43, while the control casing 23 capable of being made to continue, so as to realize to different positions
The hillside set carries out the conveying of cement, can further avoid using trouble caused by crane handling cement, can be further
Raising working efficiency.
As shown in figure 4, be respectively set in the sliding sleeve 24 there are one first turn of chamber 28 in circular setting, it is described
Rotate the rotation in first turn of chamber 28 respectively of ring gear 27, on the sliding sleeve 24 setting there are two with first turn of chamber
The drawstring slide opening 29 of 28 corresponding connections, first drawstring 30 are drawn described first respectively after being wound on the rotation ring gear 27
Slide opening 29 of restricting is interior to be slided, and the first groove 31 there are three concave setting is also set up in the sliding sleeve 24, described first is recessed
It is set respectively in interior the 4th shaft 32 rotated of the sliding sleeve 24, the 4th shaft 32 there are one being respectively set in slot 31
It sets there are one the driving runner 35 that is rotated on the sliding sleeve 24, is respectively arranged between three the 4th shafts 32 more
5th shaft 33 of a rotation, respectively by corresponding turn of universal joint 34 between the 4th shaft 32 and the 5th shaft 33
Dynamic connection, vertical the 6th shaft 37 rotated corresponding with the 4th shaft 32 that there are one the interior settings of the sliding sleeve 24,
Respectively by the corresponding connection of a first bevel gear 38 between 6th shaft 37 and the 4th shaft 32, the described 6th
There are one first gear 36, the first gear 36 is corresponding with tooth socket set on the rotation ring gear 27 for setting in shaft 37
Engagement connection.
There are one first turn of chambers 28 in circular setting, the rotation ring gear 27 to exist for setting in the sliding sleeve 24
Rotation in first turn of chamber 28, can so as to be supported to the rotation ring gear 27 by first turn of chamber 28
Ensure to it is described rotation ring gear 27 normal rotation, on the sliding sleeve 24 setting there are two with first turn of chamber, 28 phase
The drawstring slide opening 29 of corresponding connection, first drawstring 30 can be in the drawstring slide openings 29 after the rotation ring gear 27 1 circle
Interior sliding is provided with rubber groove on the rotation ring gear 27, and first drawstring 30 can slide in rubber groove, from
And can lead to and state the further frictional force increased with first drawstring 30 of rubber groove, so as to further pass through institute
The rotation of the rotation ring gear 27 can be driven by stating the rotation of the first drawstring 30, can pass through the rotation ring gear 27 and described the
The corresponding engagement of one gear 36 connects, and the rotation of the 6th shaft 37 can be further driven, in the 6th shaft
It is respectively set that there are one the first bevel gears 38 of corresponding engagement connection between 37 and the 4th shaft 32, so as into one
The rotation of drive the 4th shaft 32 of step, there are three the 4th shaft 32 settings, three the 4th shafts 32 it
Between be provided with the 5th shaft 33 of multiple rotations, the quantity of the 5th shaft 33 setting according to design can set
It sets, and divides between two neighboring 5th shaft 33 and between the 4th shaft 32 and the 5th shaft 33
Corresponding connection is not carried out by a universal joint 34, and is provided with described 5th turn of support in the sliding sleeve 24
The support turn hole that axis 33 and the universal joint 34 rotate, so as to can be into during the rotation ring gear 27 rotates
One step drive it is described driving runner 35 rotation, so as to by it is described driving runner 35 rotation being capable of further band
Dynamic sliding of the sliding sleeve 24 in first delivery pipe 1, so as to push the sliding of the control casing 23.
As shown in figure 5, be provided with eight connections corresponding with the tube cavity 16 in the connecting conveying pipe 3 second slides
Slot 17, is respectively set that there are one the third shafts 18 being connected on the connecting conveying pipe 3 in the second sliding slot 17, described to squeeze
Compression bar 19 rotates in the third shaft 18 respectively, and the sealing block 22 is constituted for rubber material, in the second sliding slot 17
Be respectively set there are one suppressing the second spring 21 of the pressure ram 19, on the extruding lantern ring 20 with the conveying connecting tube 3
On be provided with the screw thread of corresponding engagement connection, be respectively set that there are one gasket 50, the sealings in the second sliding slot 17
Pad 50 seals the second sliding slot 17 respectively.
Eight second sliding slots 17 are provided in the connecting conveying pipe 3, the second sliding slot 17 is obliquely set respectively
It sets, and the connection corresponding with the tube cavity 16 respectively of the second sliding slot 17, is respectively set in the second sliding slot 17
There are one third shaft 18, the pressure ram 19 rotates in the third shaft 18 respectively, and the sealing block 22 is rubber material
Texture at, and the shape of the sealing block 22 is identical, is respectively set in the second sliding slot 17 there are one second spring 21,
Top pressure can be carried out to the pressure ram 19 by the second spring 21, so as to make the sealing block 22 be in compression
State is respectively arranged with phase in the squeezing bushing 20 so as to seal the tube cavity 16 in the conveying connecting tube 3
Be engaged the screw thread of connection, so as to be squeezed the pressure ram 19 by the squeezing bushing 20, so as into
The swing for driving the sealing block 22 of one step, the sealing block 22 being capable of sliding, the sealings in the second sliding slot 17
Block 22 is arranged in the form of sheets, so as to make the tube cavity 16 be in the state of connection, is set respectively in the second sliding slot 17
Set prevents water there are one gasket 50 so as to be sealed to the second sliding slot 17 using the gasket 50
The leakage of mud.
As shown in Figure 1, there are one connector 15 is controlled, the bottom of the cement tube 4 is provided with for setting on the cement tube 4
One the 6th sliding slot 52, setting is there are one the first compression bar 7 slided in the 6th sliding slot 52 on first pressing plate 6, and the
It is also set up in six sliding slots 52 there are one the second shaft 11 on the cement tube 4 is connected to, is provided in second shaft 11
Second compression bar 9 of one rotation, first rotating shaft 10 that there are one the end sets of first compression bar 7, the one of second compression bar 9
End rotates in the first rotating shaft 10, and there are one connections corresponding with the tube cavity 16 for setting on the control connector 15
Connector inside groove 53, it is described control connector 15 in setting there are one connection corresponding with the connector inside groove 53 first
Sliding slot 12, the sealing clamp 13 of setting sliding in the first sliding groove 12, there are one third pressures for setting on the sealing clamp 13
Bar 14, third compression bar 14 described in the other end top pressure of second compression bar 9 are respectively set that there are one suppress institute in the cylinder slot 5
State the first spring 8 of the first pressing plate 6.
Setting is there are one connector 15 is controlled on the cement tube 4, and there are one connect for setting in the control even head 15
Connector inside groove 53 flow to make the cement in the tube cavity 16 pass through the connector inside groove 53 in the cylinder slot 5, when
During cement amount in the cylinder slot 5 presses the sliding of the first pressing plate 6, when the cement gravity in the cylinder slot 5 is more than
After the elastic force pressure of first spring 8, so as to further drive the sliding of first compression bar 7, so as to pass through
First compression bar 7 further can carry out top pressure to second compression bar 9, so as to further push the sealing
The sliding in the first sliding groove 12 of pressing plate 13, so as to make the sealing plate 13 gradually in the connector inside groove 53
Sliding, so as to further limit the amount of flow of cement, the cylinder slot 5 is passed to so as to further reduce cement
It is interior, it, can be further by the sealing clamp 13 to the connector inside groove in the case that the cement in cylinder slot 5 is enough
53 are sealed,, can be further to which that realizes automatically controls to what cement was flowed to prevent the circulation of cement
It avoids, using trouble caused by crane handling cement, capable of further improving working efficiency, reducing bank protection cost.
Embodiment provided above is the better embodiment of the present invention, only is used for facilitating illustrating the present invention, not to this hair
It is bright to make any form of restriction, any those of ordinary skill in the art, if not departing from the put forward skill of the present invention
In the range of art feature, using the equivalent embodiment for locally changing or modifying made by disclosed technology contents, and
Without departing from the technical feature content of the present invention, in the range of still falling within the technology of the present invention feature.