Double-layer high-pressure jet grouting impervious wall internal clamping vertical plastic paving device and construction method thereof
1. The utility model provides a press from both sides perpendicular shop and mould device in double-deck high pressure spouts cut-off wall soon which characterized in that: the device comprises a movable plate (1), idler wheels (11) are arranged at four corners of the movable plate (1) below the movable plate (1), a rod body (12) penetrates through the movable plate (1), an installation rod (121) is arranged at the end part of the rod body (12) below the movable plate (1), a hinge rod (122) is hinged to the surface, deviating from the rod body (12), of the installation rod (121), a connecting rod (123) is hinged to the end part, far away from the installation rod (121), of the hinge rod (122), and a plurality of slotting tools (124) are uniformly arranged on the surface, deviating from the installation rod (121), of the connecting rod (123) along the length direction of the connecting rod (123);
the hinge plates (14) are arranged on the mounting rod (121) and positioned on two sides of the rod body (12), hinge shafts (141) which penetrate through the hinge plates (14) and are connected to the rod body (12) in a rotating mode are fixedly arranged between the hinge plates (14) on the two sides, the length direction of each hinge shaft (141) is arranged in the length direction parallel to the connecting rod (123), a first driving device used for driving the hinge shafts (141) to drive the mounting rod (121) to swing in a reciprocating mode is arranged on the rod body (12), and a second driving device used for driving the connecting rod (123) to be positioned on the hinge point to swing in a reciprocating mode is arranged on the mounting rod (121);
connecting rod (123) wholly is the cavity setting, and hollow connecting rod (123) are gone up and are located between per two adjacent slotting tools (124) and all communicate with connecting rod (123) and be provided with body (17), the tip that connecting rod (123) were kept away from in body (17) is the opening setting, the both sides that just are located movable plate (1) on movable plate (1) are provided with storage water tank (171) and storage case (18), be provided with on storage water tank (171) and be used for the water delivery mechanism to a plurality of body (17) internal water delivery, be provided with on storage case (18) and be used for carrying the defeated thick liquid mechanism to storage case (18) in mud through a plurality of body (17).
2. The double-layer high-pressure rotary-spraying impervious wall internal clamping vertical plastic paving device according to claim 1, which is characterized in that: the first driving device comprises a first driving motor (142), a worm wheel (143) and a worm (144) meshed with the worm wheel (143), the first driving motor (142) is fixedly arranged on the rod body (12), the worm wheel (143) is sleeved and fixedly connected on a hinge shaft (141), and the worm (144) is fixedly arranged at a driving end of the first driving motor (142).
3. The double-layer high-pressure rotary-spraying impervious wall internal clamping vertical plastic paving device according to claim 2, which is characterized in that: the second driving device comprises driving rods (16) which are arranged in a penetrating mode and connected to two ends of an installation rod (121) in a sliding mode, the end portions, far away from the moving plate (1), of the driving rods (16) are hinged to connecting rods (123), the end portions, close to the moving plate (1), of the driving rods (16) are hinged to driving plates (169), strip-shaped holes (161) used for allowing the driving rods (16) to penetrate are formed in two ends of the installation rod (121) along the length direction of the installation rod (121), and a driving mechanism used for driving the driving plates (169) to be close to or far away from the installation rod (121) is arranged on the installation rod (121).
4. The double-layer high-pressure rotary-spraying impervious wall internal clamping vertical plastic paving device according to claim 3, which is characterized in that: the driving mechanism comprises a second driving motor (162) fixedly arranged on the mounting rod (121) and a driving cam (163) sleeved on and fixedly connected to the driving end of the second driving motor (162), the driving cam (163) is used for being abutted to the surface, facing the mounting rod (121), of the driving plate (169), a plurality of connecting springs (164) are arranged between the driving plate (169) and the mounting rod (121), one end of each connecting spring (164) is fixedly connected to the driving plate (169), and the other end of each connecting spring is fixedly connected to the mounting rod (121).
5. The double-layer high-pressure rotary-spraying impervious wall internal clamping vertical plastic paving device according to claim 4, which is characterized in that: the driving rod (16) is arranged to be of a telescopic structure, the telescopic structure comprises a fixing rod (166) and a moving rod (167) which is connected in the fixing rod (166) in an inserting mode and in a sliding mode, the fixing rod (166) is hinged to the connecting rod (123), the moving rod (167) is hinged to the driving plate (169), and a fixing piece used for fixing the moving rod (167) to any position in the fixing rod (166) is arranged on the fixing rod (166).
6. The double-layer high-pressure rotary-spraying impervious wall internal clamping vertical plastic paving device according to claim 5, which is characterized in that: the rod body (12) penetrates through and is connected to the moving plate (1) in a sliding mode, a plate body (13) is arranged on the end portion, located on the moving plate (1), of the rod body (12) and perpendicular to the rod body (12), and a lifting device used for driving the plate body (13) to drive the rod body (12) to lift is arranged on the moving plate (1).
7. The double-layer high-pressure rotary-spraying impervious wall internal clamping vertical plastic paving device according to claim 6, which is characterized in that: the lifting device comprises lifting electric cylinders (131) which are fixedly arranged on the moving plate (1) and located on two sides of the rod body (12), and driving ends of the lifting electric cylinders (131) are fixedly connected to the plate body (13).
8. The double-layer high-pressure rotary-spraying impervious wall internal clamping vertical plastic paving device according to claim 7, which is characterized in that: the utility model discloses a telescopic structure, including the body of rod (12), the body of rod (12) sets up to extending structure, and extending structure includes sleeve (132) and grafting and plug-in connection pole (133) in sleeve (132), the fixed tip that sets up in sleeve (132) of plate body (13), articulated shaft (141) are worn to establish and are rotated the tip of connecting at plug-in connection pole (133), be provided with on sleeve (132) and be used for fixing plug-in connection pole (133) to the fixing device of optional position in sleeve (132).
9. The double-layer high-pressure rotary-spraying impervious wall internal-clamping vertical plastic paving device according to claim 8, which is characterized in that: the utility model discloses a portable electric shock absorber, including plate body (13), adjustment tank (15) have been seted up on the face of plate body (13) orientation movable plate (1), the tip that the body of rod (12) is close to plate body (13) is provided with regulating block (151) that are used for sliding connection in adjustment tank (15), the length direction of adjustment tank (15) sets up along the length direction that is on a parallel with articulated shaft (141), be provided with in adjustment tank (15) and be used for fixing adjusting block (151) to the adjusting tank adjusting device of optional position in (15).
10. A construction method of a vertical plastic paving device clamped in a double-layer high-pressure rotary-spraying impervious wall comprises the vertical plastic paving device clamped in the double-layer high-pressure rotary-spraying impervious wall of claim 9, and is characterized in that: the method comprises the following steps:
the movable plate (1) drives a roller (11) to be arranged on the ground, a movable rod (167) is driven to move in a fixed rod (166) according to the length of a groove formed as required, the movable rod (167) is fixed in the fixed rod (166) through a fixing piece, so that the length of a driving rod (16) on two sides is adjusted, a connecting rod (123) is fixed to be in any inclined state, at the moment, a lifting electric cylinder (131) drives a plate body (13) to move, the plate body (13) can drive the connecting rod (123) on a rod body (12) to move towards the ground, meanwhile, a worm (144) is driven to rotate in the forward direction and the reverse direction through a first driving motor (142), a turbine (143) drives a hinged shaft (141) to rotate in the forward direction and the reverse direction, the connecting rod (123) drives a plurality of grooving cutters (124) to swing, and a second driving motor (162) drives a driving cam (163) to rotate, because of drive plate (169) resist the elasticity of connecting spring (164) on butt to drive cam (163) all the time, make the bellying of drive cam (163) reciprocal and drive plate (169) butt, thereby make actuating lever (16) drive connecting rod (123) reciprocal swing, make slotting cutter (124) carry out the ground fluting, adjust through the number of turns to the drive end of first driving motor (142), thereby make first driving motor (142) can drive installation pole (121) and realize the swing of different width, slotting cutter (124) are when the fluting, water conveying mechanism can carry water to the inslot, thereby make the soil in the inslot form the mud with water, the mud that the mud mechanism can form is taken out, operating personnel moves through driving movable plate (1), make a plurality of slotting cutters (124) carry out the fluting on the ground length direction.
Background
The vertical film spreading technology has the working principle that a special ditching and grooving machine is used for forming a groove with a certain width and depth, a plastic film is paved in the groove, and then backfilled soil is filled in the groove to form an anti-seepage curtain taking the plastic film as a main body, so that the anti-seepage effect is achieved.
Chinese patent application publication No. CN105735392A discloses a hydraulic vertical film spreading machine, which comprises a plastic film roll, a plastic film inner rod in the plastic film roll, a plastic film base at the lower end of the inner rod, a hydraulic oil pump arranged on a panel, a slurry inlet steel pipe connected to the panel at the upper end thereof, a slurry inlet steel pipe connected to the plastic film base at the lower end thereof, and an upper slurry inlet hose connected to the upper end of the slurry inlet steel pipe; according to the size of the plastic paving depth, the plastic paving machine is provided with a plurality of hydraulic punching mechanisms, the upper end of a connecting rod of each punching mechanism is connected to a slurry inlet steel pipe, the lower end of the connecting rod is hinged to the middle of a transverse pipe, the upper end of a hydraulic oil cylinder is hinged to the slurry inlet steel pipe, the lower end of the hydraulic oil cylinder is hinged to the upper end of the transverse pipe, the upper end of a slurry inlet hose is connected to the slurry inlet steel pipe, the lower end of the slurry inlet hose is connected to the lower end of the transverse pipe, vertical pipes are arranged at the two ends of the transverse pipe, the lower ends of the vertical pipes are connected to a cutter pipe, and the lower part of each cutter pipe is provided with a water spray nozzle and a cutter plate.
With respect to the related art among the above, the inventors consider that the following technical drawbacks exist: when the grooves with different widths need to be grooved, the whole plastic paving machine needs to be taken out of the formed groove, and the plastic paving machine is restarted to expand the width of the formed groove for multiple times, so that the grooving efficiency of the grooves with different widths is reduced.
Disclosure of Invention
In order to improve the grooving efficiency of grooves with different widths, the application provides a vertical plastic paving device for a double-layer high-pressure rotary-spraying impervious wall inner clamp.
The application provides a press from both sides perpendicular shop and moulds device in double-deck high pressure spouts cut-off wall soon adopts following technical scheme:
the double-layer high-pressure rotary spraying impervious wall inner clamp vertical plastic paving device comprises a movable plate, wherein idler wheels are arranged below the movable plate and at four corners of the movable plate, a rod body penetrates through the movable plate, an installation rod is arranged at the end part of the rod body below the movable plate, a hinge rod is hinged to the surface, away from the rod body, of the installation rod, a connecting rod is hinged to the end part, away from the installation rod, of the hinge rod, and a plurality of slotting tools are uniformly arranged on the surface, away from the installation rod, of the connecting rod along the length direction of the connecting rod;
the hinge plates are arranged on the mounting rod and positioned on two sides of the rod body, hinge shafts which penetrate through the hinge plates and are rotatably connected to the rod body are fixedly arranged between the hinge plates on the two sides, the length direction of each hinge shaft is arranged along the length direction parallel to the length direction of the corresponding connecting rod, a first driving device for driving the hinge shafts to drive the mounting rod to swing in a reciprocating manner is arranged on the rod body, and a second driving device for driving the connecting rods to swing in a reciprocating manner at hinge points is arranged on the mounting rod;
the connecting rod is wholly hollow, and the connecting rod is provided with the body on the hollow connecting rod and is located between per two adjacent slotting tools and all communicates with the connecting rod, the tip that the connecting rod was kept away from to the body is the opening setting, the both sides that just are located the movable plate on the movable plate are provided with storage water tank and storage case, be provided with the water delivery mechanism who is used for to water delivery in a plurality of bodys on the storage water tank, be provided with on the storage case and be used for carrying mud to the defeated thick liquid mechanism of storage incasement through a plurality of bodys.
By adopting the technical scheme, an operator drives the whole movable plate to move on the ground through the idler wheels, the first driving device can drive the articulated shaft to rotate, so that the articulated shaft drives the slotting tools to reciprocate along the length direction perpendicular to the connecting rods, slotting of grooves with different widths is realized, meanwhile, the second driving device can drive the multiple slotting tools to reciprocate along the length direction of the connecting rods, the multiple slotting tools realize expansion of the width of the grooves while slotting along the length direction of the connecting rods, and slotting efficiency of the grooves with different widths is improved; water delivery mechanism can carry water to the ditch inslot when a plurality of necking tool fluting to make the ditch inslot form mud, defeated thick liquid mechanism can be with the extraction of the mud in the ditch inslot to the storage case at this moment, thereby prevent that mud from influencing the fluting of a plurality of necking tools.
Optionally, first drive arrangement includes first driving motor, turbine and is used for the worm with the turbine meshing, first driving motor is fixed to be set up on the body of rod, the turbine cover is established and fixed connection is on the articulated shaft, the worm is fixed to be set up on first driving motor's drive end.
Through adopting above-mentioned technical scheme, drive the worm through first driving motor and rotate to make the turbine drive the articulated shaft and rotate, make the articulated shaft drive the connecting rod along the length direction swing of perpendicular to connecting rod, realized the extension of slot width direction, through adjusting first driving motor, make first driving motor can drive the rotation that the different number of turns of worm realization, thereby realize the extension of the slot of different width, improved the suitability of whole perpendicular shop plastic device.
Optionally, the second driving device includes the actuating lever of wearing to establish and sliding connection at installation pole both ends, the tip that the movable plate was kept away from to the actuating lever articulates and sets up on the connecting rod, the articulated drive plate that is provided with of tip that the actuating lever is close to the movable plate, the bar hole that is used for supplying the actuating lever to pass is all offered along the length direction of installation pole at the both ends of installation pole, be provided with on the installation pole and be used for driving the actuating mechanism that the drive plate is close to or keeps away from the installation pole.
Through adopting above-mentioned technical scheme, it is close to or keeps away from the installation pole to drive the drive plate through actuating mechanism, make the drive plate drive the pin joint that the actuating lever is located connecting rod and drive plate and rotate, when one side actuating mechanism drives the drive plate and is close to the installation pole, opposite side actuating mechanism drives the drive plate and keeps away from the installation pole, reciprocal swing can be realized to the installation pole this moment, thereby make the connecting rod drive a plurality of slotting tools reciprocal swing and slot, set up actuating mechanism on the installation pole, do not influence the swing that first drive arrangement drove the installation pole and realize perpendicular to connecting rod length direction, make a plurality of slotting tools can swing simultaneously along the length and the width direction of slot.
Optionally, the driving mechanism comprises a second driving motor fixedly arranged on the mounting rod and a driving cam sleeved on and fixedly connected to the driving end of the second driving motor, the driving cam is used for abutting against the surface of the driving plate facing the mounting rod, a plurality of connecting springs are arranged between the driving plate and the mounting rod, one ends of the connecting springs are fixedly connected to the driving plate, and the other ends of the connecting springs are fixedly connected to the mounting rod.
Through adopting above-mentioned technical scheme, when connecting spring is in tensile state, the elasticity that the drive plate can resist connecting spring is on butt to the cam all the time, when second driving motor drives drive cam and rotates, drive cam's bellying can reciprocate and drive plate butt, thereby make being close to repeatedly of drive plate and keeping away from the installation pole, the drive plate can drive the actuating lever and remove, thereby make the connecting rod drive a plurality of slotting tool reciprocating swing, adopt second driving motor and drive cam's setting, through constantly driving drive cam and rotating can realize the reciprocating swing to the connecting rod, the steam generator is simple in structure, the drive effect to the connecting rod has been improved.
Optionally, the driving rod is arranged to be of a telescopic structure, the telescopic structure comprises a fixing rod and a moving rod which is connected in the fixing rod in a splicing mode and in a sliding mode, the fixing rod is hinged to the connecting rod, the moving rod is hinged to the driving plate, and a fixing piece used for fixing the moving rod to any position in the fixing rod is arranged on the fixing rod.
Through adopting above-mentioned technical scheme, be located the dead lever through driving the carriage release lever and remove for the mounting can be fixed the carriage release lever to the dead lever in the optional position, thereby adjust the length of both sides actuating lever, thereby adjust the initial condition of connecting rod, when needs expand the degree of depth of slot, adjust the connecting rod to the horizontality, when needs expand the length of slot, can adjust the connecting rod to different tilt states, improved the fluting effect of spreading the membrane machine perpendicularly.
Optionally, the rod body is penetrated and slidably connected on the movable plate, the end portion of the rod body located on the movable plate is perpendicular to the rod body and is provided with a plate body, and a lifting device used for driving the plate body to drive the rod body to lift is arranged on the movable plate.
Through adopting above-mentioned technical scheme, drive the plate body through elevating gear and remove, the plate body can drive the body of rod and remove to make the body of rod drive installation pole and connecting rod lift, through driving the connecting rod lift, make the connecting rod can slot to the slot of the different degree of depth, further improved the suitability of spreading the device of moulding perpendicularly.
Optionally, the lifting device comprises lifting electric cylinders which are fixedly arranged on the moving plate and located on two sides of the rod body, and the driving ends of the lifting electric cylinders are fixedly connected to the plate body.
Through adopting above-mentioned technical scheme, drive the plate body through the electric jar that goes up and down and remove for the plate body drives the body of rod, installation pole and connecting rod and removes, adopts its simple structure of the mode that the electric jar that goes up and down drove the plate body and removes, has improved the drive effect to the plate body.
Optionally, the body of rod sets up to extending structure, and extending structure includes sleeve and grafting and the grafting pole of sliding connection in the sleeve, the fixed setting of plate body is at telescopic tip, the articulated shaft is worn to establish and is rotated the tip of connecting at the grafting pole, be provided with the fixing device who is used for fixing the grafting pole to the optional position in the sleeve on the sleeve.
Through adopting above-mentioned technical scheme, can drive the inserted bar through fixing device and fix to the interior optional position of sleeve, through the length adjustment to the body of rod for the body of rod of different length can realize the fluting to the different degree of depth slot, has further improved the grooved degree of depth scope of a plurality of slotting tools.
Optionally, an adjusting groove is formed in the surface, facing the moving plate, of the plate body, an adjusting block used for being connected in the adjusting groove in a sliding mode is arranged at the end, close to the plate body, of the rod body, the length direction of the adjusting groove is arranged along the length direction parallel to the hinged shaft, and an adjusting device used for fixing the adjusting block to any position in the adjusting groove is arranged in the adjusting groove.
Through adopting above-mentioned technical scheme, can drive the regulating block through adjusting device and fix to the adjustment tank in the optional position to the position of direction regulation connecting rod along the perpendicular to connecting rod, operating personnel need not to spread the device of moulding perpendicularly to whole and remove, makes the connecting rod of different positions can further slot to the slot of different width, width scope when further having improved a plurality of slotting tools fluting.
In order to improve the grooving efficiency of grooves with different widths, the application provides a construction method of a vertical plastic paving device clamped in a double-layer high-pressure rotary-spraying impervious wall.
The construction method of the double-layer high-pressure rotary-spraying impervious wall internal-clamping vertical plastic paving device adopts the following technical scheme:
a construction method of a vertical plastic paving device clamped in a double-layer high-pressure rotary-spraying impervious wall comprises the vertical plastic paving device clamped in the double-layer high-pressure rotary-spraying impervious wall, and comprises the following steps:
the movable plate drives the idler wheel to be arranged on the ground, the movable rod is driven to move in the fixed rod according to the length of a groove which is formed as required, the movable rod is fixed in the fixed rod through the fixing piece, so that the length of the driving rods on two sides is adjusted, the connecting rods are fixed in an arbitrary inclined state, at the moment, the plate body is driven to move through the lifting electric cylinder, the connecting rods on the rod body can be driven to move towards the ground by the plate body, meanwhile, the worm is driven to rotate in the forward direction and the reverse direction through the first driving motor, the worm wheel drives the articulated shaft to rotate in the forward direction and the reverse direction, the connecting rods drive the multiple slotting tools to swing, the driving cam is driven to rotate through the second driving motor, the driving plate resists the elastic force of the connecting spring and is always abutted to the driving cam, the protruding parts of the driving cam are in reciprocating manner to be abutted to the driving plate, so that the driving rods drive the connecting rods to swing in a reciprocating manner, and the slotting tools slot on the ground, the number of turns of rotation through the drive end to first driving motor is adjusted to make first driving motor can drive the swing that the installation pole realized different width, the slotting tool when the fluting, water delivery mechanism can carry water to the inslot, thereby make the soil in the inslot and water form mud, the mud that the mud delivery mechanism can form is taken out, operating personnel removes through driving the movable plate, makes a plurality of slotting tools carry out the fluting on the ground length direction.
Through adopting above-mentioned technical scheme, whole perpendicular plastic paving device can drive a plurality of necking tools and simultaneously along being on a parallel with and the length direction reciprocating swing of perpendicular to connecting rod to realize slot width direction and length direction's fluting, improved the fluting efficiency when slotting to different width slots.
In summary, the present application includes at least one of the following beneficial technical effects:
1. an operator drives the whole movable plate to move on the ground through the idler wheels, the first driving device can drive the articulated shaft to rotate, so that the articulated shaft drives the slotting tools to reciprocate along the length direction perpendicular to the connecting rods, slotting of the grooves with different widths is realized, meanwhile, the second driving device can drive the multiple slotting tools to reciprocate along the length direction of the connecting rods, the multiple slotting tools realize expansion of the width of the grooves while slotting along the length direction of the connecting rods, and slotting efficiency of the grooves with different widths is improved; when the plurality of slotting tools open the slots, the water conveying mechanism can convey water into the slots, so that slurry is formed in the slots, and the slurry conveying mechanism can pump the slurry in the slots into the storage box, so that the slotting influence of the slurry on the plurality of slotting tools is prevented;
2. the movable rod is driven to move in the fixed rod, so that the movable rod can be fixed to any position in the fixed rod by the fixing piece, the lengths of the driving rods on the two sides are adjusted, the initial state of the connecting rod is adjusted, when the depth of the groove needs to be expanded, the connecting rod is adjusted to be in a horizontal state, when the length of the groove needs to be expanded, the connecting rod can be adjusted to be in different inclined states, and the slotting effect of the vertical film paving machine is improved;
3. can drive the regulating block through adjusting device and fix to the adjustment tank interior optional position to the position of direction regulation connecting rod along the perpendicular to connecting rod, operating personnel need not to spread the device of moulding perpendicularly to whole and remove, makes the connecting rod of different positions can further slot to the slot of different width, width scope when further having improved a plurality of slotting tools fluting.
Drawings
FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;
FIG. 2 is a schematic structural view of an embodiment of the present application showing a mounting rod and a connecting rod;
fig. 3 is a schematic half-sectional structure diagram of an embodiment of the present application.
Description of reference numerals: 1. moving the plate; 11. a roller; 12. a rod body; 121. mounting a rod; 122. a hinged lever; 123. a connecting rod; 124. a slotting cutter; 13. a plate body; 131. a lifting electric cylinder; 132. a sleeve; 133. a plug rod; 134. fixing the electric cylinder; 135. a lifting plate; 14. a hinge plate; 141. hinging a shaft; 142. a first drive motor; 143. a turbine; 144. a worm; 15. an adjustment groove; 151. an adjusting block; 152. a threaded lead screw; 153. adjusting the motor; 16. a drive rod; 161. a strip-shaped hole; 162. a second drive motor; 163. a drive cam; 164. a connecting spring; 165. a guide bar; 166. fixing the rod; 167. a travel bar; 168. fastening a bolt; 169. a drive plate; 17. a pipe body; 171. a water storage tank; 172. a water inlet pipe; 173. a water outlet pipe; 174. a water delivery pipe; 175. discharging the water pump; 18. a material storage box; 182. a pulp inlet pipe; 183. a pulp outlet pipe; 184. a pulp conveying pipe; 185. and (6) discharging a slurry pump.
Detailed Description
The present application is described in further detail below with reference to figures 1-3.
The embodiment of the application discloses double-deck high pressure spouts cut-off wall interior clamp perpendicularly and spreads moulds device. Referring to fig. 1, the double-layer high-pressure jet grouting impervious wall inner clamp vertical plastic paving device comprises a movable plate 1, rollers 11 are arranged below the movable plate 1 and at four corners of the movable plate 1, a rod body 12 penetrates through the movable plate 1, an installation rod 121 is arranged at the end part of the rod body 12 below the movable plate 1, a hinge rod 122 is hinged to the surface of the installation rod 121 departing from the rod body 12, a connecting rod 123 is hinged to the end part of the hinge rod 122 far away from the installation rod 121, and a plurality of slotting tools 124 are uniformly arranged on the surface of the connecting rod 123 departing from the installation rod 121 along the length direction of the connecting rod 123; in the present embodiment, the width of the end of the slotter knife 124 away from the connecting bar 123 is gradually reduced toward a direction away from the connecting bar 123.
Referring to fig. 1 and 2, in order to drive the plurality of slotting tools 124 on the connecting rod 123 to ascend and descend, the rod body 12 is inserted into and slidably connected to the moving plate 1, the plate body 13 is disposed on the end portion of the rod body 12 on the moving plate 1, the plate body 12 is perpendicular to the end portion of the rod body 12, a lifting device for driving the plate body 13 to drive the rod body 12 to ascend and descend is disposed on the moving plate 1, the lifting device includes lifting electric cylinders 131 fixedly disposed on the moving plate 1 and located on two sides of the rod body 12, and driving ends of the lifting electric cylinders 131 are fixedly connected to the plate body 13; drive the plate body 13 through the electric cylinder 131 that goes up and down and remove for the plate body 13 drives installation pole 121 and connecting rod 123 through the body of rod 12 and goes up and down, thereby makes connecting rod 123 drive a plurality of necking tools 124 and goes up and down, makes a plurality of necking tools 124 be applicable to the slot of the different degree of depth.
With reference to fig. 1 and fig. 2, in order to further increase the lifting range of the connecting rod 123, the rod body 12 is configured to be a telescopic structure, the telescopic structure includes a sleeve 132 and an insertion rod 133 inserted and slidably connected in the sleeve 132, the plate body 13 is fixedly disposed at an end of the sleeve 132, and the sleeve 132 is provided with a fixing device for fixing the insertion rod 133 to any position in the sleeve 132; in this embodiment, the fixing device includes a fixed electric cylinder 134 fixedly disposed on the outer wall of the sleeve 132, a lifting plate 135 is fixedly disposed on the sidewall of the insertion rod 133, and a driving end of the fixed electric cylinder 134 is fixedly connected to the lifting plate 135; the fixed electric cylinder 134 drives the lifting plate 135 to move, so that the lifting plate 135 drives the insertion rod 133 to move in the sleeve 132, thereby adjusting the length of the rod body 12.
Referring to fig. 1 and 2, in order to drive the mounting rod 121 to swing along a length direction perpendicular to the connecting rod 123, so that the plurality of slotting tools 124 expand the width of the groove, hinge plates 14 are disposed on the mounting rod 121 and located at two sides of the rod body 12, a hinge shaft 141 penetrating through and rotatably connected to the rod body 12 is fixedly disposed between the hinge plates 14 at two sides, the hinge shaft 141 penetrates through and rotatably connected to an end of the inserting rod 133, a length direction of the hinge shaft 141 is disposed along a length direction parallel to the connecting rod 123, and a first driving device for driving the hinge shaft 141 to drive the mounting rod 121 to swing back and forth is disposed on the rod body 12; the first driving device comprises a first driving motor 142, a worm wheel 143 and a worm 144 engaged with the worm wheel 143, the first driving motor 142 is fixedly arranged on the rod body 12, the worm wheel 143 is sleeved and fixedly connected on the hinge shaft 141, and the worm 144 is fixedly arranged on the driving end of the first driving motor 142.
The worm 144 is driven to rotate by the first driving motor 142, so that the worm wheel 143 drives the hinge shaft 141 to rotate, and the hinge shaft 141 can drive the mounting rod 121 to swing back and forth along the direction perpendicular to the length direction of the connecting rod 123, so that the plurality of slotting tools 124 expand the width of the groove; the number of turns of the motor is adjusted, so that the worm 144 drives the worm 143 to adjust the number of turns of the worm, and the mounting rod 121 drives the connecting rod 123 to realize different swing amplitudes, so as to realize slotting of grooves with different widths.
Referring to fig. 1 and 3, in order to drive the connecting rod 123 to adjust its position along the length direction perpendicular to the connecting rod 123, an adjusting groove 15 is opened on the surface of the plate body 13 facing the moving plate 1, an adjusting block 151 for slidably connecting in the adjusting groove 15 is disposed at the end of the rod body 12 close to the plate body 13, in this embodiment, in order to prevent the adjusting block 151 from being separated from the adjusting groove 15 along the length direction perpendicular to the adjusting groove 15, the cross section of the adjusting groove 15 is set to be "T" shaped, and the adjusting block 151 is matched with the "T" shaped adjusting groove 15: the length direction of the adjustment groove 15 is arranged in parallel to the length direction of the hinge shaft 141, and an adjustment device for fixing the adjustment block 151 to an arbitrary position in the adjustment groove 15 is arranged in the adjustment groove 15; in this embodiment, the adjusting device includes a threaded lead screw 152 that is inserted and rotatably connected in the adjusting groove 15, the adjusting block 151 is sleeved on the threaded lead screw 152, and an adjusting motor 153 for driving the threaded lead screw 152 to rotate is fixedly disposed on the plate body 13.
In order to drive the connecting rod 123 to swing back and forth on the hinge rod 122 along the length direction parallel to the connecting rod 123, a second driving device for driving the connecting rod 123 to swing back and forth on the hinge point is arranged on the mounting rod 121; the second driving device comprises driving rods 16 penetrating through and slidably connected to two ends of the mounting rod 121, the end part of the driving rod 16 far away from the moving plate 1 is hinged to the connecting rod 123, the end part of the driving rod 16 close to the moving plate 1 is hinged to a driving plate 169, two ends of the mounting rod 121 are provided with strip-shaped holes 161 along the length direction of the mounting rod 121 for the driving rod 16 to pass through, the length direction of the strip-shaped holes 161 is parallel to the length direction of the connecting rod 123, and in order to drive the driving plate 169 to repeatedly approach or keep away from the mounting rod 121, a driving mechanism for driving the driving plate 169 to approach or keep away from the mounting rod 121 is arranged on the mounting rod 121; the driving mechanism comprises a second driving motor 162 fixedly arranged on the mounting rod 121 and a driving cam 163 sleeved on and fixedly connected with the driving end of the second driving motor 162, the driving cam 163 is used for abutting against the surface of the driving plate 169 facing the mounting rod 121, a plurality of connecting springs 164 are arranged between the driving plate 169 and the mounting rod 121, one end of each connecting spring 164 is fixedly connected to the driving plate 169, and the other end of each connecting spring 164 is fixedly connected to the mounting rod 121; in the present embodiment, four connecting springs 164 are provided, and the four connecting springs 164 are located at four corners of the driving plate 169.
Referring to fig. 1 and 2, when the connecting spring 164 is in a stretched state, the driving plate 169 can be always abutted against the driving cam 163 against the elastic force of the connecting spring 164, in this embodiment, in order to prevent the connecting spring 164 from tilting, a guide rod 165 is fixedly disposed on the mounting rod 121 at a position where each spring is located, one end of the guide rod 165 is fixedly connected to the mounting rod 121, the other end of the guide rod 165 is inserted into and slidably connected to the driving plate 169, and the connecting spring 164 is sleeved on the connecting spring 164; the driving cam 163 is driven to rotate by the second driving motor 162, the protruding portion of the driving cam 163 can be in contact with the driving plate 169 in a reciprocating manner, so that the driving cam 163 drives the driving plate 169 to be repeatedly close to or far away from the mounting rod 121, the driving plate 169 can drive the hinge point of the driving rod 16 on the driving plate 169 to rotate, the connecting rod 123 can be located on the hinge point of the driving rod 16 to rotate, when the driving plate 169 on one side is close to the mounting rod 121, the driving plate 169 on the other side is far away from the mounting rod 121, two ends of the connecting rod 123 swing alternately, and the connecting rod 123 drives the slotting knives 124 to slot along the length direction of the connecting rod 123.
Referring to fig. 1 and 2, in order to adjust the initial state of the connecting rod 123 such that the connecting rod 123 can swing back and forth along the inclined state, the driving rod 16 is provided as a telescopic structure, the telescopic structure includes a fixed rod 166 and a movable rod 167 inserted and slidably connected in the fixed rod 166, the fixed rod 166 is hinged on the connecting rod 123, the movable rod 167 is hinged on the driving plate 169, and the fixed rod 166 is provided with a fixing member for fixing the movable rod 167 to any position in the fixed rod 166; in this embodiment, the fixing member is a fastening bolt 168 that is threaded through and screwed on the fixing rod 166, and the fastening bolt 168 is screwed on the fixing rod 166, so that the rod portion of the fastening bolt 168 abuts against the moving rod 167, and the moving rod 167 is fixed at any position in the fixing rod 166.
When the depth of needs to the slot is expanded, the length adjustment of both sides actuating lever 16 is same length, make both sides actuating lever 16 drive connecting rod 123 and adjust to the horizontality, thereby make connecting rod 123 vertical downwards expand the depth of slot, when the length that needs the slot expands, adjust both sides actuating lever 16 to different length, make connecting rod 123 adjusted to the tilt state, drive connecting rod 123 this moment and remove along the length direction of slot, make connecting rod 123 under the tilt state can reciprocate to swing and drive a plurality of slotting tools 124 and realize the fluting.
With reference to fig. 1 and 3, in order to convey water into the groove and form slurry in the groove, the connecting rod 123 is integrally arranged in a hollow manner, a pipe body 17 is arranged on the hollow connecting rod 123 and between every two adjacent slotting tools 124 and communicated with the connecting rod 123, the end of the pipe body 17 far away from the connecting rod 123 is arranged in an open manner, a water storage tank 171 and a material storage tank 18 are arranged on the moving plate 1 and at two sides of the moving plate 1, and a water conveying mechanism for conveying water into the plurality of pipe bodies 17 is arranged on the water storage tank 171; in this embodiment, the water delivery mechanism includes a water inlet pipe 172, a water outlet pipe 173 and a water delivery pipe 174, the water inlet pipe 172 is communicated to the top wall of the water storage tank 171, the water outlet pipe 173 is communicated to the bottom of the side wall of the water storage tank 171, a water outlet pump 175 is arranged on the water outlet pipe 173, the water delivery pipe 174 is communicated with one end of the hollow connecting rod 123, and the end of the water delivery pipe 174 far away from the connecting rod 123 is communicated to the water outlet pipe 173; the water duct 174 is provided as a rubber hose.
Referring to fig. 1 and 3, in order to draw the formed slurry into the storage tank 18, a slurry feeding mechanism for feeding the slurry into the storage tank 18 through the plurality of pipe bodies 17 is provided on the storage tank 18; in this embodiment, the slurry conveying mechanism comprises a slurry inlet pipe 182, a slurry outlet pipe 183 and a slurry conveying pipe 184, wherein the slurry inlet pipe 182 is communicated with the top wall of the slurry storage tank, the slurry outlet pipe 183 is communicated with the bottom of the side wall of the slurry storage tank, a slurry outlet pump 185 is arranged on the slurry outlet pipe 183, the slurry conveying pipe 184 is communicated with one end of a hollow connecting rod 123, and the end part of the slurry conveying pipe 184, which is far away from the connecting rod 123, is communicated with the slurry outlet pipe 183; the slurry feed pipe 184 is provided as a rubber hose.
A construction method of a vertical plastic paving device clamped in a double-layer high-pressure rotary-spraying impervious wall comprises the vertical plastic paving device clamped in the double-layer high-pressure rotary-spraying impervious wall, and comprises the following steps:
the moving plate 1 drives the roller 11 to be placed on the ground, the length of the groove formed as required drives the moving rod 167 to move in the fixed rod 166, the moving rod 167 is fixed in the fixed rod 166 through a fixing member, thereby adjusting the length of the driving rods 16 on both sides, so that the connecting rod 123 is fixed in any inclination state, at this time, the plate body 13 is driven by the lifting electric cylinder 131 to move, the plate body 13 can drive the connecting rod 123 on the rod body 12 to move towards the ground, meanwhile, the worm 144 is driven by the first driving motor 142 to rotate in the forward direction and the reverse direction, the turbine 143 drives the hinge shaft 141 to rotate in the forward direction and the reverse direction, so that the connecting rod 123 drives the plurality of slotting tools 124 to swing, the driving cam 163 is driven by the second driving motor 162 to rotate, and the driving cam 163 is always abutted against the driving cam 163 by the driving plate 169 against the elastic force of the connecting spring 164, so that the protruding part of the driving cam 163 is reciprocally abutted against the driving plate 169, thereby make actuating lever 16 drive connecting rod 123 reciprocating swing, make slotting cutter 124 carry out the ground fluting, the number of turns through the drive end to first driving motor 142 adjusts, thereby make first driving motor 142 can drive the swing that different width were realized to installation pole 121, slotting cutter 124 is when the fluting, water conveying mechanism can carry water to the inslot, thereby make the soil in the inslot form the mud with water, the mud that the mud conveying mechanism can form takes out, operating personnel removes through driving movable plate 1, make a plurality of slotting cutters 124 carry out the fluting on the ground length direction.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.