CN114277734A - Revetment geomembrane retracting and releasing equipment and construction method thereof - Google Patents

Abstract

The utility model relates to a field of bank maintenance especially relates to a bank protection geomembrane receive and releases equipment and construction method thereof, and it includes the mainboard, be equipped with balanced monitoring subassembly on the mainboard, a side of mainboard is equipped with first braced frame, the mainboard deviates from be equipped with second braced frame on the side of support frame, be equipped with the lifter that goes up and down along vertical direction on the second braced frame, still be equipped with the drive division that the drive lifter goes up and down on the second braced frame, all be equipped with the rolling mechanism that the drive mainboard removed on the bottom surface of first braced frame and lifter. The utility model provides a receive and release equipment on be provided with the balance monitoring subassembly, through the inclination of balance monitoring subassembly monitoring mainboard, through the position of drive division adjustment lifter to adjustment second braced frame's height, thereby make the mainboard keep the level, and then keep the steady operation of winding and unwinding devices on the inclined plane, effectively improved the efficiency of receiving and unwinding to the bank protection geomembrane.

Description

Revetment geomembrane retracting and releasing equipment and construction method thereof

Technical Field

The application relates to the field of river bank maintenance, in particular to revetment geomembrane retracting and releasing equipment and a construction method thereof.

Background

The river refers to the situation that rainfall or water flowing out of the ground from the underground is collected at a low-lying position on the ground, flows along a depression caused by the flowing water frequently or periodically under the action of gravity, river banks blocking the river are arranged on two sides of the river, the river brings a long-term water source for the survival of animals on the ground, the water in the river flushes the river banks in the flowing process, and the river water takes away soil on the river banks, so that dike breaking can be caused, and therefore, the protection of soil on the banks is very important.

The revetment is an engineering measure of artificial reinforcement on the original river bank and coast bank slope, and is used for defending against the invasion and the elutriation of waves and water currents and the action of underground water and maintaining the stability of a bank line. In the related art, a bank protection geomembrane is laid on a bank to prevent soil loss on the bank, and workers lay the rolled bank protection geomembrane on an inclined river bank. The river bank is inclined, and the collecting and releasing equipment for collecting and releasing the geomembrane in the related art is used on the flat ground and cannot move on the inclined river bank, so that the collecting and releasing efficiency is slow when the geomembrane for protecting the river bank is manually collected and released, and the collecting and releasing efficiency is to be further improved.

Disclosure of Invention

In order to improve the deploying and retracting efficiency of the bank protection geomembrane, the application provides a deploying and retracting device for the bank protection geomembrane and a construction method of the deploying and retracting device.

In a first aspect, the application provides a revetment geomembrane receive and releases equipment, adopts following technical scheme:

the utility model provides a bank protection geomembrane receive and releases equipment, includes the mainboard, be equipped with the balance monitoring subassembly on the mainboard, a side of mainboard is equipped with first braced frame, the mainboard deviates from be equipped with second braced frame on the side of support frame, be equipped with the lifter that goes up and down along vertical direction on the second braced frame, still be equipped with the drive division that the drive lifter goes up and down on the second braced frame, all be equipped with the rolling mechanism that the drive mainboard removed on the bottom surface of first braced frame and lifter.

Through adopting above-mentioned technical scheme, the bank protection geomembrane receive and releases equipment and move on the bank of slope, the slope degree of balance monitoring subassembly monitoring mainboard, the height of data adjustment lifter that the drive division monitored according to the balance monitoring subassembly, thereby make first braced frame and second braced frame keep the altitude phase difference at a less within range, and then maintain the balance of mainboard and receive and release equipment, the removal of rolling mechanism drive receive and release equipment, thereby can receive and release the bank protection geomembrane on the bank of slope, the efficiency of receiving and releasing of bank protection geomembrane has effectively been promoted.

In a specific embodiment, the balance monitoring assembly comprises a balance box arranged on a main board, a slide hole is formed in the balance box in the horizontal direction, two pressure sensors respectively located at two ends of the slide hole are arranged on the balance box, a rolling ball is arranged in the slide hole, sliding plates located in the slide hole are arranged on two sides of the rolling ball, a compression spring is arranged on the side, deviating from the rolling ball, of each sliding plate, and a butt plate is arranged on one end, far away from the sliding plates, of each compression spring.

Through adopting above-mentioned technical scheme, when the mainboard slopes, roll the ball and can roll in the slide opening to can the butt to the slide on, and compress the compression spring that the slide is connected, thereby on using pressure sensor through the butt plate, pressure sensor judges the slope degree of mainboard through the pressure size of response, thereby is convenient for adjust receiving and releasing equipment.

In a specific implementation mode, the bottom wall of the sliding hole is provided with an arc groove positioned below the rolling ball.

In a specific implementation manner, the driving portion includes a first motor disposed on the second supporting frame, a sliding groove is formed in the second supporting frame along the vertical direction, the lifting rod is disposed in the sliding groove, a screw rod with one end located in the sliding groove is further disposed on the second supporting frame, the screw rod is in threaded connection with the lifting rod, and an output shaft of the first motor is fixedly connected to the screw rod.

Through adopting above-mentioned technical scheme, the rotation of motor drive screw rod drives the lifter and goes up and down in the spout when the screw rod rotates to the effect of adjustment second braced frame has been reached.

In a specific implementation manner, the rolling mechanism includes an installation seat, a rotating plate hinged to the installation seat is disposed on the installation seat, rolling wheels are disposed at two ends of the rotating plate, and a second motor for driving the rolling wheels to rotate is further disposed on the rotating plate.

In a specific embodiment, the rolling wheel is provided with a plurality of ground grabbing thorns on the circumferential surface.

Through adopting above-mentioned technical scheme, the both ends of rotor plate all are equipped with the wheel that rolls, consequently in the place of unevenness, rolling mechanism still can keep better land fertility of grabbing to help receiving and releasing equipment to move on the bank of slope.

In a specific implementation mode, two mounting plates are arranged on the bottom surface of the main board, an unwinding rod is jointly arranged on the mounting plates, and the unwinding rod is detachably connected with the mounting plates.

Through adopting above-mentioned technical scheme, the bank protection geotechnological cloth coiled material is placed and is unreeled the pole, and the in-process that receive and releases equipment removal, the coiled material is around unreeling the pole and rotates to the process of unreeling is realized.

In a specific implementation mode, two be equipped with a winding rod on the mounting panel jointly, be equipped with drive winding rod pivoted third motor on one of them mounting panel, the winding rod is kept away from one of them motor is served and is equipped with the installation piece, the mounting panel is offered the mounting hole that supplies the installation piece to place, offer on the installation piece and supply winding rod male jack, the double-layered groove has been seted up along the axial of winding rod on winding rod global, be equipped with the holding strip in the double-layered groove, the one end of holding strip is located in the jack.

Through adopting above-mentioned technical scheme, when rolling the bank protection geotechnique's cloth, the one end of bank protection geotechnique's cloth is placed in the holding groove, then places the holding strip in the holding groove, and when the mounting block was put into the mounting hole, the one end of holding strip and coiling rod was located the jack, and the mounting block played spacing effect to the holding strip, and the in-process that winding and unwinding devices removed, third motor drive coiling rod rotated to the rolling of realization to bank protection geotechnique's cloth.

In a specific embodiment, the two mounting plates are also provided with two guide rods together, and the two guide rods are positioned below the side of the winding rod and the side of the unwinding rod.

Through adopting above-mentioned technical scheme, at the in-process of rolling with unreeling, the shore protection geotechnological cloth passes between two guide arms, and two guide arms are close to in ground to make geotechnological cloth can laminate and lay in ground.

In a second aspect, the application discloses a construction method of a revetment geomembrane retracting and releasing device, which comprises the following steps:

unreeling: the unwinding rod is disassembled, the bank protection geomembrane coiled material is placed between the two mounting plates, the unwinding rod is assembled on the mounting plates and inserted into the bank protection geomembrane coiled material, the second motor drives the rolling wheels to rotate, so that the winding and unwinding equipment is driven to move along a river bank, the bank protection geomembrane is unwound, and the edge of the bank protection geomembrane is manually fixed after unwinding;

winding: one end of the bank protection geomembrane is placed in the clamping groove, the clamping strips are placed in the clamping groove to clamp the bank protection geotextile, then the second motor drives the retraction device to move along the bank of the river, and the third motor drives the winding rod to rotate in the moving process to wind the bank protection geomembrane.

By adopting the technical scheme, the rolling and the unreeling of the bank protection geotextile can be realized through the reeling and unreeling device, and the reeling and unreeling efficiency of the bank protection geotextile is effectively improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the balance monitoring assembly is arranged on the retraction equipment, the inclination degree of the main board is monitored through the balance monitoring assembly, the position of the lifting rod is adjusted through the driving part, and therefore the height of the second supporting frame is adjusted, the main board is kept horizontal, stable operation of the retraction device on the inclined plane is further kept, and retraction efficiency of the bank protection geomembrane is effectively improved;

2. this application all is provided with the wheel that rolls at the both ends of rotor plate, and the rotor plate can rotate around the mount pad to can improve second braced frame's stability.

Drawings

Fig. 1 is a schematic structural diagram of a revetment geomembrane retracting and releasing device and a construction method thereof according to an embodiment of the present application.

Fig. 2 is a sectional view of a balancing box of an embodiment of the present application.

Fig. 3 is a sectional view of a second support frame of an embodiment of the present application.

FIG. 4 is a schematic structural diagram of a take-up and pay-off assembly according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a mounting block according to an embodiment of the present application.

Description of reference numerals: 1. A main board; 2. a first support frame; 201. a first support leg; 3. a second support frame; 301. a second support leg; 4. a balance monitoring assembly; 5. a reel retrieving and releasing assembly; 6. a balancing box; 61. a slide hole; 62. an arc groove; 7. rolling a ball; 8. a slide plate; 9. a compression spring; 10. a butt joint plate; 11. a pressure sensor; 12. a control panel; 13. a chute; 14. a lifting rod; 15. a drive section; 151. a first motor; 152. a screw; 16. a rolling mechanism; 161. a mounting seat; 162. a rotating plate; 163. a wheel groove; 164. a rolling wheel; 165. grabbing ground thorns; 166. a second motor; 17. mounting a plate; 18. unwinding the rod; 19. a limiting cap; 20. a nut; 21. a guide bar; 22. winding the rod; 23. clamping strips; 25. a third motor; 26. mounting blocks; 27. and (7) installing holes.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses revetment geomembrane retracting and releasing equipment and a construction method thereof. Referring to fig. 1, the revetment geomembrane retracting and releasing equipment and the construction method thereof comprise a main board 1, wherein a first supporting frame 2 is arranged on the side surface of the main board 1 in the length direction, the first supporting frame 2 comprises two first supporting legs 201 which are positioned at two ends of the first supporting frame 2 in the length direction, a second supporting frame 3 is arranged on the side surface of the main board 1 which is far away from the second supporting frame 3, and the second supporting frame 3 comprises two second supporting legs 301 which are positioned at two ends of the second supporting frame 3 in the length direction. Still be equipped with balance monitoring subassembly 4 on the top surface of mainboard 1, be equipped with on the bottom surface of mainboard 1 and receive and unreel subassembly 5.

Referring to fig. 1 and 2, balance monitoring assembly 4 includes and locates balanced box 6 on mainboard 1 along the width direction of mainboard 1, has seted up slide opening 61 along the width direction of mainboard 1 on balanced box 6, and slide opening 61 is the quad slit, offers the arc groove 62 that is located slide opening 61 middle section on the diapire of slide opening 61, has placed spin 7 in the arc groove 62. Slide 8 that is located slide 61 is all equipped with to the both sides of spin 7, and one side that slide 8 deviates from spin 7 is equipped with one end and connects in the compression spring 9 of slide 8, and one of compression spring 9 keeping away from slide 8 serves and is equipped with the butt plate 10 that is located slide 61. Two pressure sensors 11 are further arranged in the sliding hole 61, the two pressure sensors 11 are respectively located at two ends of the sliding hole 61, a control panel 12 is further arranged on the main board 1, and the control panel 12 is electrically connected with the pressure sensors 11. When mainboard 1 takes place the slope of less degree or not when inclining, spin 7 is located arc groove 62, when mainboard 1 takes place the slope of great degree, spin 7 can roll along slide opening 61, and press slide 8 and compression spring 9 under the action of gravity, compression spring 9 transmits the effort to butt board 10 on, butt board 10 deviates from the side of compression spring 9 and can butt to pressure sensor 11, pressure sensor 11 can give control panel 12 with the data feedback who detects. The inclination degree of mainboard 1 is different, and spin 7 is used the power on slide 8 different to can judge mainboard 1's inclination degree according to the data of pressure sensor 11 feedback, and two pressure sensor 11 are located spin 7 both sides respectively, thereby can judge mainboard 1 to which direction slope.

Referring to fig. 3, a sliding groove 13 is formed in the bottom surface of the second support leg 301 along the vertical direction, a lifting rod 14 is arranged in the sliding groove 13, a driving portion 15 for driving the lifting rod 14 to lift is further arranged on the second support frame 3, the driving portion 15 includes a first motor 151 arranged on the second support frame 3, and the first motor 151 is electrically connected with the control panel 12. The second support leg 301 is provided with a screw 152 in a penetrating manner, the screw 152 can rotate relative to the second support leg 301, and one end of the screw 152 is fixedly connected with an output shaft of the first motor 151. The other end of screw rod 152 is located spout 13 and with lifter 14 threaded connection, and the operation of first motor 151 is controlled according to the inclination of mainboard 1 to control panel 12, and first motor 151 drives screw rod 152 to rotate during the operation to drive lifter 14 and remove along spout 13, and then play the balanced effect of adjustment mainboard 1.

Referring to fig. 3, the rolling mechanism 16 is disposed on each of the bottom surface of the lifting rod 14 and the bottom surface of the first support leg 201, the rolling mechanism 16 includes a mounting seat 161, and the top surface of the mounting seat 161 is fixedly connected to the bottom surface of the lifting rod 14 or the bottom surface of the first support leg 201. The mounting base 161 is provided with a rotating plate 162 which is hinged with the mounting base 161, the length direction of the rotating plate 162 is arranged along the width direction of the main board 1, wheel grooves 163 are respectively arranged at two ends of the length direction of the rotating plate 162, a rolling wheel 164 which is positioned in the wheel grooves 163 is further arranged on the rotating plate 162, the rolling wheel 164 can rotate relative to the rotating plate 162, ground grabbing thorns 165 are arranged on the circumferential surface of the rolling wheel 164, and a second motor 166 which drives the rolling wheel 164 to rotate is further arranged on the rotating plate 162. The rolling wheel 164 is driven to rotate when the second motor 166 operates, the first supporting frame 2 and the second supporting frame 3 are driven to move when the rolling wheel 164 rotates, when the main board 1 inclines, the rotating plate 162 and the mounting seat 161 rotate relatively, so that the two rolling wheels 164 can still keep contact with the ground, and the operation stability of the revetment geomembrane retracting and releasing device is improved.

Referring to fig. 4 and 5, the unwinding and winding assembly 5 includes two mounting plates 17 disposed on the bottom surface of the main board 1, the two mounting plates 17 are disposed at two ends of the main board 1 in the length direction, a winding unwinding rod 18 is disposed on the two mounting plates 17 along the length direction of the main board 1, two ends of the winding unwinding rod 18 are disposed at two sides of the two mounting plates 17, a limit cap 19 is disposed at one end of the winding unwinding rod 18, a nut 20 threadedly coupled to the winding unwinding rod 18 is disposed at the other end, after the nut 20 is separated from the winding rod 18, the unwinding rod 18 can be removed from the mounting plate 17 from the end where the limit cap 19 is located, so that when the bank protection geomembrane coiled material is unreeled, the bank protection geomembrane coiled material is placed between the two mounting plates 17, the unreeling rod 18 is assembled on the mounting plates 17, the unreeling rod 18 is assembled to be inserted into the coiled material, therefore, when the retraction device moves along the inclined river bank, the bank protection geomembrane coiled material can be unreeled on the river bank. Two guide rods 21 positioned below the unwinding rod 18 are further arranged on the two mounting plates 17, the guide rods 21 are closer to the ground, and the bank protection geomembrane penetrates through the two guide rods 21 when unwinding, so that the bank protection geomembrane can be closer to the ground when unwinding.

Referring to fig. 4 and 5, the winding and unwinding assembly 5 further includes a winding rod 22 disposed between the two mounting plates 17, the winding rod 22 is located above the side of the guide rod 21, a clamping groove is formed on the circumferential surface of the winding rod 22 along the axial direction of the winding rod 22, and a clamping strip 23 is disposed in the clamping groove. One of the mounting plates 17 is provided with a third motor 25, one end of the winding rod 22 is connected with an output shaft of the third motor 25, the other end of the winding rod 22 is provided with a mounting block 26, the mounting block 26 is provided with a jack for inserting the winding rod 22, and one of the mounting plates 17 is provided with a mounting hole 27 for placing the mounting block 26. When rolling up the bank protection geomembrane, the double-layered inslot is placed to the one end of bank protection geomembrane, then places holding strip 23 and carry out the centre gripping to the bank protection geomembrane in the double-layered inslot, later install the mounting hole 27 with installation piece 26 in, the in-process of mounting hole 27 is installed to mounting hole 27, and the jack is inserted to the one end of rolling rod 22 and the one end of holding strip 23 in to the realization is spacing to holding strip 23. In the moving process of the retraction device, the third motor 25 drives the winding rod 22 to rotate, so that the bank protection geomembrane is wound, and the winding efficiency of the bank protection geomembrane is effectively improved.

The implementation principle of the revetment geomembrane collecting and releasing equipment in the embodiment of the application is as follows: the second motor 166 drives the rolling wheel 164 to rotate, the rolling wheel 164 drives the retraction device to move along the inclined river bank, and the bank protection geomembrane is retracted or retracted through the retraction and retraction assembly 5 in the moving process. Simultaneously, the inclination degree of the main board 1 is detected by the balance monitoring assembly 4, and the levelness of the main board 1 is improved by controlling the lifting of the lifting rod 14 through the first motor 151, so that the turnover possibility of the winding and unwinding device is reduced, the stability of the winding rod 22 and the unwinding rod 18 is improved, and the winding and unwinding efficiency of the bank protection geomembrane is effectively improved.

Compared with the prior art, the balance monitoring assembly 4 is arranged on the retraction device, the inclination degree of the main board 1 is monitored through the balance monitoring assembly 4, the position of the lifting rod 14 is adjusted through the driving portion 15, the height of the second supporting frame 3 is adjusted, the main board 1 is kept horizontal, stable operation of the retraction device on the inclined plane is kept, and retraction efficiency of the revetment geomembrane is effectively improved.

The embodiment of the application also discloses a construction method of the revetment geomembrane retracting and releasing equipment, which comprises the following steps:

unreeling: the unwinding rod 18 is disassembled, the bank protection geomembrane coiled material is placed between the two mounting plates 17, the unwinding rod 18 is assembled on the mounting plates 17 and inserted into the bank protection geomembrane coiled material, the second motor 166 drives the rolling wheel 164 to rotate, so that the winding and unwinding equipment is driven to move along the bank, the bank protection geomembrane is unwound, and the edge of the bank protection geomembrane is manually fixed after unwinding;

winding: one end of the bank protection geomembrane is placed in the clamping groove, the clamping strips 23 are placed in the clamping groove to clamp the bank protection geotextile, then the second motor 166 drives the retraction equipment to move along the bank of the river, and the third motor 25 drives the winding rod 22 to rotate in the moving process to wind the bank protection geomembrane.

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.

Claims (10)

1. The utility model provides a bank protection geomembrane receive and releases equipment which characterized in that: including mainboard (1), be equipped with balance monitoring subassembly (4) on mainboard (1), a side of mainboard (1) is equipped with first braced frame (2), mainboard (1) deviates from be equipped with second braced frame (3) on the side of support frame, be equipped with lifter (14) that go up and down along vertical direction on second braced frame (3), still be equipped with drive division (15) that drive lifter (14) go up and down on second braced frame (3), all be equipped with roll mechanism (16) that drive mainboard (1) removed on the bottom surface of first braced frame (2) and lifter (14).

2. A revetment geomembrane retraction apparatus according to claim 1, wherein: balance monitoring subassembly (4) is including locating balance box (6) on mainboard (1), draw runner (61) have been seted up along the horizontal direction on balance box (6), be equipped with two pressure sensor (11) that are located draw runner (61) both ends respectively on balance box (6), be equipped with spin (7) in draw runner (61), the both sides of spin (7) all are equipped with slide (8) that are located draw runner (61), be equipped with compression spring (9) on slide (8) the side that deviates from spin (7), one of slide (8) is kept away from in compression spring (9) is served and is equipped with butt joint board (10).

3. A revetment geomembrane retraction device according to claim 2, wherein: an arc groove (62) positioned below the rolling ball (7) is arranged on the bottom wall of the sliding hole (61).

4. A revetment geomembrane retraction apparatus according to claim 1, wherein: drive division (15) are including locating first motor (151) on second braced frame (3), spout (13) have been seted up along vertical direction on second braced frame (3), lifter (14) are located in spout (13), still be equipped with screw rod (152) that one end is located spout (13) on second braced frame (3), screw rod (152) and lifter (14) threaded connection, the output shaft fixed connection of first motor (151) is in screw rod (152).

5. A revetment geomembrane retraction apparatus according to claim 1, wherein: the rolling mechanism (16) comprises a mounting seat (161), a rotating plate (162) hinged with the mounting seat (161) is arranged on the mounting seat (161), rolling wheels (164) are arranged at two ends of the rotating plate (162), and a second motor (166) for driving the rolling wheels (164) to rotate is further arranged on the rotating plate (162).

6. A revetment geomembrane retraction device according to claim 5, wherein: the circumferential surface of the rolling wheel (164) is provided with a plurality of ground grabbing thorns (165).

7. A revetment geomembrane retraction apparatus according to claim 1, wherein: be equipped with two mounting panels (17) on the bottom surface of mainboard (1), two be equipped with one jointly on mounting panel (17) and unreel pole (18), unreel pole (18) and can dismantle with mounting panel (17) and be connected.

8. A revetment geomembrane retraction apparatus according to claim 7, wherein: two be equipped with a rolling rod (22) jointly on mounting panel (17), be equipped with drive rolling rod (22) pivoted third motor (25) on one of them mounting panel (17), rolling rod (22) are kept away from one of them is served and is equipped with installation piece (26) of third motor (25), mounting panel (17) are offered and supply installation piece (26) mounting hole (27) of placing, offer on installation piece (26) and supply rolling rod (22) male jack, the clamp groove has been offered along the axial of rolling rod (22) on rolling rod (22) global, be equipped with holding strip (23) in the clamp groove, the one end of holding strip (23) is located in the jack.

9. A revetment geomembrane retraction apparatus according to claim 8, wherein: the two mounting plates (17) are also provided with two guide rods (21) together, and the two guide rods (21) are positioned below the side of the winding rod (22) and the side of the unwinding rod (18).

10. A method of constructing a revetment geomembrane retraction apparatus according to any one of claims 1 to 9: the method is characterized by comprising the following steps:

unreeling: the unwinding rod (18) is detached, the bank protection geomembrane coiled material is placed between the two mounting plates (17), the unwinding rod (18) is assembled on the mounting plates (17) and inserted into the bank protection geomembrane coiled material, the second motor (166) drives the rolling wheel (164) to rotate, so that the winding and unwinding equipment is driven to move along a river bank, the bank protection geomembrane is unwound, and the edge of the bank protection geomembrane is manually fixed after unwinding;

winding: one end of the bank protection geomembrane is placed in the clamping groove, the clamping strips (23) are placed in the clamping groove to clamp the bank protection geotextile, then the second motor (166) drives the retraction equipment to move along the bank of the river, and the third motor (25) drives the winding rod (22) to rotate in the moving process to wind the bank protection geomembrane.

Images