CN210746374U

CN210746374U - Novel anti-seepage basement membrane laying machine

Info

Publication number: CN210746374U
Application number: CN201921045851.2U
Authority: CN
Inventors: 杨宪杰; 杨震
Original assignee: Beijing Dazhi Weiye Technology Co ltd
Current assignee: Chixiang Technology Co ltd
Priority date: 2019-07-05
Filing date: 2019-07-05
Publication date: 2020-06-16
Anticipated expiration: 2029-07-05

Abstract

The utility model discloses a novel anti-seepage bottom film laying machine, wherein a driving device is arranged at the top end of the front half part of a frame body and is connected with a ditching module to realize driving; a baffle structure is arranged at the bottom of the frame body and at the rear side of the ditching module, and soil generated in the operation process of the ditching module is conveyed to the upper part through the baffle structure, bypasses the film covering device and then is dispersed into a ditching groove; be provided with a support body and a plurality of guide membrane wheel and the press mold wheel that support the tectorial membrane roller on the tectorial membrane device, release the back through the tectorial membrane support frame with the tectorial membrane, lead the membrane wheel with the tectorial membrane tiling to the geosyncline in, the press mold wheel is responsible for pressing the tectorial membrane is level and smooth at geosyncline bottom surface and geosyncline top surface edge, fine soil fluting and tectorial membrane are laid to this novel structure of prevention of seepage basement membrane laying machine accessible realization, and it can improve work efficiency greatly.

Description

Novel anti-seepage basement membrane laying machine

Technical Field

The utility model belongs to the technical field of farming machinery, concretely relates to novel prevention of seepage basement membrane laying machine.

Background

It is known that sandy soil has the characteristics of rapid water seepage, poor water retention, too dry sandy soil or desert, and the root systems of vegetation cannot obtain necessary water for growth and cannot survive, so that in sandy arid areas, green vegetation is difficult to see, the growth and harvest of crops are extremely low, the desertification phenomena in the areas are more and more serious, and large-scale sand storm is easy to occur under the action of monsoon every year, thereby causing a series of climate disasters. In order to inhibit the water leakage of sandy soil and create a favorable environment for the survival of vegetation including crops, when the crops are planted in a sandy soil arid area, an impervious layer is paved below the surface of the soil to prevent the water leakage of the surface of the soil, so that the water leakage loss of a growth layer of the crops is prevented, and the unearthed land is transformed into a desert rice high-yield field. However, the method adopted at present is to excavate the trench manually or mechanically and then backfill the trench, so that the efficiency is low, the workload is large, the cost is high, and the method is not suitable for large-area popularization.

Aiming at a plurality of defects of the existing seepage-proofing treatment, how to design a novel seepage-proofing bottom film laying machine realizes earth surface ditching through a ditching assembly, realizes the film covering operation in a trench through a film covering device after ditching, completes the underground ditching and the film covering operation at one time, and realizes effective seepage-proofing and leakage-proofing of earth surface soil, which is a technical problem to be solved urgently by technical personnel in the prior art.

Disclosure of Invention

For overcoming prior art not enough, the utility model provides a novel prevention of seepage basement membrane laying machine, it handles the earth's surface ditching through ditching equipment, and rethread baffle device keeps apart ditching device and tectorial membrane device, carries soil to the rear side of tectorial membrane device and buries the tectorial membrane, its speed piece, and the precision is high, can effectively reduce personnel intensity of labour.

In order to achieve the technical purpose, the utility model adopts the following scheme: a novel anti-seepage bottom film laying machine comprises a frame body, wherein a driving device is arranged at the top end of the front half part of the frame body and connected with a ditching module to realize driving; a baffle structure is arranged at the bottom of the frame body and at the rear side of the ditching module, and soil generated in the operation process of the ditching module is conveyed to the upper part to bypass the film coating device through the baffle structure and then is dispersed into a ditching groove; the film covering device is arranged on the rear side of the ditching module; be provided with a support body and a plurality of membrane wheel and the press mold wheel that lead that support the tectorial membrane roller on the tectorial membrane device, release the back through the tectorial membrane support frame with the tectorial membrane, lead the membrane wheel with the tectorial membrane tiling to the geosyncline in, the press mold wheel is responsible for pressing the tectorial membrane is level and smooth at geosyncline bottom surface and geosyncline top surface edge.

The driving device comprises a gearbox arranged at the top of the frame body, the gearbox drives a driving shaft to rotate, the driving shaft drives a first driven shaft fixed on the frame body to rotate through a belt or a chain, and the first driven shaft drives a ditching cutter assembly on the whole ditching module to rotate.

The ditching module comprises two driven shafts, and the first driven shaft is fixed with the frame body; the support frame is arranged below the frame in an extending mode, the bottom of the support frame is a second driven shaft, a whole ditching cutter assembly is erected between the second driven shaft and the first driven shaft, and the whole ditching module is operated through rotation of the ditching cutter assembly.

The laminating support frame welding or bolt fastening on the support body, it extends the setting to the left and right sides on the support body, is provided with linkage at the tip of laminating support frame, erects the laminating roller through linkage.

The rear side of support body about both ends extend respectively and be provided with a terminal support pole, vertically be fixed with a device of stirring earth on through terminal support pole, the device of stirring earth include a vertical extension rod, the top of vertical extension rod is provided with the hand wheel, the bottom of vertical extension rod is the sword of stirring earth, adjusts the regulation from top to bottom of realizing the sword of stirring earth through the hand wheel.

A film laminating wheel fixing frame is arranged at the rear end of the frame body in an extending manner towards the ditching module, a top film laminating wheel is fixed at the upper half part of the film laminating wheel fixing frame, the top film laminating wheel is fixed on the film laminating wheel fixing frame through a fixing rod and a hinging seat, a fixing shaft is arranged on the fixing rod, a guide sheet is arranged on the film laminating wheel fixing frame, a through guide groove is formed in the guide sheet, one end of the guide sheet is fixed on the film laminating wheel fixing frame, the other end of the guide sheet is fixed through the guide groove and the fixing shaft, and the trend of the top film laminating wheel is limited by the fact that the fixing shaft slides in; the laminating wheel fixing frame is combined with the fixing rod through the elastic device in an extruding mode, and the bottom of the top laminating wheel is restrained to move downwards through the elastic device when being extruded and moved upwards by the ground.

The film laminating machine is characterized in that a bottom film laminating wheel is fixed below the film laminating wheel fixing frame, and the fixing structure of the bottom film laminating wheel is the same as that of the top film laminating wheel.

Be close to bottom film pressing wheel, be fixed with one in the top of bottom film pressing wheel and lead the membrane wheel, lead the membrane wheel and fix on tectorial membrane wheel mount and set up along tectorial membrane direction of laying slope.

And a rear frame connecting rod is arranged between the two tail end supporting rods on the tail end supporting rods.

The baffle structure include that the polylith panel combination forms, polylith panel including the baffle that is close to the setting of ditching knife tackle spare with set up the baffle two in tectorial membrane wheel mount top and be close to the baffle three that the bottom set up, the baffle four sets up and prevents at the top that soil rises, the baffle five sets up and prevents that soil from spilling from the side in both sides in the front and back.

The utility model has the advantages that: through the arrangement, the top end of the front half part of the frame body is provided with the driving device which is connected with the ditching module and realizes driving; a baffle structure is arranged at the bottom of the frame body and at the rear side of the ditching module, and soil generated in the operation process of the ditching module is conveyed to the upper part through the baffle structure, bypasses the film covering device and then is dispersed into a ditching groove; be provided with a support body and a plurality of guide membrane wheel and the press mold wheel that support the tectorial membrane roller on the tectorial membrane device, release the back through the tectorial membrane support frame with the tectorial membrane, lead the membrane wheel with the tectorial membrane tiling to the geosyncline in, the press mold wheel is responsible for pressing the tectorial membrane is level and smooth at geosyncline bottom surface and geosyncline top surface edge, fine soil fluting and tectorial membrane are laid to the novel structure of this novel prevention of seepage basement membrane laying machine accessible, and it can improve work efficiency greatly, is the novel prevention of seepage basement membrane laying machine of an ideal.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the structure of the present invention;

FIG. 4 is a schematic cross-sectional view taken along the line A-A of FIG. 3 according to the present invention;

fig. 5 is a schematic view of the bottom view of the present invention;

FIG. 6 is a schematic view of the construction effect of the present invention;

in the drawing, the device comprises a frame body 1, a frame body 11, a supporting frame 12, a top cross beam 13, an external connection suspension, 14, a lifting cylinder 15, a side beam 16, a middle cross beam 17, a supporting frame 18, a rear frame connecting rod 19, a film covering wheel fixing frame 2, a ditching module 21, a gearbox 22, a driving shaft 23, a chain 24, a second driven shaft 25, a ditching cutter assembly 26, a first driven shaft 3, a baffle structure 30, a baffle I31, a baffle II 32, a baffle III 33, a baffle IV 34, a baffle V4, a film covering device 41, a film covering supporting frame 42, a suspension device 43, a film covering roller 5, a top film pressing wheel 51, a hinged seat 52, a guide sheet 53, an elastic device 54, a fixing rod 55, a fixing shaft 6, a bottom film pressing wheel 7, a film guiding wheel 8, a soil stirring device 81, a vertical extension rod 82, a rear frame extension rod, a rear frame extension, A soil shifting disc 83, a hand wheel 9, soil 10 and a film.

Detailed Description

Referring to attached drawings, the novel anti-seepage bottom film laying machine comprises a frame body 1, wherein a driving device is arranged at the top end of the front half part of the frame body 1 and connected with a ditching module 2 to realize driving; the driving device is shown in the attached drawings and comprises a gearbox 21 arranged at the top of a frame body 1, wherein the gearbox 21 drives a driving shaft 22 to rotate, the driving shaft 22 drives a first driven shaft 26 fixed on the frame body to rotate through a chain 23, and the first driven shaft drives a ditching cutter assembly 25 on the whole ditching module 2 to rotate; on the frame body 1, a top cross beam 12 is fixed at the top of the front end of the frame body through a cross beam support frame 11, and an external connecting suspension 13 is arranged at the top cross beam 12 and the front end of the frame body and connected with an external traction device, so that traction driving of the device is realized. The side beam 15 is fixed on the driving shaft 22 through a bearing and can rotate around the driving shaft 22, the ditching module 2 and the film covering device 4 rotate around the driving shaft 22 under the driving of the lifting cylinder 14 through the side beam 15, and are lifted up when not in work and rotate and fall down when in work.

The ditching module 2 comprises two driven shafts, wherein a first driven shaft 26 is fixed with the frame body; a supporting frame 17 is arranged below the frame body in an extending mode, a second driven shaft 24 is arranged at the bottom of the supporting frame 17, a whole ditching cutter assembly 25 is erected between the second driven shaft 24 and a first driven shaft 26, and as shown in fig. 4, the whole ditching module 2 works through rotation of the ditching cutter assembly 25.

At the bottom of the frame body 1, a baffle structure 3 is arranged at the rear side of the ditching module 2, as shown in fig. 4, the baffle structure 3 comprises a plurality of plates which are combined, the plurality of plates comprise a first baffle 30 which is arranged close to the ditching cutter assembly 25, a second baffle 31 which is arranged above the film covering wheel fixing frame 19 and a third baffle 32 which is arranged close to the bottom, a fourth baffle 33 is arranged at the top to prevent soil from rising, and a fifth baffle 34 is arranged at the front side and the rear side to prevent soil from leaking from the side edges; through the structure, the soil generated in the operation process of the ditching module 2 can be conveyed to the upper part and then bypasses the film coating device 4 to be dispersed into the ditching groove.

The film covering device 4 is arranged at the rear side of the ditching module 2; be provided with a support body and a plurality of membrane wheel and the press mold wheel that lead of supporting the tectorial membrane roller on the tectorial membrane device 4, as shown in fig. 5, it is through the tectorial membrane support frame with the tectorial membrane release back, lead the membrane wheel with the tectorial membrane tiling to the geosyncline in, the press mold wheel is responsible for pressing the smooth pressure of tectorial membrane at geosyncline bottom surface and geosyncline top surface edge.

The film covering device 4 is characterized in that a film covering support frame 41 on the film covering device 4 is welded or fixed on the frame body 1 through bolts, the film covering support frame is arranged on the frame body 1 in an extending mode towards the left side and the right side, a suspension device 42 is arranged at the end portion of the film covering support frame 41, the suspension device is a hook or a device capable of realizing rod-shaped object hoisting, and a film covering roller 43 is erected through the suspension device; through the arrangement of the device, the hoisting of the film coating roller can be realized, the film coating can be freely rotated and discharged on the suspension device, and the film coating is released by rotation of the discharging device.

A film laminating wheel fixing frame 19 is arranged at the rear end of the frame body 1 in an extending manner towards the ditching module 2, a top film laminating wheel 5 is fixed at the upper half part of the film laminating wheel fixing frame 19, the top film laminating wheel 5 is fixed on the film laminating wheel fixing frame 19 through a fixing rod 54 and a hinge seat 51, a fixing shaft 55 is arranged on the fixing rod 54, a guide sheet 52 is arranged on the film laminating wheel fixing frame 19, a through guide groove is formed in the guide sheet, one end of the guide sheet 52 is fixed on the film laminating wheel fixing frame 19, the other end of the guide sheet is fixed through the guide groove and the fixing shaft 55 on the fixing rod, and the trend of the top film laminating wheel 5 is limited by the sliding of the fixing shaft 55 in the; the film laminating wheel fixing frame 19 is combined with a fixing rod 54 through an elastic device 53 in an extruding mode, when the bottom of the film laminating wheel 5 at the top is extruded by the ground to move upwards, the film laminating wheel 5 at the top is restrained to move downwards through the elastic device 53, and the elastic device 53 is an elastic sheet or a spring.

A bottom film pressing wheel 6 is fixed below the film laminating wheel fixing frame 19, and the fixing structure of the bottom film pressing wheel 6 is the same as that of the top film pressing wheel 5.

Be close to bottom film pressing wheel 6, be fixed with one above bottom film pressing wheel 6 and lead membrane wheel 7, lead membrane wheel 7 fix on tectorial membrane wheel mount 19 and set up along tectorial membrane direction of laying slope.

Through the introduction, as shown in fig. 5, when the device is used, the ditching module 2 is used for digging the groove, the film guide wheel 7 firstly tiles the film on the bottom surface of the groove, the film pressing wheel 6 is used for contacting the film with the corner at the bottom of the groove, and the film pressing wheel 5 is used for pressing the film and the edge of the top surface of the groove.

Further, the rear side of support body 1 about both ends extend respectively and be provided with a terminal support pole 20, vertically be fixed with one through terminal support pole 20 and dial native device 8, dial native device 8 include a vertical extension rod 81, the top of vertical extension rod 81 is provided with hand wheel 83, the bottom of vertical extension rod 81 is for dialling native sword 82, adjust through hand wheel 83 and realize dialling native sword 82 from top to bottom adjust with this realize that the device controls the soil layer at edge and cover.

Still further, in order to improve the terminal rigidity of this device, terminal bracing piece 20 on, be provided with a back frame connecting rod 18 between two terminal bracing pieces 20, realize the reinforcement of this device through frame connecting rod 18.

In conclusion, this novel prevention of seepage basement membrane laying machine accessible novel structure realizes fine soil fluting and tectorial membrane and lays, and it can improve work efficiency greatly, is an ideal novel prevention of seepage basement membrane laying machine.

The above description is only the embodiments and advantageous effects of the present invention, and it should be noted that, for those skilled in the art of agricultural machinery, without departing from the principles of the present invention, a plurality of improvements and decorations can be made, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims

1. The utility model provides a novel prevention of seepage basement membrane laying machine, its includes a support body, its characterized in that: the top end of the front half part of the frame body is provided with a driving device which is connected with the ditching module and realizes driving; a baffle structure is arranged at the bottom of the frame body and at the rear side of the ditching module, and soil generated in the operation process of the ditching module is conveyed to the upper part to bypass the film coating device through the baffle structure and then is dispersed into a ditching groove; the film covering device is arranged on the rear side of the ditching module; be provided with a support body and a plurality of membrane wheel and the press mold wheel that lead that support the tectorial membrane roller on the tectorial membrane device, release the back through the tectorial membrane support frame with the tectorial membrane, lead the membrane wheel with the tectorial membrane tiling to the geosyncline in, the press mold wheel is responsible for pressing the tectorial membrane is level and smooth at geosyncline bottom surface and geosyncline top surface edge.

2. A novel impermeable base film laying machine as claimed in claim 1, characterised in that: the driving device comprises a gearbox arranged at the top of the frame body, the gearbox drives a driving shaft to rotate, the driving shaft drives a first driven shaft fixed on the frame body to rotate through a belt or a chain, and the first driven shaft drives a ditching cutter assembly on the whole ditching module to rotate.

3. A novel impermeable base film laying machine as claimed in claim 1, characterised in that: the ditching module comprises two driven shafts, and the first driven shaft is fixed with the frame body; the support frame is arranged below the frame in an extending mode, the bottom of the support frame is a second driven shaft, a whole ditching cutter assembly is erected between the second driven shaft and the first driven shaft, and the whole ditching module is operated through rotation of the ditching cutter assembly.

4. A novel impermeable base film laying machine as claimed in claim 1, characterised in that: the laminating support frame welding or bolt fastening on the support body, it extends the setting to the left and right sides on the support body, is provided with linkage at the tip of laminating support frame, erects the laminating roller through linkage.

5. A novel impermeable base film laying machine as claimed in claim 1, characterised in that: the rear side of support body about both ends extend respectively and be provided with a terminal support pole, vertically be fixed with a device of stirring earth on through terminal support pole, the device of stirring earth include a vertical extension rod, the top of vertical extension rod is provided with the hand wheel, the bottom of vertical extension rod is the sword of stirring earth, adjusts the regulation from top to bottom of realizing the sword of stirring earth through the hand wheel.

6. A novel impermeable base film laying machine as claimed in claim 1, characterised in that: a film laminating wheel fixing frame is arranged at the rear end of the frame body in an extending manner towards the ditching module, a top film laminating wheel is fixed at the upper half part of the film laminating wheel fixing frame, the top film laminating wheel is fixed on the film laminating wheel fixing frame through a fixing rod and a hinging seat, a fixing shaft is arranged on the fixing rod, a guide sheet is arranged on the film laminating wheel fixing frame, a through guide groove is formed in the guide sheet, one end of the guide sheet is fixed on the film laminating wheel fixing frame, the other end of the guide sheet is fixed through the guide groove and the fixing shaft, and the trend of the top film laminating wheel is limited by the fact that the fixing shaft slides in; the laminating wheel fixing frame is combined with the fixing rod through the elastic device in an extruding mode, and the bottom of the top laminating wheel is restrained to move downwards through the elastic device when being extruded and moved upwards by the ground.

7. A novel impermeable base film laying machine as claimed in claim 6, characterised in that: the film laminating machine is characterized in that a bottom film laminating wheel is fixed below the film laminating wheel fixing frame, and the fixing structure of the bottom film laminating wheel is the same as that of the top film laminating wheel.

8. A novel impermeable base film laying machine as claimed in claim 1, characterised in that: be close to bottom film pressing wheel, be fixed with one in the top of bottom film pressing wheel and lead the membrane wheel, lead the membrane wheel and fix on tectorial membrane wheel mount and set up along tectorial membrane direction of laying slope.

9. A novel impermeable base film laying machine as claimed in claim 5, characterised in that: and a rear frame connecting rod is arranged between the two tail end supporting rods on the tail end supporting rods.

10. A novel impermeable base film laying machine as claimed in claim 1, characterised in that: the baffle structure include that the polylith panel combination forms, polylith panel including the baffle that is close to the setting of ditching knife tackle spare with set up the baffle two in tectorial membrane wheel mount top and be close to the baffle three that the bottom set up, the baffle four sets up and prevents at the top that soil rises, the baffle five sets up and prevents that soil from spilling from the side in both sides in the front and back.