CN102953388B - Road shoulder side slope soil feeding vehicle - Google Patents
Road shoulder side slope soil feeding vehicle Download PDFInfo
- Publication number
- CN102953388B CN102953388B CN201210400191.1A CN201210400191A CN102953388B CN 102953388 B CN102953388 B CN 102953388B CN 201210400191 A CN201210400191 A CN 201210400191A CN 102953388 B CN102953388 B CN 102953388B
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- Prior art keywords
- native
- plate
- discharge box
- send
- road shoulder
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Abstract
The invention relates to the technical field of road shoulder side slope soil feeding devices, and discloses a road shoulder side slope soil feeding vehicle. The road shoulder side slope soil feeding vehicle comprises a vehicle body, a material discharge box, a material outlet cylinder, a conveying auger and soil feeding augers, wherein a base is fixedly installed in a vehicle hoper of the vehicle body, and is fixedly provided with the inverted-frustum-shaped material discharge box; the two oil feeding augers which are in parallel and are opposite in rotation directions are installed in a front-and-back penetration mode in the lower part of the material discharge box; and a left soil feeding power drive device and a right soil feeding power drive device which can drive the soil feeding packing augers to rotate are respectively and fixedly installed on the vehicle body behind the material discharge box. The road shoulder side slope soil feeding vehicle provided by the invention is reasonable and compact in structure and convenient to use; sandy soil is screened primarily by a screening plate to enter the material discharge box, then is sent into the material outlet cylinder through the soil feeding augers, and is output again by the conveying auger in the material outlet cylinder; and during the process, the vehicle body runs around a road shoulder to feed the soil uniformly, so that a process of manual soil conveying and feeding is omitted, the labor intensity of workers is lowered greatly, and the working efficiency is improved.
Description
Technical field
The present invention relates to the technical field of native device in road shoulder side slope, is navy barrow in a kind of road shoulder side slope.
Background technology
The shoulder slope of highway both sides is because of long-term wind and weather, and the sandslide on a large amount of shoulder slopes, has a strong impact on the stability of takeing on slope; So highway maintenance worker will carry out upper soil to shoulder slope at set intervals; During upper soil, adopt common load wagon dress soil, and soil is unloaded to the position in appointment, then share out equally each section by staff, labour intensity is large, inefficiency.
Summary of the invention
It the invention provides navy barrow in a kind of road shoulder side slope, has overcome the deficiency of above-mentioned prior art, when can effectively solve soil, adopt common load wagon dress soil, and soil is unloaded to the position in appointment, then by staff, share out equally each section, the problem that labour intensity is large.
Technical scheme of the present invention realizes by following measures: navy barrow in a kind of road shoulder side slope, comprises car body, discharge box, discharge barrel, conveying auger, send native auger; In the wagon box of car body, be installed with base, on base, be installed with the discharge box that is inversed taper platform shape, run through being provided with that two parallel and rotation direction is contrary send native auger before and after in the bottom of discharge box; On the car body at discharge box rear, be installed with respectively and can drive a left side of sending native auger to rotate to send native actuating unit and the right side to send native actuating unit, on base corresponding to the front side, bottom of discharge box and car body, there is respectively discharging opening, the car body lower end corresponding with discharging opening is installed with horizontal discharge barrel and is positioned at car body right part, and conveying auger is installed in discharge barrel; At the lower end of car body left part, be installed with the transmitting power transmission device that can drive conveying auger to rotate.
The further optimization and/or improvements to foregoing invention technical scheme below:
Above-mentioned discharge box can comprise front side board, back side panel, left plate and right plate; Front-end and back-end at base are installed with respectively vertical front side board and back side panel; Left end and right-hand member at base are separately installed with left plate and the right plate under being tilted to; The front-end and back-end of left plate and right plate are fixed together and form respectively the discharging chamber of inversed taper platform shape with front side board and back side panel; On the left plate of discharge box and right plate, be installed with respectively left vibrating device and right vibrating device; Left vibrating device comprises connection cushion rubber, vibrating plate and vibrating motor; At left plate middle part, there is mounting groove, in mounting groove, by connecting bolt, be provided with successively from outside to inside and be connected cushion rubber and vibrating plate with attaching nut, in the outer end of vibrating plate, be installed with vibrating motor; The right vibrating device contrary with the identical installation direction of left vibrating device structure is installed at the middle part of right plate.
The left positioning ejection spring plank of two symmetrical arcs before and after the left end of above-mentioned left plate is installed with respectively, on the left side of the vibrating plate on the left of the middle part projection of left positioning ejection spring plank withstands on respectively; The right positioning ejection spring plank of two symmetrical arcs before and after being installed with respectively on right plate, the middle part projection of right positioning ejection spring plank withstands on respectively on the right side of vibrating plate on right side.
The top of above-mentioned discharge box is installed with and is lambdoid sieve plate.
In the above-mentioned discharge box that send native auger top, be installed with shunting support and the bottom of discharge box be separated into native passage is entered on a left side and native passage is entered on the right side, the two ends, left and right of shunting support are fixedly mounted on respectively on left plate and right plate.
Above-mentioned discharge box inner upper end fixed installation is useful on the pin hand support of carries left side plate and right plate.
An above-mentioned left side is sent native actuating unit to comprise and is sent native motor, send native reducer, send native drive sprocket and send native driving chain; In the car body left side at discharge box rear, be installed with and send native motor and send native reducer, on the power input shaft that send on the power output shaft of native motor and send native reducer, be installed with respectively and send native drive sprocket, be provided with and send native driving chain sending between native drive sprocket; Car body right part at discharge box rear is provided with a left side and send the right side that the identical installation direction of native actuating unit structure is contrary to send native actuating unit; The front end of the power output shaft that send native reducer of both sides is fixed together through the discharge box native auger that send corresponding thereto respectively.
Above-mentioned transmitting power transmission device comprises carries motor, conveying reducer, conveyance sprocket wheel and conveyance chain; At the lower end of car body left part, be installed with and carry motor and carry reducer, on the power output shaft of carrying motor and on the power input shaft of conveying reducer, be installed with respectively conveyance sprocket wheel, conveyance chain is installed between conveyance sprocket wheel; The power output shaft right-hand member of conveying reducer is fixed together through the left end of discharge barrel and conveying auger.
Reasonable and compact in structure of the present invention, easy to use; Sandy soil enter in discharge box through sieve plate primary dcreening operation, then by sending native auger that sandy soil are sent in discharge barrel from discharging opening, the conveying auger in discharge barrel is exported sandy soil again; In this process, car body detours and takes on operation, and realization is evenly upper native, has saved the process of soil on a dead lift, greatly reduces staff's labour intensity, has improved operating efficiency.
Accompanying drawing explanation
Accompanying drawing 1 is the main TV structure schematic diagram of most preferred embodiment of the present invention.
Accompanying drawing 2 is that the A-A of accompanying drawing 1 is to sectional structure schematic diagram.
Accompanying drawing 3 is that the B of accompanying drawing 2 is to partial structurtes schematic diagram.
Coding in accompanying drawing is respectively: 1 is car body, and 2 is discharge box, and 3 for sending native auger, and 4 is discharging opening, 5 is discharge barrel, and 6 is conveying auger, and 7 for connecting cushion rubber, and 8 is vibrating plate, 9 is vibrating motor, and 10 is left positioning ejection spring plank, and 11 is sieve plate, and 12 is shunting support, 13 for sending native motor, and 14 for sending native driving-chain, and 15 is conveyance chain, 16 is conveyance sprocket wheel bar, and 17 for carrying reducer, and 18 is right positioning ejection spring plank, 19 is left plate, and 20 is right plate, and 21 is pin hand support.
The specific embodiment
The present invention is not subject to the restriction of following embodiment, can determine concrete embodiment according to technical scheme of the present invention and actual conditions.
In the present invention, for convenience of description, the description of the relative position relation of each parts is to be all described according to the Butut mode of Figure of description 2, as: the position relationship of upper and lower, left and right etc. is to determine according to cloth Fig. 2 direction of Figure of description.
Below in conjunction with embodiment and accompanying drawing, the invention will be further described:
As shown in accompanying drawing 1,2, in this road shoulder side slope, navy barrow comprises car body 1, discharge box 2, discharge barrel 5, conveying auger 6, send native auger 3; In the wagon box of car body 1, be installed with base, on base, be installed with the discharge box 2 that is inversed taper platform shape, run through being provided with that two parallel and rotation direction is contrary send native auger 3 before and after in the bottom of discharge box 2; On the car body 1 at discharge box 2 rears, be installed with respectively and can drive a left side of sending native auger 3 to rotate to send native actuating unit and the right side to send native actuating unit, on base corresponding to the front side, bottom of discharge box 2 and car body 1, there is respectively discharging opening 4, car body 1 lower end corresponding with discharging opening 4 is installed with horizontal discharge barrel 5 and is positioned at car body 1 right part, and conveying auger 6 is installed in discharge barrel 5; At the lower end of car body 1 left part, be installed with the transmitting power transmission device that can drive conveying auger 6 to rotate.Sandy soil in discharge box 2, by sending the effect of native auger 3, enter in discharge barrel 5 from discharging opening 4, then by conveying auger 6, sandy soil are exported from discharge barrel 5; At this moment, can pass through moving body 1, make the sandy soil that spread out cover uniformly curb, make the maintenance work of curb more convenient, time saving and energy saving.
Can according to actual needs, navy barrow in above-mentioned road shoulder side slope be made further optimization and/or improvements:
As shown in accompanying drawing 2,3, discharge box 2 comprises front side board, back side panel, left plate 19 and right plate 20; Front-end and back-end at base are installed with respectively vertical front side board and back side panel; Left end and right-hand member at base are separately installed with left plate 19 and the right plate 20 under being tilted to; The front-end and back-end of left plate 19 and right plate 20 are fixed together and form respectively the discharging chamber of inversed taper platform shape with front side board and back side panel; On the left plate 19 of discharge box 2 and right plate 20, be installed with respectively left vibrating device and right vibrating device; Left vibrating device comprises connection cushion rubber 7, vibrating plate 8 and vibrating motor 9; At left plate 19 middle parts, there is mounting groove, in mounting groove, by connecting bolt, be provided with successively from outside to inside and be connected cushion rubber 7 and vibrating plate 8 with attaching nut, in the outer end of vibrating plate 8, be installed with vibrating motor 9; The right vibrating device contrary with the identical installation direction of left vibrating device structure is installed at the middle part of right plate 20.By vibrating motor 9 vibrations of left vibrating device and right vibrating device, drive respectively vibrating plate 8 vibrations of both sides, the sandy soil in discharge box 2 are more easily fallen by vibrating plate 8 effects; Effectively prevent too wet or too glutinous causing in situations such as discharge box 2 interior obstructions of soil property because of sandy soil.
As shown in accompanying drawing 2,3, the left positioning ejection spring plank 10 of two symmetrical arcs before and after the left end of left plate 19 is installed with respectively, on the left side of the vibrating plate 8 on the left of the middle part projection of left positioning ejection spring plank 10 withstands on respectively; The right positioning ejection spring plank 18 of two symmetrical arcs before and after being installed with respectively on right plate 20, the middle part projection of right positioning ejection spring plank 18 withstands on respectively on the right side of vibrating plate 8 on right side.The vibrating plate 8 of left positioning ejection spring plank 10 and 18 pairs of both sides of right positioning ejection spring plank plays respectively the effect of buffer shock-absorbing, prevents because of vibrating plate 8 vibration excessively, affects the stability of discharge box 2; Can improve vibrating plate 8 and the application life that is connected cushion rubber 7 simultaneously.
As shown in accompanying drawing 1,2, on the top of discharge box 2, be installed with and be lambdoid sieve plate 11.By sieve plate 11, the stone of sneaking in sandy soil can be screened out, effectively prevent that stone from, to sending native auger 3 jams and destruction, improving application life of the present invention.
As shown in Figure 2, in discharge box 2 above sending native auger 3, be installed with shunting support 12 and the bottom of discharge box 2 be separated into native passage is entered on a left side and native passage is entered on the right side, the two ends, left and right of shunting support 12 are fixedly mounted on respectively on left plate 19 and right plate 20.Sandy soil, in entering the bottom of discharge box 2, can push its minute that native passage is entered on a left side and native passage is entered on the right side by shunting support 12, effectively prevent that sandy soil from crossing the glutinous phenomenons such as bridges formation that occur, the whereabouts efficiency of raising sandy soil.
As shown in Figure 2, in discharge box 2 inner upper end fixed installations, be useful on the pin hand support 21 of carries left side plate 19 and right plate 20.21 pairs of left plates 19 of pin hand support and right plate 20 play the effect of supporting and reinforcing, and prevent from affecting because of vibrating plate 8 vibrations the intensity of left plate 19 and right plate 20.
As shown in Figure 2, a left side is sent native actuating unit to comprise and is sent native motor 13, send native reducer, send native drive sprocket and send native driving chain 14; In car body 1 left side at discharge box 2 rears, be installed with and send native motor 13 and send native reducer, on the power output shaft that send native motor 13 and send on the power input shaft of native reducer and be installed with respectively and send native drive sprocket, be provided with and send native driving chain 14 sending between native drive sprocket; Car body 1 right part at discharge box 2 rears is provided with a left side and send the right side that the identical installation direction of native actuating unit structure is contrary to send native actuating unit; The front end of the power output shaft that send native reducer of both sides is fixed together through the discharge box 2 native auger 3 that send corresponding thereto respectively.By a left side, send native actuating unit and the right side to send the power output shaft of the native motor 13 of sending of native actuating unit to rotate, drive is sent native drive sprocket and is sent native driving chain 14 that transmission of torque is fed to native reducer, after sending native reducer that torque is slowed down, also drive and send native auger 3 rotations, realize the native process of sending.
As shown in Figure 2, transmitting power transmission device comprises conveying motor, carries reducer 17, conveyance sprocket wheel 16 and conveyance chain 15; At the lower end of car body 1 left part, be installed with and carry motor and carry reducer 17, on the power output shaft of carrying motor and on the power input shaft of conveying reducer 17, be installed with respectively conveyance sprocket wheel 16, conveyance chain 15 is installed between conveyance sprocket wheel 16; Carry the power output shaft right-hand member of reducer 17 to be fixed together through discharge barrel 5 and the left end of conveying auger 6.Conveying motor by transmitting power transmission device rotates, and drive conveyance sprocket wheel 16 and conveyance chain 15 are given transmission of torque to carry reducer 17, carries reducer 17 that torque is slowed down rear and driven conveying auger 6 rotations, realizes sandy soil course of conveying.
Above technical characterictic has formed most preferred embodiment of the present invention, and it has stronger compliance and best implementation result, can increase and decrease according to actual needs non-essential technical characterictic, meets the demand of different situations.
The use procedure of most preferred embodiment of the present invention: first, sandy soil are put into discharge box 2 by earth-moving equipment, sandy soil screen out the stone of sneaking in sandy soil by sieve plate 11, then enter in discharge box 2; Car body 1 moves to need to go up native curb place, opens respectively the vibrating motor 9 of left vibrating device and right vibrating device, and native actuating unit and the right vibrating motor 13 that send native actuating unit are sent in a left side, and carry motor; Sandy soil vibrate and native passage is entered on the left side that enters discharge box 2 and native passage is entered on the right side through vibrating plate 8, then by giving native auger 3, then entering discharge barrel 5 by discharging opening 4, sandy soil are drawn off by conveying auger 6; Meanwhile, car body 1 is along curb operation, and the upper geotechnique who realizes curb does.
Claims (10)
1. a navy barrow in road shoulder side slope, is characterized in that comprising car body, discharge box, discharge barrel, conveying auger, send native auger; In the wagon box of car body, be installed with base, on base, be installed with the discharge box that is inversed taper platform shape, run through being provided with that two parallel and rotation direction is contrary send native auger before and after in the bottom of discharge box; On the car body at discharge box rear, be installed with respectively and can drive a left side of sending native auger to rotate to send native actuating unit and the right side to send native actuating unit, on base corresponding to the front side, bottom of discharge box and car body, there is respectively discharging opening, the car body lower end corresponding with discharging opening is installed with horizontal discharge barrel and is positioned at car body right part, and conveying auger is installed in discharge barrel; At the lower end of car body left part, be installed with the transmitting power transmission device that can drive conveying auger to rotate.
2. navy barrow in road shoulder side slope according to claim 1, is characterized in that discharge box comprises front side board, back side panel, left plate and right plate; Front-end and back-end at base are installed with respectively vertical front side board and back side panel; Left end and right-hand member at base are separately installed with left plate and the right plate under being tilted to; The front-end and back-end of left plate and right plate are fixed together and form respectively the discharging chamber of inversed taper platform shape with front side board and back side panel; On the left plate of discharge box and right plate, be installed with respectively left vibrating device and right vibrating device; Left vibrating device comprises connection cushion rubber, vibrating plate and vibrating motor; At left plate middle part, there is mounting groove, in mounting groove, by connecting bolt, be provided with successively from outside to inside and be connected cushion rubber and vibrating plate with attaching nut, in the outer end of vibrating plate, be installed with vibrating motor; The right vibrating device contrary with the identical installation direction of left vibrating device structure is installed at the middle part of right plate.
3. navy barrow in road shoulder side slope according to claim 2, it is characterized in that the left end of left plate is installed with respectively the left positioning ejection spring plank of two symmetrical arcs of front and back, on the left side of the vibrating plate on the left of the middle part projection of left positioning ejection spring plank withstands on respectively; The right positioning ejection spring plank of two symmetrical arcs before and after being installed with respectively on right plate, the middle part projection of right positioning ejection spring plank withstands on respectively on the right side of vibrating plate on right side.
4. according to navy barrow in the road shoulder side slope described in claim 1 or 2 or 3, the top that it is characterized in that discharge box is installed with and is lambdoid sieve plate.
5. according to navy barrow in the road shoulder side slope described in claim 1 or 2 or 3, it is characterized in that sending in the discharge box of native auger top, being installed with shunting support and the bottom of discharge box being separated into native passage is entered on a left side and native passage is entered on the right side, the two ends, left and right of shunting support are fixedly mounted on respectively on left plate and right plate.
6. navy barrow in road shoulder side slope according to claim 4, it is characterized in that sending in the discharge box of native auger top, being installed with shunting support and the bottom of discharge box being separated into native passage is entered on a left side and native passage is entered on the right side, the two ends, left and right of shunting support are fixedly mounted on respectively on left plate and right plate.
7. according to navy barrow in the road shoulder side slope described in claim 1 or 2 or 3, it is characterized in that the fixed installation of discharge box inner upper end is useful on the pin hand support of carries left side plate and right plate.
8. according to navy barrow in the road shoulder side slope described in claim 4 or 5 or 6, it is characterized in that the fixed installation of discharge box inner upper end is useful on the pin hand support of carries left side plate and right plate.
9. according to navy barrow in the road shoulder side slope described in claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8, it is characterized in that a left side send native actuating unit to comprise and send native motor, send native reducer, send native drive sprocket and send native driving chain; In the car body left side at discharge box rear, be installed with and send native motor and send native reducer, on the power input shaft that send on the power output shaft of native motor and send native reducer, be installed with respectively and send native drive sprocket, be provided with and send native driving chain sending between native drive sprocket; Car body right part at discharge box rear is provided with a left side and send the right side that the identical installation direction of native actuating unit structure is contrary to send native actuating unit; The front end of the power output shaft that send native reducer of both sides is fixed together through the discharge box native auger that send corresponding thereto respectively.
10. according to navy barrow in the road shoulder side slope described in claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9, it is characterized in that transmitting power transmission device comprises conveying motor, carries reducer, conveyance sprocket wheel and conveyance chain; At the lower end of car body left part, be installed with and carry motor and carry reducer, on the power output shaft of carrying motor and on the power input shaft of conveying reducer, be installed with respectively conveyance sprocket wheel, conveyance chain is installed between conveyance sprocket wheel; The power output shaft right-hand member of conveying reducer is fixed together through the left end of discharge barrel and conveying auger.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201210400191.1A CN102953388B (en) | 2012-10-20 | 2012-10-20 | Road shoulder side slope soil feeding vehicle |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201210400191.1A CN102953388B (en) | 2012-10-20 | 2012-10-20 | Road shoulder side slope soil feeding vehicle |
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CN102953388A CN102953388A (en) | 2013-03-06 |
CN102953388B true CN102953388B (en) | 2014-12-10 |
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Application Number | Title | Priority Date | Filing Date |
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CN201210400191.1A Expired - Fee Related CN102953388B (en) | 2012-10-20 | 2012-10-20 | Road shoulder side slope soil feeding vehicle |
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Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113047359A (en) * | 2021-03-24 | 2021-06-29 | 中国水利水电第四工程局有限公司 | A portable irrigation canals and ditches excavating gear for moving people engineering construction |
CN114407993B (en) * | 2022-02-16 | 2023-01-03 | 乌苏四棵树煤炭有限责任公司 | Mine is with mine car of being convenient for to unload |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20010011910A (en) * | 1999-07-31 | 2001-02-15 | 주식회사 죽산 | The construction method of a soil packing by ESC harding soil |
KR100683960B1 (en) * | 2005-12-14 | 2007-02-15 | 이정덕 | Soil dropping machine and it's control process |
CN202000360U (en) * | 2011-01-14 | 2011-10-05 | 张�林 | Equipment for side slope supporting construction |
CN202164531U (en) * | 2011-05-25 | 2012-03-14 | 阿勒泰公路管理局青河分局 | Highway shoulder soiling device |
CN202809625U (en) * | 2012-10-20 | 2013-03-20 | 博乐公路管理局博乐分局 | Highway shoulder side slope soil paving vehicle |
-
2012
- 2012-10-20 CN CN201210400191.1A patent/CN102953388B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20010011910A (en) * | 1999-07-31 | 2001-02-15 | 주식회사 죽산 | The construction method of a soil packing by ESC harding soil |
KR100683960B1 (en) * | 2005-12-14 | 2007-02-15 | 이정덕 | Soil dropping machine and it's control process |
CN202000360U (en) * | 2011-01-14 | 2011-10-05 | 张�林 | Equipment for side slope supporting construction |
CN202164531U (en) * | 2011-05-25 | 2012-03-14 | 阿勒泰公路管理局青河分局 | Highway shoulder soiling device |
CN202809625U (en) * | 2012-10-20 | 2013-03-20 | 博乐公路管理局博乐分局 | Highway shoulder side slope soil paving vehicle |
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Granted publication date: 20141210 Termination date: 20161020 |