CN113739894A - Ground leveling system and method for mounting vehicle dynamic weighing flat scale - Google Patents

Ground leveling system and method for mounting vehicle dynamic weighing flat scale Download PDF

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Publication number
CN113739894A
CN113739894A CN202111031478.7A CN202111031478A CN113739894A CN 113739894 A CN113739894 A CN 113739894A CN 202111031478 A CN202111031478 A CN 202111031478A CN 113739894 A CN113739894 A CN 113739894A
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plate
traction
ground
disc
carrying
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CN202111031478.7A
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CN113739894B (en
Inventor
林小萍
祝顺飞
王绍良
程冬春
郑东
李萍儿
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Zhejiang Dong Ding Electronic Ltd By Share Ltd
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Zhejiang Dong Ding Electronic Ltd By Share Ltd
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Priority to CN202210826856.9A priority Critical patent/CN115262523B/en
Priority to CN202111031478.7A priority patent/CN113739894B/en
Publication of CN113739894A publication Critical patent/CN113739894A/en
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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D3/00Improving or preserving soil or rock, e.g. preserving permafrost soil
    • E02D3/02Improving by compacting
    • E02D3/046Improving by compacting by tamping or vibrating, e.g. with auxiliary watering of the soil
    • E02D3/068Vibrating apparatus operating with systems involving reciprocating masses
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01GWEIGHING
    • G01G19/00Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups
    • G01G19/02Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing wheeled or rolling bodies, e.g. vehicles
    • G01G19/03Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing wheeled or rolling bodies, e.g. vehicles for weighing during motion
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/56Reuse, recycling or recovery technologies of vehicles

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Paleontology (AREA)
  • Environmental & Geological Engineering (AREA)
  • Soil Sciences (AREA)
  • General Physics & Mathematics (AREA)
  • Physics & Mathematics (AREA)
  • Mining & Mineral Resources (AREA)
  • Agronomy & Crop Science (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Road Repair (AREA)
  • Road Paving Machines (AREA)
  • Loading Or Unloading Of Vehicles (AREA)
  • Vehicle Cleaning, Maintenance, Repair, Refitting, And Outriggers (AREA)
  • Handcart (AREA)

Abstract

The invention discloses a ground leveling system and a ground leveling method for mounting a vehicle dynamic weighing flat plate scale, the ground leveling system for mounting the vehicle dynamic weighing flat plate scale comprises a frame body, two propelling guide rails are fixedly mounted at the top end of the frame body, a straight traveling plate is fixedly mounted at the top end of a propelling sliding block, a transverse driving assembly is arranged on one side of the straight traveling plate, a wire guide groove is formed in one side of the straight traveling plate, a carrying platform is mounted in the middle of the straight traveling plate, a sliding strip inserted into the wire guide groove in a penetrating mode is arranged on one side of the carrying platform, a dismounting strip matched with the sliding strip is mounted on the other side of the carrying platform, a longitudinal driving assembly is arranged on the side wall of the straight traveling plate, and a hammering assembly is further arranged on the carrying platform. The carrying belt drives the straight-line plate to advance and slide along the advancing guide rail, the carrying motor drives the object stage to reciprocate along the straight-line plate through the screw rod, and the hammering assembly can strike any position in a plane, so that the effect of automatically leveling the ground is realized.

Description

Ground leveling system and method for mounting vehicle dynamic weighing flat scale
Technical Field
The invention relates to the field of installation of flat scales, in particular to a ground leveling system and method for installation of a vehicle dynamic weighing flat scale.
Background
The load of the vehicle has very important significance to the design of roads and bridges; the investigation shows that the vehicles are generally overloaded during transportation, and if the axle weight of the vehicles running on the highway exceeds 30 percent of the limit value, the service life of the highway is shortened by 56 percent, so that the maintenance cost of the highway is increased sharply; in addition, the overload transportation has the load capacity exceeding the rated tonnage of the vehicle, so that the performance of the vehicle is influenced, firstly, the stability of the vehicle is influenced, and secondly, the power performance of the vehicle is influenced due to overload on a large road section of a curve and a longitudinal slope, so that the safe running of the vehicle is seriously influenced.
In the prior art, a vehicle dynamic weighing flat-plate scale is an important means for measuring the load of a vehicle and controlling the overload of the vehicle. The accurate installation of the vehicle dynamic weighing flat-plate scale is the basis for ensuring the metering accuracy of the vehicle dynamic weighing flat-plate scale. When the dynamic weighing flat-plate scale is assembled, an installation base station needs to be drilled on the ground, the ground where the dynamic weighing flat-plate scale is installed needs to be very flat, the traditional ground leveling method needs leveling equipment, and when the traditional striking equipment strikes the ground, workers need to constantly move a striking position to carry out the next striking operation; when the staff manually pulls the equipment, if the foot is easily injured due to careless operation, the manual operation time is too long, and the working efficiency is low.
Disclosure of Invention
The invention aims to provide a ground leveling system and a ground leveling method for mounting a vehicle dynamic weighing flat plate scale, when the device is used, a stepping motor drives a carrying belt to run through a carrying wheel disc, the carrying belt drives a straight-going plate to advance and slide along a pushing guide rail, the carrying motor drives an objective table to reciprocate along the straight-going plate through a screw rod, a hammering assembly on the objective table can run to any position of the inner side surface area of a frame body, the reducing motor drives a gear disc to rotate through a reducing gear, a cam on the side wall of the gear disc extrudes an interpenetration square rod and a hammering block to hammer the ground to implement hammering operation, and the interpenetration square rod moves upwards through a traction spring, so that the effect of automatically leveling the ground is realized.
In order to solve the above problems, the present invention provides the following technical solutions: a ground leveling system for mounting a vehicle dynamic weighing flat plate scale comprises a frame body, wherein two propelling guide rails are fixedly mounted at the top end of the frame body, a propelling slide block is sleeved on each propelling guide rail and is in sliding connection with the propelling guide rails, a straight plate is fixedly mounted at the top end of each propelling slide block, a transverse driving assembly is arranged on one side of each straight plate, a wire guide groove is formed in one side of each straight plate, a slot penetrating groove is formed in the other side of each straight plate, an objective table is mounted in the middle of each straight plate, a sliding strip penetrating into the inner side of each wire guide groove is arranged on one side of each objective table, a dismounting strip matched with the slot penetrating groove is mounted on the other side of each objective table, a longitudinal driving assembly is arranged on the side wall of each straight plate, a hammering assembly is further arranged on each objective table, four lower edge legs are arranged at the bottom end of the frame body, and a torsion leg assembly is arranged at the bottom end of each lower edge leg, the side wall of the frame body is provided with a traction assembly, the other side of the frame body is provided with an installation cavity, and the inner side of the installation cavity is provided with an expansion assembly.
Further, horizontal drive assembly includes two plane axle beds, and one side of plane axle bed is provided with the delivery rim plate, delivery rim plate and plane axle bed swivelling joint, connects through the delivery belt between two delivery rim plates, connects through connecting the bridge between the lateral wall of delivery belt and straight line board, and one of them delivery rim plate is installed on step motor's output, and step motor fixed mounting is on the inside wall of the frame body.
Further, vertical drive assembly is including the delivery motor, and the lead screw is installed to the output of delivery motor, and the cover is equipped with the nut piece on the lead screw, and the end of nut piece is provided with the turn-ups, and the both sides of nut piece are provided with connecting screw, and connecting screw passes the turn-ups and dismantles the inboard that the strip injects the objective table.
Further, the hammering subassembly includes the activity riser, and the toothed disc is installed to one side of activity riser, and the lateral wall swivelling joint of toothed disc and activity riser, fixed mounting has the cam on the lateral wall of toothed disc, the centre of objective table is provided with the nozzle stub, and the centre of nozzle stub alternates there is the square pole that alternates, alternates square pole and nozzle stub sliding connection, and the top of the square pole that alternates is provided with the pressure dish of laminating cam lateral wall, the bottom of the square pole that alternates is provided with the hammering piece, and the outside of the square pole that alternates is provided with traction spring, traction spring's bottom and hammering piece are connected, and traction spring's top and objective table are connected, still be provided with impact power subassembly on the lateral wall of activity riser.
Furthermore, the impact power assembly comprises a first connecting arm and a second connecting arm, one end of the first connecting arm is rotationally connected with the side wall of the movable vertical plate, one end of the second connecting arm is rotationally connected with the side wall of the straight plate, the other ends of the first connecting arm and the second connecting arm are mutually connected, a roller group is arranged at the hinged position of the first connecting arm and the second connecting arm, a driven wheel disc is also arranged on the first connecting arm, a second bevel gear is also arranged on the second connecting arm, a power disc is fixedly arranged on one side of the second bevel gear, a first bevel gear is fixedly arranged at the end of the screw rod, the first bevel gear and the second bevel gear are mutually meshed, the power disc, the roller group and the driven wheel disc are connected through two adjusting belts, the bottom of the gear disc is provided with a reduction gear, the reduction gear is meshed with the gear disc, and the reduction gear is connected with the driven wheel disc through a round rod.
Further, the torque leg assembly comprises a right-angle frame, the corner of the right-angle frame is connected with the lower edge leg through a hinge block, a moving wheel is arranged at one end of the right-angle frame in installation, a ground plate is arranged at the other end of the right-angle frame, a spherical shell is arranged on the ground plate, a lying ball is arranged on the right-angle frame, the spherical shell on the ground plate is sleeved on the lying ball, and the lower edge leg assembly is arranged on two sides of the lying ball.
Furthermore, the mark fixed subassembly includes fixed cover and movable sleeve, and fixed cover is fixed on the lateral wall of lower edge leg, and the movable sleeve is fixed on the lateral wall of right-angle frame, and wherein the inboard interlude of a set of fixed cover and movable sleeve has the sighting rod, and the top interlude of sighting rod has the kelly.
Further, the traction assembly comprises a traction plate, a traction bearing is arranged at the bottom end of the traction plate, an outer ring of the traction bearing is fixedly connected with the traction plate, a power wheel is arranged below the traction bearing, a round rod penetrating into the inner ring of the traction bearing is arranged on the power wheel, a take-up reel is arranged at the bottom end of the power wheel, a hook is installed at the end of a traction rope outside the take-up reel, a speed reduction wheel disc is arranged on one side of the power wheel, the speed reduction wheel disc is connected with the power wheel through a winding belt, the speed reduction wheel disc is installed at the output end of a traction motor, the traction motor is fixed at the top end of the traction plate, and a storage battery is further arranged at the bottom end of the traction plate.
Further, the expansion assembly includes the screwed pipe, and the threaded rod is alternate at the both ends of screwed pipe, and screw thread opposite direction on the threaded rod, and the end of threaded rod is provided with the conflict ball, is provided with four conflict chambeies that match with the conflict ball on the frame body, and the inboard of installation cavity is provided with magnet.
A method for using a ground leveling system for mounting a vehicle dynamic weighing platform scale comprises the following steps:
s1, when the device is locked, the expansion assembly is taken out of the installation cavity, one of the abutting balls abuts against the inside of the abutting cavity, the other abutting ball abuts against the ground, when the threaded pipe is rotated, the two abutting balls stretch towards the two sides of the threaded pipe, one corner of the frame body can be jacked up, the mark post is pulled out and then the right-angle frame is twisted, the ground plates are replaced to abut against the ground downwards until the four ground plates sequentially contact the ground;
s2, a stepping motor drives a carrying belt to operate through a carrying wheel disc, the carrying belt drives a straight-moving plate to propel and slide along a propelling guide rail, the carrying motor drives an objective table to reciprocate along the straight-moving plate through a lead screw, a hammering component on the objective table can run to any position of the inner side surface area of a frame body, an impact power component drives a gear disc to rotate through a reduction gear, the rotating power of the gear disc comes from the carrying motor, a cam on the side wall of the gear disc extrudes an interpenetration square rod and a hammering block to hammer the ground to implement hammering operation, and the interpenetration square rod moves upwards through a traction spring;
and S3, when the device returns to the locomotive, the hook is pulled out and hung on the frame, then two slopes are built on the frame, the traction motor drives the power wheel to rotate through the speed reduction wheel disc and the storage battery, the power wheel and the take-up reel contract the traction rope, and the device can be pulled back to the locomotive.
The invention has the beneficial effects that:
one of them, the device is when using, step motor passes through the delivery rim plate and drives the delivery belt operation, delivery belt drive straight-line board impels along propelling guide rail and slides, the delivery motor passes through lead screw drive objective table and slides along straight-line board is reciprocal, hammering subassembly on the objective table can move the optional position of the internal side area of frame, the lead screw also drives bevel gear group rotation when rotatory, bevel gear group is rotatory through two indirect drive driven rim plates of adjusting the belt, it is rotatory to drive the toothed disc through reduction gear from the toothed disc, the rotatory power of toothed disc also comes from the delivery motor, the effect of linkage has been realized, cam extrusion on the toothed disc lateral wall alternates square bar and hammering piece hammering ground and implements the striking operation, it passes through traction spring rebound to alternate the square bar, the effect on automatic leveling ground has been realized.
Two, the device is when the locking, takes out expansion block from the installation cavity, and one of them conflict ball is contradicted in the chamber of contradicting, and another conflict ball is contradicted subaerial, and in the time of rotatory screwed pipe, two conflict balls can be stretched to the both sides of screwed pipe, and one of them turning of frame body can be pushed up, twists reverse right-angle frame after drawing out the sighting rod, lets the ground plate change conflict ground down, until four ground plates contact ground in proper order, has realized convenient fixing device's effect.
Thirdly, when the device returns to the locomotive, the hook is pulled out and hung on the frame, then two slopes are built on the frame, the traction motor drives the power wheel to rotate through the speed reduction wheel disc and the storage battery, the power wheel and the take-up reel shrink traction rope, and the device can be pulled back to the locomotive, so that the effect of automatically conveying equipment is realized.
Drawings
FIG. 1 is a schematic illustration of a front view of a floor leveling system for vehicle dynamic weighing platform scale installation.
Figure 2 is a schematic side view of a floor screed system for vehicle dynamic weighing platform scale installation.
Figure 3 is a schematic view of a propulsion rail of a ground leveling system for vehicle dynamic weighing platform scale installation.
FIG. 4 is a schematic view of a floor leveling system walk-through plate for vehicle dynamic weighing platform scale installation.
FIG. 5 is a schematic view of a movable vertical plate of a ground leveling system for mounting a vehicle dynamic weighing flat-bed scale.
Figure 6 is a schematic view of a ground leveling system stage for vehicle dynamic weighing platform scale installation.
Figure 7 is a schematic diagram of a torsion leg assembly of a ground leveling system for vehicle dynamic weighing platform scale installation.
FIG. 8 is a schematic view of a floor leveling system mounting cavity for vehicle dynamic weighing platform scale mounting.
Figure 9 is a schematic diagram of a ground leveling system tow assembly for a vehicle dynamic weighing platform scale installation.
Figure 10 is a schematic diagram of the impact power assembly of the ground leveling system for vehicle dynamic weighing platform scale installation.
Description of reference numerals:
the device comprises a frame body 1, a collision cavity 101, a push guide rail 2, a push slide block 3, a straight traveling plate 4, a wire guide groove 401, a through slot 402, a connecting bridge 403, an object stage 5, a sliding strip 501, a detaching strip 502, a short pipe 503, a traction assembly 6, a traction plate 601, a traction bearing 602, a power wheel 603, a take-up reel 604, a hook 605, a speed reduction wheel disc 606, a traction motor 607, a winding belt 608, a storage battery 609, a lower edge leg 7, a torsion leg assembly 8, a right-angle frame 801, a hinge block 802, a ground plate 803, a moving wheel 804, a fixing sleeve 805, a movable sleeve 806, a mark post 807, a clamping rod 808, a mounting cavity 9, an expansion assembly 10, a threaded pipe 1001, a threaded rod 1002, a collision ball 1003, a carrying motor 11, a lead screw 1101, a nut block 1102, a connecting screw 1103, a plane shaft seat 12, a carrying wheel disc 1201, a carrying belt 1202, a stepping motor 1203, a movable vertical plate 13, a gear disc 1301, a speed reduction gear 1302, a first connecting arm 1303, the device comprises a cam 1304, a square inserting rod 1305, a hammer block 1306, a traction spring 1307, a pressure disc 1308, a second connecting arm 1309, a first bevel gear 1310, a second bevel gear 1311, a power disc 1312, a roller set 1313, a driven wheel disc 1314 and an adjusting belt 1315.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.
Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, a ground leveling system for vehicle dynamic weighing flat plate scale installation comprises a frame body 1, two propelling guide rails 2 are fixedly installed at the top end of the frame body 1, a propelling slide block 3 is sleeved on the propelling guide rails 2, the propelling slide block 3 is in sliding connection with the propelling guide rails 2, a straight plate 4 is fixedly installed at the top end of the propelling slide block 3, a transverse driving component is arranged at one side of the straight plate 4, a wire guide groove 401 is arranged at one side of the straight plate 4, a slot 402 is arranged at the other side of the straight plate 4, an object stage 5 is installed in the middle of the straight plate 4, a sliding strip 501 inserted into the wire guide groove 401 is arranged at one side of the object stage 5, a detaching strip 502 matched with the slot 402 is installed at the other side of the object stage 5, a longitudinal driving component is arranged on the side wall of the straight plate 4, still be provided with the hammering subassembly on the objective table 5, the bottom of the frame body 1 is provided with four down along leg 7, and is provided with torsion leg assembly 8 along the bottom of leg 7 down, be provided with on the lateral wall of the frame body 1 and pull subassembly 6, and the opposite side of the frame body 1 is provided with installation cavity 9, and the inboard of installation cavity 9 is provided with expansion subassembly 10, and craspedodrome board 4 impels along propulsion guide rail 2 and slides, and objective table 5 reciprocates along craspedodrome board 4 and slides, and the arbitrary position in the side face territory in the frame body 1 can be reachd to the hammering subassembly on the objective table 5, has realized the effect on automatic leveling ground, has saved manpower and time.
Horizontal drive assembly includes two plane axle beds 12, one side of plane axle bed 12 is provided with carrying rim plate 1201, carrying rim plate 1201 and plane axle bed 12 swivelling joint, connect through carrying belt 1202 between two carrying rim plates 1201, connect through connecting bridge 403 between the lateral wall of carrying belt 1202 and straight line board 4, one of them carrying rim plate 1201 is installed on the output of step motor 1203, step motor 1203 fixed mounting is on the inside wall of frame body 1, step motor 1203 drives carrying belt 1202 through carrying rim plate 1201 and operates, carrying belt 1202 drives straight line board 4, the effect of providing horizontal power has been realized.
The longitudinal driving assembly comprises a carrying motor 11, a screw 1101 is installed at the output end of the carrying motor 11, a nut block 1102 is sleeved on the screw 1101, the end of the nut block 1102 is provided with a flanging, connecting screws 1103 are arranged on two sides of the nut block 1102, the connecting screws 1103 penetrate through the flanging and a dismounting strip 502 to be inserted into the inner side of the objective table 5, the carrying motor 11 drives the objective table 5 to slide along the straight plate 4 in a reciprocating mode through the screw 1101, and the effect of providing longitudinal power is achieved.
The hammering component comprises a movable vertical plate 13, a gear disc 1301 is installed on one side of the movable vertical plate 13, the gear disc 1301 is rotationally connected with the side wall of the movable vertical plate 13, a cam 1304 is fixedly installed on the side wall of the gear disc 1301, a short pipe 503 is arranged in the middle of an object stage 5, an inserting square rod 1305 is inserted in the middle of the short pipe 503, the inserting square rod 1305 is in sliding connection with the short pipe 503, a pressure disc 1308 attached to the side wall of the cam 1304 is arranged at the top end of the inserting square rod 1305, a hammering block 1306 is arranged at the bottom end of the inserting square rod 1305, a traction spring 1307 is arranged on the outer side of the inserting square rod 1305, the bottom end of the traction spring 1307 is connected with the hammering block 1306, the top end of the traction spring 1307 is connected with the object stage 5, an impact power component is further arranged on the side wall of the movable vertical plate 13, the impact power component is arranged on the side wall of the gear disc 1301, the cam 1304 extrudes the inserting square rod 1305 and the hammering block 1306 to hammer ground to implement hammering operation, the inserting square rod 1305 moves upwards through the traction spring 1307, and the effect of automatically leveling the ground is achieved.
The impact power assembly comprises a first connecting arm 1303 and a second connecting arm 1309, one end of the first connecting arm 1303 is rotatably connected with the side wall of the movable vertical plate 13, one end of the second connecting arm 1309 is rotatably connected with the side wall of the straight plate 4, the other ends of the first connecting arm 1303 and the second connecting arm 1309 are connected with each other, a roller set 1313 is arranged at the hinged position of the first connecting arm 1303 and the second connecting arm 1309, a driven wheel disc 1314 is further arranged on the first connecting arm 1303, a second bevel gear 1311 is further arranged on the second connecting arm 1309, a power disc 1312 is further fixedly arranged on one side of the second bevel gear 1311, a first bevel gear 1310 is fixedly arranged at the end of the screw 1101, the first bevel gear 1310 and the second bevel gear 1311 are mutually meshed, the power disc 1312, the roller set 1313 and the driven wheel disc 1314 are connected through two adjusting belts 1315, and a reduction gear 1302 is arranged at the bottom end of the gear disc 1301, the reduction gear 1302 and the gear disc 1301 are meshed with each other, the reduction gear 1302 and the driven wheel disc 1314 are connected through a round rod, the screw rod 1101 drives the bevel gear set to rotate while rotating, the bevel gear set indirectly drives the driven wheel disc 1314 to rotate through two adjusting belts 1315, the driven wheel disc 1314 drives the gear disc 1301 to rotate through the reduction gear 1302, the rotating power of the gear disc 1301 is also from the carrying motor 11, and the linkage effect is achieved.
Torsion leg subassembly 8 includes right angle frame 801, and the corner of right angle frame 801 passes through articulated piece 802 and connects along leg 7 down, an end of installation of right angle frame 801 is provided with removes wheel 804, and another end of right angle frame 801 is provided with ground plate 803, is provided with the spherical shell on the ground plate 803, is provided with the ball of crouching on right angle frame 801, and the spherical shell suit on the ground plate 803 is on the ball of crouching, down be provided with the mark solid subassembly along the both sides of leg 7, ground plate 803 and removal wheel 804 can change and contact ground, let ground plate 803 change conflict ground down, until four ground plates 803 contact ground in proper order, realized locking device's effect.
The mark solid subassembly includes fixed cover 805 and movable sleeve 806, it is provided with fixed cover 805 to fix respectively on the both sides wall of lower edge leg 7, it is provided with movable sleeve 806 to fix respectively on the both sides wall of right angle frame 801, wherein the inboard interlude of a set of fixed cover 805 and movable sleeve 806 has sighting rod 807, the top interlude of sighting rod 807 has card pole 808, when needs change right angle frame 801 angle, pull out sighting rod 807 and change the position of right angle frame 801 again, sighting rod 807 alternates in another set of fixed cover 805 and movable sleeve 806, sighting rod 807 needs from up inserting down, the effect of convenient fixed right angle frame 801 has been realized.
The traction assembly 6 comprises a traction plate 601, a traction bearing 602 is arranged at the bottom end of the traction plate 601, an outer ring of the traction bearing 602 is fixedly connected with the traction plate 601, a power wheel 603 is arranged below the traction bearing 602, a round rod inserted into an inner ring of the traction bearing 602 is arranged on the power wheel 603, a take-up reel 604 is arranged at the bottom end of the power wheel 603, a hook 605 is mounted at the end of a traction rope outside the take-up reel 604, a speed reduction wheel disc 606 is arranged at one side of the power wheel 603, the speed reduction wheel disc 606 and the power wheel 603 are connected through a winding belt 608, the speed reduction wheel disc 606 is mounted at the output end of a traction motor 607, the traction motor 607 is fixed at the top end of the traction plate 601, a storage battery 609 is further arranged at the bottom end of the traction plate 601, when the traction assembly returns to a locomotive, the hook 605 is pulled out to be hung on a frame, then two slopes are built on the frame, and the traction motor 607 drives the power wheel 603 to rotate through the speed reduction wheel disc 606 and the storage battery 608, the power wheel 603 and the take-up reel 604 contract the traction rope, and the device can be pulled back to the vehicle, so that the effect of automatically dragging the equipment is realized.
Expansion subassembly 10 includes screwed pipe 1001, threaded rod 1002 is inserted at the both ends of screwed pipe 1001, screw thread opposite direction on the threaded rod 1002, and the end of threaded rod 1002 is provided with conflict ball 1003, be provided with four on the frame body 1 and conflict ball 1003 assorted conflict chamber 101, the inboard of installation cavity 9 is provided with magnet, right angle frame 801 is before the change, expansion subassembly 10 takes out from installation cavity 9, one of them conflict ball 1003 conflicts in conflict chamber 101, another conflict ball 1003 conflicts subaerial, when rotatory screwed pipe, two conflict balls 1003 can be stretched to screwed pipe 1001's both sides, one of them turning of frame body 1 can vacate, the resistance of twisting right angle frame 801 has been reduced.
A method for using a ground leveling system for mounting a vehicle dynamic weighing platform scale comprises the following steps:
s1, when the device is locked, the expansion assembly 10 is taken out of the installation cavity 9, one interference ball 1003 abuts against the interference cavity 101, the other interference ball 1003 abuts against the ground, when the threaded pipe 1001 is rotated, the two interference balls 1003 extend towards two sides of the threaded pipe 1001, one corner of the frame body 1 is jacked up, the right-angle frame 801 is twisted after the marker post 807 is pulled out, the ground plates 803 are replaced to abut against the ground downwards, and the four ground plates 803 sequentially contact the ground;
s2, a stepping motor 1203 drives a carrying belt 1202 to operate through a carrying wheel disc 1201, the carrying belt 1202 drives a straight-moving plate 4 to propel and slide along a propelling guide rail 2, a carrying motor 11 drives an objective table 5 to reciprocate along the straight-moving plate 4 through a lead screw 1101, a hammering assembly on the objective table 5 can run to any position of the inner side surface area of a frame body 1, an impact power assembly drives a gear disc 1301 to rotate through a reduction gear 1302, the rotating power of the gear disc 1301 comes from the carrying motor 11, a cam 1304 on the side wall of the gear disc 1301 extrudes an inserting square rod 1305 and a hammering block 1306 to hammer the ground to implement hammering operation, and the inserting square rod 1305 moves upwards through a traction spring 1307;
s3, when the device returns to the locomotive, the hook 605 is pulled out to be hung on the frame, then two slopes are built on the frame, the traction motor 607 drives the power wheel 603 to rotate through the speed reduction wheel disc 606 and the storage battery 608, the power wheel 603 and the take-up reel 604 shrink the traction rope, and the device can be pulled back to the locomotive.
Finally, the straight board 4 is pushed to slide along the pushing guide rail 2, the objective table 5 is pushed to slide along the straight board 4 in a reciprocating manner, the hammering component on the objective table 5 can reach any position of the inner side surface area of the frame body 1, the effect of automatically leveling the ground is realized, manpower and time are saved, the step motor 1203 drives the carrying belt 1202 to operate through the carrying wheel disc 1201, the carrying belt 1202 drives the straight board 4, the effect of providing transverse power is realized, the carrying motor 11 drives the objective table 5 to slide along the straight board 4 in a reciprocating manner through the lead screw 1101, the effect of providing longitudinal power is realized, the cam 1304 on the side wall of the gear disc 1301 extrudes the insertion square rod 1305 and the hammering block 1306 to hammer the ground to implement hammering operation, the insertion square rod 1305 moves upwards through the traction spring 1307, the effect of automatically leveling the ground is realized, the lead screw 1101 drives the bevel gear set to rotate while rotating, the bevel gear set indirectly drives the driven wheel disc to rotate through the two adjusting belts 1315, the driven wheel disc 1314 drives the gear disc 1301 to rotate through the reduction gear 1302, the power for rotating the gear disc 1301 also comes from the carrying motor 11, the linkage effect is realized, the ground plates 803 and the moving wheel 804 can be exchanged and contacted with the ground, the ground plates 803 are exchanged and downward abutted against the ground until the four ground plates 803 are sequentially contacted with the ground, the effect of a locking device is realized, when the angle of the right-angle frame 801 needs to be exchanged, the marker post 807 is pulled out and then converted into the position of the right-angle frame 801, the marker post 807 is inserted into the other group of fixed sleeves 805 and movable sleeves 806, the marker post 807 needs to be inserted from bottom to top, the effect of conveniently fixing the right-angle frame 801 is realized, when the device returns to a locomotive, the hook 605 is pulled out and hung on the frame, then two slopes are arranged on the frame, the traction motor 607 drives the power wheel 603 to rotate through the reduction wheel disc 606 and the storage battery 608, the power wheel 603 and the take-up disc 604 shrink the traction rope, the device can be pulled back on the car, has realized the effect of automatic equipment that pulls, and right-angle frame 801 is before the change, and expansion unit 10 takes out from installation cavity 9, and one of them conflict ball 1003 conflicts in conflict chamber 101, and another conflict ball 1003 conflicts subaerial, and when rotatory screwed pipe 1001, two conflict balls 1003 can stretch to the both sides of screwed pipe 1001, and one of them corner of frame body 1 can vacate, has reduced the resistance of twisting right-angle frame 801.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (10)

1. The utility model provides a vehicle dynamic weighing platform balance installation is with ground flattening system which characterized in that: the device comprises a frame body (1), wherein two propelling guide rails (2) are fixedly mounted at the top end of the frame body (1), a propelling sliding block (3) is sleeved on each propelling guide rail (2), the propelling sliding block (3) is in sliding connection with the propelling guide rails (2), a straight plate (4) is fixedly mounted at the top end of the propelling sliding block (3), a transverse driving assembly is arranged on one side of the straight plate (4), a wire guide groove (401) is formed in one side of the straight plate (4), a slot (402) is formed in the other side of the straight plate (4), an objective table (5) is mounted in the middle of the straight plate (4), a sliding strip (501) penetrating the inner side of the wire guide groove (401) is arranged on one side of the objective table (5), a dismounting strip (502) matched with the slot (402) is mounted on the other side of the objective table (5), and a longitudinal driving assembly is arranged on the side wall of the straight plate (4), still be provided with the hammering subassembly on objective table (5), the bottom of the frame body (1) is provided with four down along leg (7), and is provided with torsion leg subassembly (8) along the bottom of leg (7) down, be provided with on the lateral wall of the frame body (1) and pull subassembly (6), and the opposite side of the frame body (1) is provided with installation cavity (9), and the inboard of installation cavity (9) is provided with expansion subassembly (10).
2. The floor leveling system for vehicle dynamic weighing platform scale mounting of claim 1, wherein: the transverse driving assembly comprises two plane shaft seats (12), a carrying wheel disc (1201) is arranged on one side of each plane shaft seat (12), the carrying wheel disc (1201) is connected with the plane shaft seats (12) in a rotating mode, the two carrying wheel discs (1201) are connected through a carrying belt (1202), the carrying belt (1202) is connected with the side wall of the straight-going plate (4) through a connecting bridge (403), one of the carrying wheel discs (1201) is installed at the output end of a stepping motor (1203), and the stepping motor (1203) is fixedly installed on the inner side wall of the frame body (1).
3. The floor leveling system for vehicle dynamic weighing platform scale mounting of claim 1, wherein: the longitudinal driving assembly comprises a carrying motor (11), a screw rod (1101) is installed at the output end of the carrying motor (11), a nut block (1102) is sleeved on the screw rod (1101), a flanging is arranged at the end of the nut block (1102), connecting screws (1103) are arranged on two sides of the nut block (1102), and the connecting screws (1103) penetrate through the flanging and a dismounting strip (502) to be inserted into the inner side of the objective table (5).
4. The floor leveling system for vehicle dynamic weighing platform scale mounting of claim 2, wherein: the hammering assembly comprises a movable vertical plate (13), a gear disc (1301) is installed on one side of the movable vertical plate (13), the gear disc (1301) is rotatably connected with the side wall of the movable vertical plate (13), a cam (1304) is fixedly installed on the side wall of the gear disc (1301), the middle of the objective table (5) is provided with a short pipe (503), an inserting square rod (1305) is inserted in the middle of the short pipe (503), the inserting square rod (1305) is in sliding connection with the short pipe (503), the top end of the inserting square rod (1305) is provided with a pressure disc (1308) attached to the side wall of a cam (1304), the bottom end of the inserting square rod (1305) is provided with a hammering block (1306), and a traction spring (1307) is arranged on the outer side of the penetrating square rod (1305), the bottom end of the traction spring (1307) is connected with the hammering block (1306), the top end of the traction spring (1307) is connected with the objective table (5), and an impact power assembly is further arranged on the side wall of the movable vertical plate (13).
5. The floor leveling system for vehicle dynamic weighing platform scale mounting of claim 4, wherein: the impact power assembly comprises a first connecting arm (1303) and a second connecting arm (1309), one end of the first connecting arm (1303) is rotatably connected with the side wall of a movable vertical plate (13), one end of the second connecting arm (1309) is rotatably connected with the side wall of a straight-moving plate (4), the other ends of the first connecting arm (1303) and the second connecting arm (1309) are mutually connected, a roller set (1313) is arranged at the hinged position of the first connecting arm (1303) and the second connecting arm (1309), a driven wheel disc (1314) is further arranged on the first connecting arm (1303), a second bevel gear (1311) is further arranged on the second connecting arm (1309), a power disc (1312) is further fixedly arranged on one side of the second bevel gear (1311), a first bevel gear (1310) is fixedly arranged at the end of a lead screw (1101), the first bevel gear (1310) and the second bevel gear (1311) are mutually meshed, and the power disc (1312) is, The roller group (1313) is connected with the driven wheel disc (1314) through two adjusting belts (1315), a reduction gear (1302) is arranged at the bottom end of the gear disc (1301), the reduction gear (1302) is meshed with the gear disc (1301), and the reduction gear (1302) is connected with the driven wheel disc (1314) through a round rod.
6. The floor leveling system for vehicle dynamic weighing platform scale mounting of claim 1, wherein: torsion leg subassembly (8) are including right angle frame (801), and the corner of right angle frame (801) is connected along leg (7) down through articulated piece (802), an end of installation of right angle frame (801) is provided with removes wheel (804), and another end of right angle frame (801) is provided with ground plate (803), is provided with the spherical shell on ground plate (803), is provided with on right angle frame (801) and crouches the ball, and the spherical shell suit on ground plate (803) is on crouching the ball, be provided with the mark solid subassembly down along the both sides of leg (7).
7. The floor leveling system for vehicle dynamic weighing platform scale installation of claim 6, wherein: the marking component comprises a fixed sleeve (805) and a movable sleeve (806), the fixed sleeve (805) is fixed on the side wall of the lower edge leg (7), the movable sleeve (806) is fixed on the side wall of the right-angle frame (801), a marker post (807) penetrates through the inner sides of the fixed sleeve (805) and the movable sleeve (806), and a clamping rod (808) penetrates through the top end of the marker post (807).
8. The floor leveling system for vehicle dynamic weighing platform scale mounting of claim 1, wherein: the traction assembly (6) comprises a traction plate (601), a traction bearing (602) is arranged at the bottom end of the traction plate (601), an outer ring of the traction bearing (602) is fixedly connected with the traction plate (601), a power wheel (603) is arranged below the traction bearing (602), a round rod inserted in an inner ring of the traction bearing (602) is arranged on the power wheel (603), a take-up reel (604) is arranged at the bottom end of the power wheel (603), a hook (605) is arranged at the end of a traction rope on the outer side of the take-up reel (604), one side of power wheel (603) is provided with speed reduction rim plate (606), connects through rolling belt (608) between speed reduction rim plate (606) and power wheel (603), installs on traction motor's (607) output end speed reduction rim plate (606), and traction motor (607) are fixed on the top of traction plate (601), the bottom of traction plate (601) still is provided with battery (609).
9. The floor leveling system for vehicle dynamic weighing platform scale mounting of claim 1, wherein: expansion subassembly (10) are including screwed pipe (1001), and threaded rod (1002) are alternate at the both ends of screwed pipe (1001), and the screw thread opposite direction on threaded rod (1002), and the end of threaded rod (1002) is provided with conflict ball (1003), is provided with four on frame body (1) and conflicts ball (1003) assorted chamber (101) that supports, and the inboard of installation cavity (9) is provided with magnet.
10. A use method of a ground leveling system for mounting a vehicle dynamic weighing platform scale is characterized by comprising the following steps:
s1, when the device is locked, the expansion assembly (10) is taken out of an installation cavity (9), one of the interference balls (1003) is abutted in the interference cavity (101), the other interference ball (1003) is abutted on the ground, when the threaded pipe (1001) is rotated, the two interference balls (1003) stretch towards the two sides of the threaded pipe (1001), one corner of the frame body (1) is jacked, the right-angle frame (801) is twisted after the marker post (807) is pulled out, the ground plates (803) are exchanged and abutted downwards until the four ground plates (803) sequentially contact the ground;
s2, a stepping motor (1203) drives a carrying belt (1202) to operate through a carrying wheel disc (1201), the carrying belt (1202) drives a straight-moving plate (4) to advance and slide along an advancing guide rail (2), a carrying motor (11) drives an objective table (5) to reciprocate along the straight-moving plate (4) through a screw rod (1101), a hammering assembly on the objective table (5) can run to any position of the inner side surface area of a frame body (1), an impact power assembly drives a gear disc (1301) to rotate through a reduction gear (1302), the rotating power of the gear disc (1301) comes from the carrying motor (11), a cam (1304) on the side wall of the gear disc (1301) extrudes an inserting square rod (1305) and a hammering block (1306) to hammer the ground to implement hammering operation, and the inserting square rod (1305) moves upwards through a traction spring (1307);
s3, when the device returns to the locomotive, the hook (605) is pulled out to be hung on the frame, then two slopes are built on the frame, the traction motor (607) drives the power wheel (603) to rotate through the speed reduction wheel disc (606) and the storage battery (608), the power wheel (603) and the take-up reel (604) shrink the traction rope, and the device is pulled back to the locomotive.
CN202111031478.7A 2021-09-03 2021-09-03 Ground leveling system and method for mounting vehicle dynamic weighing flat scale Active CN113739894B (en)

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CN202210826856.9A CN115262523B (en) 2021-09-03 2021-09-03 Ground leveling method for mounting dynamic weighing platform balance of vehicle
CN202111031478.7A CN113739894B (en) 2021-09-03 2021-09-03 Ground leveling system and method for mounting vehicle dynamic weighing flat scale

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