The content of the invention
The technical problems to be solved by the invention are to provide a kind of road road surface tamper, can solve above-mentioned present
The problem of in technology.
The present invention is achieved through the following technical solutions:A kind of road road surface tamper of the present invention, including dress
It puts car body and is fixedly mounted on the in vivo compacting fuselage of described device vehicle, the first sliding cavity, institute are equipped in the compacting fuselage
It states and groove is equipped in the compacting fuselage bottom end face immediately below the first sliding cavity, the groove top is slided with described first
Run through between the portion of bottom of chamber and be equipped with slide opening, tamping block mechanism is slidably connected in first sliding cavity, described first slides
It is equipped with to lock the firm retaining mechanism being connected, the firm locking machine with the tamping block mechanism in chamber inner left wall
Structure includes the locking sliding shoe of locking sliding cavity and sliding connection in the locking sliding cavity, the locking sliding cavity
The inner wall of both sides up and down of left side section is arranged with the first guide groove, and the first guide groove described in upper and lower both sides is slidably connected with
Guide pad, guide pad inside described in upper and lower both sides are fixedly connected respectively with both sides outer wall above and below the locking sliding shoe, the lock
Tight sliding shoe left end face screw-internal thread fit is connected with adjusting threaded rod extended to the left, the first sliding cavity right side
The second guide groove for upwardly extending setting is equipped in the bottom position of inner wall, is connected in the inner wall of the second guide groove right side and sets
It drives into slot, described drive into being connected in inner wall on the right side of slot is oriented to equipped with the second extended up and down sliding cavity, described second
The first slider bar that left end face is fixedly connected with the tamping block mechanism its right end face bottom, institute are slidably connected in slot
It states and the second slider bar is slidably connected in the second sliding cavity, first slider bar and second slider bar and the drive
Tooth-strip part is equipped with into slot sides adjacent, and described drive into being rotatably assorted in slot is connected with front and rear extended rotation axis, described turn
Extending end is connected with driving stepper motor on rear side of moving axis, is circumferentially fixed with and is driven into gear in the rotation axis, it is described drive into
Maximum circumscribed circle is respectively protruding into second guide groove and second sliding cavity and respectively with described the at left and right sides of gear
Tooth-strip part engagement on one slider bar and second slider bar connects, and is equipped with above and below second sliding cavity in the inner wall of both sides
Contact sensor.
Preferably technical solution, the adjusting threaded rod left side extending end connect with the cooperation of regulation motor right-hand end
It connects, the regulation motor outer surface is in the locking sliding cavity inner left wall and secure fit connects;The drive stepper motor
Outer surface is driven embedded in described into secure fit connection in inner wall on rear side of slot, and the rotation axis front side end is driven with described on the inside of slot
Inner wall is rotatably assorted connection.
Preferably technical solution, the tamping block mechanism include being arranged on tamping block compacting slip within the organization
It chamber and is fixed at the tamping block actuator base end face and extends downwardly the branch sleeve of setting, the branch sleeve bottom
Portion's extending end is stretched into the slide opening and is slidably connected, and the compacting sliding cavity inner roof wall, which is connected to be equipped with, to be upwardly extended
The sliding groove of setting, is installed with electromagnetic control apparatus in the sliding groove inner roof wall, the company of being slidably matched in the compacting sliding cavity
Fixed sliding panel is connected to, the permanent magnet for upwardly extending setting is installed at the top of the fixed sliding panel, is prolonged at the top of the permanent magnet
It stretches end to stretch into the sliding groove and be slidably connected, the permanent magnetism external surface on the upside of the fixed sliding panel is surround
Equipped with top pressure spring, compacting connecting rod extended up and down is slidably connected in the branch sleeve, the compacting connects
Extending end is stretched into the compacting sliding cavity and is fixedly connected with the fixed sliding panel bottom end face, the rammer at the top of extension bar
Real connection bar bottom extended segment is stretched into after the slide opening in the groove and end is installed with compaction plate, the tamping block mechanism
Be equipped with the locking slot of setting symmetrical above and below in left end face, the locking slot to the firm retaining mechanism fixing lock close-fitting
Close connection.
Preferably technical solution, contact sensor described in upper and lower both sides with the regulation motor Electricity Federation.
The beneficial effects of the invention are as follows:
1. setting the second guide groove for upwardly extending setting in the bottom position by inner wall on the right side of the first sliding cavity, second leads
It is connected to set in inner wall on the right side of the slot and drives into slot, drives into being connected in inner wall on the right side of slot to set and extended second slide up and down
Chamber, the first slip that the interior sliding connection left end face of the second guide groove is fixedly connected with tamping block mechanism its right end face bottom
Item, the second sliding cavity the second slider bar of interior sliding connection, the first slider bar and the second slider bar are equal into slot sides adjacent with driving
If tooth-strip part, the rotation axis that is extended before and after driving into the connection that is rotatably assorted in slot extending end and is driven into electricity on rear side of rotation axis
Machine is connected, and circumferentially fixed set is driven into gear in rotation axis, drives into maximum circumscribed circle at left and right sides of gear and is respectively protruding into second
Connection is engaged in guide groove and the second sliding cavity and with the tooth-strip part on the first slider bar and the second slider bar respectively, and second slides
Contact sensor is all provided in the inner wall of both sides above and below chamber, so as to fulfill automatically controlling by above and below drive stepper motor drive tamping block mechanism
Work is slided, meanwhile, the contact sensor above and below the second slider bar and the second sliding cavity in the inner wall of both sides is driven to realize the control that offsets
System improves automation control rate, reduces operating procedure, improves compacting efficiency.
2. include being arranged on tamping block compacting sliding cavity within the organization by tamping block mechanism and be fixed at compacting
Block actuator base end face and the branch sleeve for extending downwardly setting, branch sleeve bottom extending end, which is stretched into slide opening and slided, matches somebody with somebody
Connection is closed, compacting sliding cavity inner roof wall, which is connected, sets the sliding groove for upwardly extending setting, fixed electromagnetism control in sliding groove inner roof wall
Device processed, interior be slidably connected of compacting sliding cavity fixes sliding panel, fixed at the top of fixed sliding panel to upwardly extend setting forever
Magnet, permanent magnet top extending end are stretched into sliding groove and are slidably connected, the permanent magnet appearance on the upside of fixed sliding panel
Face ring winding top pressure spring, the compacting connecting rod that the interior sliding connection of branch sleeve is extended up and down, compacting connecting rod top
Portion's extending end is stretched into compacting sliding cavity and is fixedly connected with fixed sliding panel bottom end face, tamps connecting rod bottom extended segment
The fixed compaction plate in groove and end is stretched into after slide opening, the locking of setting symmetrical above and below is set in tamping block mechanism left end face
Slot, locking slot to firm retaining mechanism fixing lock tight fit connection, so as to fulfill Ramming operation is automatically controlled, improve work
Make efficiency, reduce manual operation, reduce worker's amount of labour.
3. the configuration of the present invention is simple, easy to operate, it can realize and automatically control by the upper of drive stepper motor drive tamping block mechanism
Lower slider works, meanwhile, the second slider bar is driven to offset with the contact sensor realization in the second sliding cavity up and down both sides inner wall
Control improves automation control rate, reduces operating procedure, improves compacting efficiency, reduces compacting construction cost, meanwhile, it carries
High service life.
Specific embodiment
As Figure 1-Figure 4, a kind of road road surface tamper of the invention including device car body 8 and is fixedly mounted
Compacting fuselage 9 in described device car body 8, the compacting fuselage 9 is interior to be equipped with the first sliding cavity 92, first sliding cavity 92
Groove 91,91 top of groove and 92 bottom of the first sliding cavity are equipped in 9 bottom end face of compacting fuselage of underface
Run through between portion and be equipped with slide opening 93, tamping block mechanism 5 is slidably connected in first sliding cavity 92, described first slides
It is equipped in 92 inner left wall of chamber to lock the firm retaining mechanism 97 being connected with the tamping block mechanism 5, it is described firm
Retaining mechanism 97 includes the locking sliding shoe of locking sliding cavity 971 and sliding connection in the locking sliding cavity 971
973, the inner wall of both sides up and down of the locking 971 left side section of sliding cavity is arranged with the first guide groove 976, the described in upper and lower both sides
One guide groove 976 is slidably connected with guide pad 972, the inside of guide pad 972 described in upper and lower both sides respectively with the locking
Sliding shoe about 973 both sides outer wall be fixedly connected, it is described locking 973 left end face screw-internal thread fit of sliding shoe be connected with to the left
Extended adjusting threaded rod 975, interior be equipped with of the bottom position of the 92 right side inner wall of the first sliding cavity upwardly extend setting
The second guide groove 921, be connected in the 921 right side inner wall of the second guide groove equipped with driving into slot 94, it is described drive it is right into slot 94
It is connected in the inner wall of side equipped with the second extended up and down sliding cavity 95, the interior sliding connection of second guide groove 921
There is the first slider bar 9210 that left end face is fixedly connected with the 5 its right end face bottom of tamping block mechanism, described second slides
Be slidably connected in chamber 95 second slider bar 951, first slider bar 9210 and second slider bar 951 with it is described
It drives into 94 sides adjacent of slot and is equipped with tooth-strip part, described drive into being rotatably assorted in slot 94 is connected with front and rear extended rotation axis
942, the 942 rear side extending end of rotation axis is connected with driving stepper motor 943, circumferentially fixed in the rotation axis 942 to set
It drives into gear 941, described drive into the maximum circumscribed circle in 941 left and right sides of gear is respectively protruding into second guide groove 921 and institute
It states in the second sliding cavity 95 and engages company with the tooth-strip part on first slider bar 9210 and second slider bar 951 respectively
It connects, second sliding cavity is equipped with contact sensor 952 in the inner wall of both sides about 95.
Valuably, the adjusting 975 left side extending end of threaded rod is connected with 974 right-hand end of regulation motor, described
974 outer surface of regulation motor is in locking 971 inner left wall of sliding cavity and secure fit connects;The drive stepper motor
943 outer surfaces are connected embedded in described drive into secure fit in 94 rear side inner wall of slot, 942 front side end of rotation axis and the drive
It is rotatably assorted connection into 94 inside inner wall of slot, so as to fulfill the lifting work of locking and automatic control tamping block mechanism 5 is automatically controlled
Make, meanwhile, improve the transportation stability of the present apparatus.
Valuably, the tamping block mechanism 5 includes the compacting sliding cavity 52 being arranged in the tamping block mechanism 5 and consolidates
Surely it is arranged on 5 bottom end face of tamping block mechanism and extends downwardly the branch sleeve 54 of setting, 54 bottom of branch sleeve
Extending end is stretched into the slide opening 93 and is slidably connected, and compacting 52 inner roof wall of sliding cavity is connected to be equipped with to be prolonged upwards
The sliding groove 53 of setting is stretched, electromagnetic control apparatus 531 is installed in 53 inner roof wall of sliding groove, it is described to tamp in sliding cavity 52
Fixed sliding panel 521 is slidably connected with, fixed 521 top of sliding panel is installed with the permanent magnet for upwardly extending setting
522, the 522 top extending end of permanent magnet is stretched into the sliding groove 53 and is slidably connected, the fixed sliding panel
522 outer surface of the permanent magnet of 521 upsides is slidably connected around top pressure spring 523 is equipped in the branch sleeve 54
There is compacting connecting rod 541 extended up and down, the compacting 541 top extending end of connecting rod stretches into the compacting sliding cavity
It is fixedly connected in 52 and with fixed 521 bottom end face of sliding panel, 541 bottom extended segment of the compacting connecting rod is through the cunning
It is stretched into behind hole 93 in the groove 91 and end is installed with compaction plate 910, be equipped with up and down in 5 left end face of tamping block mechanism
Symmetrically arranged locking slot 51, the locking slot 51 to the firm 97 fixing lock tight fit connection of retaining mechanism, so as to
Realization automatically controls Ramming operation, improves work efficiency, and reduces manual operation, reduces worker's amount of labour, meanwhile, it improves
Service life.
Valuably, contact sensor 952 described in upper and lower both sides with 974 Electricity Federation of regulation motor, so as to fulfill automatic
The locking of the firm retaining mechanism 97 of control is driven into work.
During original state, tamping block mechanism 5 is located at the top position in the first sliding cavity 92, at this point, making tamping block machine
The locking slot 51 of downside in 5 left end face of structure is in relative position with firm 97 right-hand end of retaining mechanism, meanwhile, by tamping block
Mechanism 5 drives the first slider bar 9210 to slide into the top position in the second guide groove 921, at this point, the first slider bar 9210
On the lower lateral section of tooth-strip part engage connection with driving into the maximum circumscribed circle in the left side of gear 941, meanwhile, driven by driving into gear 941
Second slider bar 951 is located at the lowest position in the second sliding cavity 95, at this point, the tooth-strip part on the second slider bar 951 is upper
Side section engages connection with driving into the maximum circumscribed circle in 941 right side of gear, since the second slider bar 951 is slid into the second sliding cavity 95
Lowest position, and then abutted against with the contact sensor 952 in 95 bottom end face of the second sliding cavity, at this point, being slided by second
Contact sensor 952 in 95 bottom end face of dynamic chamber, which sends signal and controls to adjust motor 974, drives 975 turns of threaded rod of adjusting
It is dynamic, by adjusting threaded rod 975 locking sliding shoe 973 is driven gradually to be slided along the right direction in locking sliding cavity 971, meanwhile,
973 right end of locking sliding shoe is made gradually to stretch into the locking slot 51 of the downside in 5 left end face of tamping block mechanism, until leading
The right-most position in the first guide groove 976 is slid into block 972, at this point, being fully inserted into 973 right end of locking sliding shoe
Locking connection is completed in the locking slot 51 of downside in 5 left end face of tamping block mechanism.
When needing Ramming operation, regulation motor 974 drives adjusting threaded rod 975 to rotate backward, at this point, passing through drive simultaneously
Stepper motor 943 powers on, and drives locking sliding shoe 973 gradually along the left direction in locking sliding cavity 971 by adjusting threaded rod 975
It slides, meanwhile, make the locking slot of the downside that 973 right end of locking sliding shoe gradually skidded off in 5 left end face of tamping block mechanism
In 51, until guide pad 972 slides into the left-most position in the first guide groove 976, at this point, making 973 right side of locking sliding shoe
End, which fully slides out, completes unlock work in the locking slot 51 of the downside in 5 left end face of tamping block mechanism, then by drive into
Motor 943 controls the drive in rotation axis 942 and rotation axis 942 to be rotated in an anti-clockwise direction into gear 941, at this point, by driving into tooth
Wheel 941 drives the first slider bar 9210 gradually to be slided along the bottom direction in the second guide groove 921, meanwhile, by driving into gear 941
The second slider bar 951 is driven gradually to be slided along the top-direction in the second sliding cavity 95, at this point, the first slider bar 9210 is to downslide
While dynamic tamping block mechanism 5 is driven gradually to be slided along the bottom direction in the first sliding cavity 92, until the first slider bar 9210
When sliding into the lowest position in the second guide groove 921, meanwhile, by the first slider bar 9210 tamping block mechanism 5 is driven to slide
Lowest position to the first sliding cavity 92, at this point, make the locking slot 51 of the upside in 5 left end face of tamping block mechanism with it is steady
Gu 97 right-hand end of retaining mechanism is in relative position, meanwhile, by driving into gear 941 the second slider bar 951 is driven to slide into second
Top position in sliding cavity 95 passes the contact in 95 inner roof wall of the second sliding cavity of 951 top end of the second slider bar
Sensor 952 abuts against, at this point, sending signal by the contact sensor 952 in 95 inner roof wall of the second sliding cavity and controlling to adjust electricity
Machine 974 drives adjusting threaded rod 975 to rotate, and drives locking sliding shoe 973 gradually along locking sliding cavity by adjusting threaded rod 975
Right direction in 971 slides, meanwhile, 973 right end of locking sliding shoe is made gradually to stretch into 5 left end face of tamping block mechanism
Upside locking slot 51 in, until guide pad 972 slides into right-most position in the first guide groove 976, at this point, making locking
973 right end of sliding shoe, which is fully inserted into the locking slot 51 of the upside in 5 left end face of tamping block mechanism, completes locking connection,
Since tamping block mechanism 5 slides into the lowest position in the first sliding cavity 92, at this point, the connection by 5 bottom of tamping block mechanism
Sleeve 54 is utmostly stretched into slide opening 93, while branch sleeve 54 is made to drive the compaction plate 910 of 541 bottom of compacting connecting rod most
Big degree is stretched out outside the bottom end face of compacting fuselage 9, is then powered on by electromagnetic control apparatus 531, is made electromagnetic control apparatus 531
Bottom end and 522 top end surface output suction of permanent magnet, so that by permanent magnet 522 fixed sliding panel 521 is driven to overcome top
The pressure on top surface of pressing spring 523 is slided along 52 top-direction of compacting sliding cavity, until utmostly sliding into compacting sliding cavity 52
Top position, then by the way that electromagnetic control apparatus 531 is controlled to power off, at this point, fixed sliding panel 521 is made to be subject to top pressure spring
523 pressure on top surface is slided along 52 bottom direction of compacting sliding cavity, so have fixed sliding panel 521 drive compacting connecting rod 541 with
And 910 slide downward of compaction plate of 541 bottom of compacting connecting rod realizes Ramming operation, when Ramming operation is not required, at this point, logical
Cross drive stepper motor 943 control the drive in rotation axis 942 and rotation axis 942 into gear 941 rotationally clockwise, until compacting
Block mechanism 5 is moved to initial position, at this point, the firm retaining mechanism 97 of control and the downside in 5 left end face of tamping block mechanism
Locking slot 51 completes locking.
The beneficial effects of the invention are as follows:
1. setting the second guide groove for upwardly extending setting in the bottom position by inner wall on the right side of the first sliding cavity, second leads
It is connected to set in inner wall on the right side of the slot and drives into slot, drives into being connected in inner wall on the right side of slot to set and extended second slide up and down
Chamber, the first slip that the interior sliding connection left end face of the second guide groove is fixedly connected with tamping block mechanism its right end face bottom
Item, the second sliding cavity the second slider bar of interior sliding connection, the first slider bar and the second slider bar are equal into slot sides adjacent with driving
If tooth-strip part, the rotation axis that is extended before and after driving into the connection that is rotatably assorted in slot extending end and is driven into electricity on rear side of rotation axis
Machine is connected, and circumferentially fixed set is driven into gear in rotation axis, drives into maximum circumscribed circle at left and right sides of gear and is respectively protruding into second
Connection is engaged in guide groove and the second sliding cavity and with the tooth-strip part on the first slider bar and the second slider bar respectively, and second slides
Contact sensor is all provided in the inner wall of both sides above and below chamber, so as to fulfill automatically controlling by above and below drive stepper motor drive tamping block mechanism
Work is slided, meanwhile, the contact sensor above and below the second slider bar and the second sliding cavity in the inner wall of both sides is driven to realize the control that offsets
System improves automation control rate, reduces operating procedure, improves compacting efficiency.
2. include being arranged on tamping block compacting sliding cavity within the organization by tamping block mechanism and be fixed at compacting
Block actuator base end face and the branch sleeve for extending downwardly setting, branch sleeve bottom extending end, which is stretched into slide opening and slided, matches somebody with somebody
Connection is closed, compacting sliding cavity inner roof wall, which is connected, sets the sliding groove for upwardly extending setting, fixed electromagnetism control in sliding groove inner roof wall
Device processed, interior be slidably connected of compacting sliding cavity fixes sliding panel, fixed at the top of fixed sliding panel to upwardly extend setting forever
Magnet, permanent magnet top extending end are stretched into sliding groove and are slidably connected, the permanent magnet appearance on the upside of fixed sliding panel
Face ring winding top pressure spring, the compacting connecting rod that the interior sliding connection of branch sleeve is extended up and down, compacting connecting rod top
Portion's extending end is stretched into compacting sliding cavity and is fixedly connected with fixed sliding panel bottom end face, tamps connecting rod bottom extended segment
The fixed compaction plate in groove and end is stretched into after slide opening, the locking of setting symmetrical above and below is set in tamping block mechanism left end face
Slot, locking slot to firm retaining mechanism fixing lock tight fit connection, so as to fulfill Ramming operation is automatically controlled, improve work
Make efficiency, reduce manual operation, reduce worker's amount of labour.
3. the configuration of the present invention is simple, easy to operate, it can realize and automatically control by the upper of drive stepper motor drive tamping block mechanism
Lower slider works, meanwhile, the second slider bar is driven to offset with the contact sensor realization in the second sliding cavity up and down both sides inner wall
Control improves automation control rate, reduces operating procedure, improves compacting efficiency, reduces compacting construction cost, meanwhile, it carries
High service life.
The above description is merely a specific embodiment, but protection scope of the present invention is not limited thereto, any
The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, it is of the invention
Protection domain should be determined by the scope of protection defined in the claims.