CN113417222B

CN113417222B - Road and bridge crack processing apparatus

Info

Publication number: CN113417222B
Application number: CN202110879726.7A
Authority: CN
Inventors: 杨伟涛; 周洪宁; 冯晓丽; 周京昊; 霍良玉; 张涛; 田智英; 李士博; 高东坡; 王连凯
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-02
Filing date: 2021-08-02
Publication date: 2022-07-29
Anticipated expiration: 2041-08-02
Also published as: CN113417222A

Abstract

The invention discloses a road and bridge crack processing device, which comprises a box body, wherein an inner cavity is arranged in the box body, the two sides of the inner cavity are provided with transmission inner cavities which are positioned in the box body, the transmission inner cavities are arranged in a bilateral symmetry way, a driving gear is rotationally arranged in the transmission cavity, one side of the driving gear is engaged with an engaging rack, one side of the meshing rack is provided with a side connecting block, a rotating cylinder is arranged in the side connecting block in a rotating way, the box body is internally provided with a matching rack, the rotating cylinder is internally provided with a cylinder inner cavity, the inner cavity is internally and rotatably provided with rotating shafts which are bilaterally symmetrical, when the equipment works, on the one hand, the equipment can be rotated in multiple directions, so that the equipment can fully extend into the solid structure to form a stable supporting structure at the crack collapse position of the road and bridge, and the structural firmness of the crack collapse position of the road and bridge is greatly improved by pouring personnel conveniently.

Description

Road and bridge crack processing apparatus

Technical Field

The invention belongs to the technical field of road and bridge crack treatment equipment, and particularly relates to a road and bridge crack treatment device.

Background

The cracks of the common road and bridge are mostly visible with naked eyes, but because the bridge or the road is a load-bearing structure, the corresponding structural strength is not proved to be very high when a large crack is exposed, even some cracks begin to collapse to form a hollow and staggered structure, the main problems caused by the fact that firstly, the crack needs to be firmly repaired to enable the road and bridge to normally pass, secondly, the corresponding structural strength needs to be emphasized and the secondary damage caused by the collapsed crack area is prevented in the repairing process, and the corresponding prior methods mostly adopt the method that the crack and the corresponding collapsed area are pre-covered by directly utilizing a steel bar net structure, then concrete and the like are poured into the corresponding position again, and the main problem is that the strength of the steel bar net can not be good enough to stabilize and fix the crack or the collapse of the bridge deck or the road to a certain degree The sealing is carried out, the safety of the road and the bridge is damaged, and the construction is very inconvenient.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a road and bridge crack processing device, which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the invention relates to a road and bridge crack treatment device, which comprises a box body, wherein an inner cavity is arranged in the box body, transmission inner cavities positioned in the box body are arranged on two sides of the inner cavity, the transmission inner cavities are arranged in a bilateral symmetry manner, driving gears are arranged in the transmission inner cavities in a rotating manner, meshing racks are meshed on one sides of the driving gears, side connecting blocks are arranged on one sides of the meshing racks, rotating cylinders are arranged in the side connecting blocks in a rotating manner, matching racks are arranged in the box body, cylinder inner cavities are arranged in the rotating cylinders, rotating shafts in a bilateral symmetry manner are arranged in the inner cavities in a rotating manner, side meshing bevel gears are arranged on one sides of the rotating shafts, top side bevel gears are meshed on the top sides of the side meshing bevel gears, middle rotating rods are arranged in the top side bevel gears, the middle rotating rods are connected with the inner cavities in a rotating and matching manner, and the meshing racks and the side connecting blocks are arranged in the box body after the top side bevel gears rotate The steel bar rotating and outgoing power device loaded in the cylinder inner cavity can be used, outer side casing bodies buckled with each other are arranged on the outer sides of the box body, side ring plates are arranged on the outer surfaces of the box body, buckling devices firmly buckled between the outer side casing bodies are arranged between the outer side casing bodies, and internal transmission devices which can enable the middle rotating rod to be in power connection and enable the box body and the outer side casing bodies to rotate relatively are arranged in the outer side casing bodies and the middle rotating rod to enable the middle rotating rod to rotate in multiple directions to enable the equipment to rotate better and enable the steel bars to be output from different positions.

According to the technical scheme, the power device comprises a rotating bevel gear arranged on one side of a rotating shaft, a driven bevel gear is arranged on one side of a driving gear, the driven bevel gear is meshed with the rotating bevel gear, a meshed rack is meshed with the driving gear, a side connecting plate is arranged on one side of a side connecting block, an intermediate rotating shaft is arranged in the side connecting plate and rotates, a rotating gear is arranged on one side of the intermediate rotating shaft, the rotating gear is meshed with a matched rack, a fixed-fit bevel gear is arranged on one side of the intermediate rotating shaft, a side-fixed bevel gear is arranged on the outer surface of the rotating cylinder, and the side-fixed bevel gear is meshed with the fixed-fit bevel gear.

Further technical scheme, lock device is including setting up respectively in both sides smooth hole and internal thread hole in the outside cover shell, both sides articulated setting between the outside cover shell, slide the gliding side of being provided with in the hole and connect the slide bar, slide bar one side is connected to the side is provided with fixed connection board, the fixed connection board internal rotation be provided with the rotation threaded rod, the rotation threaded rod with internal thread hole screw-thread fit connects, the length of rotation threaded rod is less than the degree of depth in internal thread hole.

Further technical scheme, inside transmission including set up in the annular in the side ring board, outside cover shell one side is provided with the side piece, the side piece with annular sliding fit connects, be provided with the meshing ring gear in the side ring board, be provided with the inside opening chamber in the outside cover shell, be provided with inside driving motor in the inside opening chamber endwall, inside driving motor one side power connection is provided with the side and connects the gear, the side is connected the gear and is stretched into in the meshing ring gear, the meshing ring gear with the gear meshing setting is connected to the side, be provided with in the outside cover shell can with middle swing arm power is connected and is rotated and can encircle the power component that moves in the outside cover shell.

Further technical scheme, encircle power component including set up in dress card inner chamber in the middle swing arm, be provided with the internal connection spout in the outside cover shell, gliding sliding block in the middle of being provided with in the internal connection spout, be provided with the inside cooperation motor in the middle sliding block, inside cooperation motor one side power connection is provided with the side output pole, side output pole one side is provided with the rotating connecting cylinder, be provided with inside transmission chamber in the rotating connecting cylinder, the rotating connecting cylinder with dress card inner chamber slides and normal running fit connects, the inside transmission chamber with side output pole slides and normal running fit connects, be provided with the messenger in the outside cover shell the rotating connecting cylinder can carry out pivoted sliding structure after sliding.

Further technical scheme, sliding structure including set up in the side chamber in the lateral sleeve shell, the side chamber is provided with two, the side chamber top is provided with the cooperation motor, cooperation motor one side power is connected and is provided with the rotation threaded spindle, the gliding internal thread movable plate that is provided with in the side chamber, the internal thread movable plate with rotation threaded spindle screw-thread fit connects, the internal thread movable plate with rotating connecting cylinder normal running fit connects.

The invention has the beneficial effects that:

the equipment provided by the invention is simple in structure, and when the equipment works, on one hand, the equipment can rotate in multiple directions, so that the equipment can fully extend into a solid structure at the crack collapse part of a road and a bridge to form a stable supporting structure, so that personnel can pour conveniently, and the structural firmness of the crack collapse part of the road and the bridge is greatly improved.

When the device works, firstly, a person puts a reinforcing steel bar into the cylinder inner cavity, and then the person needs to sleeve the outer side casing bodies hinged with each other on the outer surface of the box body, at the moment, the side connecting slide rod can slide in the sliding inner hole under the action of the threaded fit connection of the rotating threaded rod and the internal threaded hole after rotating the rotating threaded rod, so that the side connecting slide rod can rotate relative to the sliding inner hole after the rotating threaded rod is completely separated from the threaded fit connection of the internal threaded hole, the side connecting slide rod and the fixed connecting plate are convenient to rotate the outer side casing bodies after rotating, the outer side casing bodies are conveniently sleeved on the outer surface of the box body, and then the rotating threaded rod is connected with the internal threaded hole again in the threaded fit way, the structure that can make side connection slide bar, fixed connection board and rotation threaded rod constitute will firmly pin between the outside cover shell, this design can compromise firmly and convenient will unblock and the locking between the outside cover shell, very big improvement the outside cover shell is in for box pivoted stability, make afterwards the outside cover shell one side the side piece is connected with annular sliding fit, and side connection gear with the meshing ring gear meshes the setting, can make after the work of internal drive motor drive side connection gear rotates, make side connection gear drive the box carries out the rotary motion of direction axis about, and here simultaneously, need make the rotary connecting cylinder with dress card inner chamber in the middle swinging arms slide and rotate the cooperation and be connected, so because middle sliding block carries out annular slip in the internal connection spout, the internal thread moving plate drives the rotating connecting cylinder to be connected with the clamping inner cavity in a sliding and rotating fit manner, the side output rod is connected with the rotating connecting cylinder in a sliding and rotating fit manner through the internal transmission cavity, the rotation of the side output rod can be transmitted to the middle rotating rod, and the middle rotating rod can rotate, so that the design aims at enabling the internal matching motor to transmit power to the middle rotating rod to rotate as the middle rotating rod and the box body can rotate around the inside of the external side casing, and the internal structure of the external side casing is not fixed on the middle rotating rod and the outer side of the box body all the time, so that the box body can be respectively driven to rotate and then installed at the gap collapse position of a road bridge according to a plurality of box bodies, the purpose of conveniently installing the box body is achieved.

When the box body is conveniently installed at a road and bridge gap collapse position, the outer side casing is lifted to enable the box body to be located at the road and bridge gap collapse position, then the inner matching motor works to drive the side output rod to rotate, the middle rotating rod is enabled to rotate under the action of the side output rod, the clamping inner cavity and the inner transmission cavity, the middle rotating rod is fixedly connected with the top bevel gear in a matching mode, the top bevel gear is meshed with the side meshing bevel gear, so that the side meshing bevel gear can drive the rotating shaft to rotate, the rotating bevel gear is meshed with the driven bevel gear to enable the rotating shaft to indirectly drive the driven bevel gear to rotate, and the driven bevel gear is fixed with the driving gear to enable the driving gear to drive the meshing rack to slide in the box body after rotating, because the side connecting blocks, the meshing racks and the side connecting plates are fixedly connected in a matching way, the meshing racks can enable the middle rotating shaft and the fixed matching bevel gear to rotate under the action of meshing the rotating gear and the matching racks in the process of sliding relative to the matching racks and the box body, and because the rotating barrel is arranged in the side connecting blocks in a rotating way, under the action of meshing the side fixed bevel gear and the fixed matching bevel gear, the inner cavity of the barrel in the rotating barrel can drive the reinforcing steel bars to rotate and extend out of the box body at the same time after being loaded with the reinforcing steel bars, so that the design aims to enable the reinforcing steel bars to extend out of the box body to fully support the gap collapse part of the road and bridge while rotating under the action of external power, thereby facilitating the construction of personnel and improving the connection strength of the gap collapse part of the road and bridge, and can place the reinforcing bar of different specifications to make the apparatus all can set up in the both sides of the gap collapse place of the road and bridge, and can form the consecutive stable structure with the gap collapse place of the road and bridge, wherein the bevel gear of top side, side engagement bevel gear, axis of rotation, engagement rack, rotation bevel gear, driving gear, driven bevel gear, engagement rack, rotary drum, drum cavity, cooperation rack, side connecting block, intermediate shaft, fixed engagement bevel gear, side fixed bevel gear design advantage lie in, can utilize the above-mentioned drive structure to realize the stronger puncture ability in the course that the reinforcing bar rotates by utilizing the external power, improve the structural strength that the reinforcing bar punctures and enters the solid place of gap collapse place of the road and bridge, because there is the limit of the above-mentioned structure to realize this function, must rely on the external power source to realize the above-mentioned structural movement, and the steel bar is difficult to push the rotating cylinder or drive the rotating cylinder to rotate in the reverse direction, so that the whole integral rigid structure is indirectly formed.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal overall structure of a road and bridge crack processing device according to the present invention;

FIG. 2 is a schematic view at A in FIG. 1;

FIG. 3 is a schematic view at B of FIG. 1;

FIG. 4 is a schematic view of FIG. 1 taken along direction C;

FIG. 5 is a schematic view at D of FIG. 4;

FIG. 6 is a schematic view at E in FIG. 4;

FIG. 7 is a side view of the outside housing of FIG. 4;

FIG. 8 is a schematic view at F of FIG. 7;

in the figure, a housing 11, an inner cavity 12, a rotation shaft 13, a side engaging bevel gear 14, a top bevel gear 16, a rotation bevel gear 21, a drive gear 23, a driven bevel gear 24, a transmission inner cavity 25, an engaging rack 26, a rotation cylinder 27, a cylinder inner cavity 28, a side connecting block 31, a side fixed bevel gear 32, a side connecting plate 33, an engaging rack 34, a rotating gear 35, an intermediate rotation shaft 36, a fixed engaging bevel gear 37, an intermediate rotation lever 41, an outer side casing 42, a side ring plate 43, a side block 51, a ring groove 52, a side connecting gear 53, an inner opening cavity 54, an inner driving motor 55, an engaging ring gear 56, a rotating connecting cylinder 61, an inner screw thread moving plate 62, a side cavity 63, a rotation screw shaft 64, an engaging motor 66, an inner connecting slide groove 67, an intermediate slide block 68, an inner engaging motor 69, a side output rod 71, a chucking inner cavity 72, an inner transmission cavity 73, an inner screw hole 81, a slide inner hole 82, a slide hole 32, a slide hole, a side connecting slide rod 83, a fixed connecting plate 84 and a rotary threaded rod 86.

Detailed Description

As shown in fig. 1 to 8, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down left-right front-back direction is consistent with the up-down left-right front-back direction of the projection relation of the figure 1, the road bridge crack processing device comprises a box body 11, an inner cavity 12 is arranged in the box body 11, transmission inner cavities 25 positioned in the box body 11 are arranged on two sides of the inner cavity 12, the transmission inner cavities 25 are arranged in bilateral symmetry, a driving gear 23 is arranged in the transmission inner cavity 25 in a rotating way, a meshing rack 26 is arranged on one side of the driving gear 23 in a meshing way, a side connecting block 31 is arranged on one side of the meshing rack 26, a rotating cylinder 27 is arranged in the side connecting block 31 in a rotating way, a matching rack 34 is arranged in the box body 11, a cylinder inner cavity 28 is arranged in the rotating cylinder 27, a rotating shaft 13 in the left-right symmetry way is arranged in the inner cavity 12 in a rotating way, a side meshing bevel gear 14 is arranged on one side of the rotating shaft 13, a top side meshing bevel gear 16 is arranged on the top side of the side meshing bevel gear 14, and a middle rotating rod 41 is arranged in the top bevel gear 16, the middle rotating rod 41 is connected with the inner cavity 12 in a rotating fit mode, a power device which enables the meshing rack 26 and the side connecting block 31 to rotate and discharge the reinforcing steel bars loaded in the barrel inner cavity 28 after the top bevel gear 16 rotates is arranged in the box body 11, outer side casing bodies 42 which are mutually buckled are arranged on the outer sides of the box body 11, side ring plates 43 are arranged on the outer surfaces of the box body 11, buckling devices which enable the outer side casing bodies 42 to be firmly buckled are arranged between the outer side casing bodies 42, and internal transmission devices which enable the middle rotating rod 41 to be in power connection and enable the box body 11 and the outer side casing bodies 42 to rotate relatively are arranged in the outer side casing bodies 42 and the middle rotating rod 41 and enable the middle rotating rod 41 to rotate in multiple directions to enable the equipment to better rotate the reinforcing steel bars from different positions.

Beneficially, wherein, the power device includes a rotating bevel gear 21 disposed on one side of the rotating shaft 13, a driven bevel gear 24 is disposed on one side of the driving gear 23, the driven bevel gear 24 is disposed in engagement with the rotating bevel gear 21, an engagement rack 26 is disposed in engagement with the driving gear 23, a side connecting plate 33 is disposed on one side of the side connecting plate 31, an intermediate rotating shaft 36 is rotatably disposed in the side connecting plate 33, a rotating gear 35 is disposed on one side of the intermediate rotating shaft 36, the rotating gear 35 is disposed in engagement with a mating rack 34, a fixed mating bevel gear 37 is disposed on one side of the intermediate rotating shaft 36, a side fixed bevel gear 32 is disposed on the outer surface of the rotating cylinder 27, and the side fixed bevel gear 32 is disposed in engagement with the fixed mating bevel gear 37.

Advantageously, the fastening device comprises a sliding inner hole 82 and an internal threaded hole 81 respectively arranged in the outer side casings 42 on the two sides, the outer side casings 42 on the two sides are hinged, a side connecting sliding rod 83 is arranged in the sliding inner hole 82 in a sliding mode, a fixed connecting plate 84 is arranged on one side of the side connecting sliding rod 83, a rotating threaded rod 86 is arranged in the fixed connecting plate 84 in a rotating mode, the rotating threaded rod 86 is in threaded fit connection with the internal threaded hole 81, and the length of the rotating threaded rod 86 is smaller than the depth of the internal threaded hole 81.

Advantageously, the internal transmission device comprises an annular groove 52 arranged in the lateral ring plate 43, the lateral sleeve 42 is provided with a lateral block 51 at one side, the lateral block 51 is connected with the annular groove 52 in a sliding fit manner, a meshing toothed ring 56 is arranged in the lateral ring plate 43, an internal opening cavity 54 is arranged in the outer sleeve 42, an internal driving motor 55 is arranged in an end wall of the internal opening cavity 54, the internal driving motor 55 is provided with a lateral connecting gear 53 at one side in a power connection manner, the lateral connecting gear 53 extends into the meshing toothed ring 56, the meshing toothed ring 56 is arranged in a meshing manner with the lateral connecting gear 53, and the outer sleeve 42 is provided with a surrounding power assembly which can be connected with the middle rotating rod 41 in a power connection manner and can perform surrounding operation in the outer sleeve 42.

Beneficially, wherein, the surrounding power assembly includes a clamping inner cavity 72 disposed in the middle rotating rod 41, an internal connection sliding groove 67 is disposed in the outer side casing 42, a middle sliding block 68 is slidably disposed in the internal connection sliding groove 67, an internal matching motor 69 is disposed in the middle sliding block 68, an side output rod 71 is disposed on one side of the internal matching motor 69 in a power connection manner, a rotating connecting cylinder 61 is disposed on one side of the side output rod 71, an internal transmission cavity 73 is disposed in the rotating connecting cylinder 61, the rotating connecting cylinder 61 is connected with the clamping inner cavity 72 in a sliding and rotating matching manner, the internal transmission cavity 73 is connected with the side output rod 71 in a sliding and rotating matching manner, and a sliding structure enabling the rotating connecting cylinder 61 to rotate after sliding is disposed in the outer side casing 42.

Advantageously, the sliding structure comprises two side cavities 63 arranged in the outer side casing 42, a matching motor 66 is arranged on the top of each side cavity 63, a rotating threaded shaft 64 is arranged on one side of the matching motor 66 in a power connection mode, an internal thread moving plate 62 is arranged in each side cavity 63 in a sliding mode, the internal thread moving plate 62 is in threaded matching connection with the rotating threaded shaft 64, and the internal thread moving plate 62 is in rotating matching connection with the rotating connecting cylinder 61.

During initial state, above-mentioned device, subassembly and structure are in the out-of-service condition, and this equipment is carried out the during operation, can carry out multi-direction rotation with equipment on the one hand, make equipment can be in the crack of road and bridge department of collapsing can be abundant stretch into solid construction and form stable bearing structure and be convenient for personnel pour the very big structural firmness that has improved the crack of road and bridge department of collapsing.

When the device is operated, firstly, a person puts a reinforcing steel bar into the inner cavity 28 of the cylinder, and then the person needs to sleeve the outer side sleeves 42 hinged with each other on the outer surface of the box body 11, then the person can make the side connecting slide bar 83 slide in the sliding inner hole 82 under the action of making the rotating threaded rod 86 and the internal threaded hole 81 in threaded fit connection after rotating the rotating threaded rod 86, make the side connecting slide bar 83 rotate relative to the sliding inner hole 82 after making the rotating threaded rod 86 completely separated from the threaded fit connection of the internal threaded hole 81, make the side connecting slide bar 83 and the fixed connecting plate 84 rotate with each other between the outer side sleeves 42 after rotating, make the outer side sleeves 42 conveniently sleeve on the outer surface of the box body 11, and then make the rotating threaded rod 86 and the internal threaded hole 81 in threaded fit connection again, so that the structure consisting of the side connecting slide bar 83, the fixed connecting plate 84 and the rotating threaded rod 86 can firmly lock the outer side sleeves 42, the design can give consideration to firm and convenient unlocking and locking between the outer side sleeves 42, greatly improve the stability of the outer side sleeves 42 rotating relative to the box body 11, and then make the side block 51 and the ring groove 52 on one side of the outer side sleeves 42 connected in a sliding fit manner, and the side connecting gear 53 meshed with the meshing ring gear 56, so that the driving side connecting gear 53 can rotate after the internal driving motor 55 works, and make the side connecting gear 53 drive the box body 11 to do the rotary motion of the axis in the left and right direction, and at the same time, the rotating connecting cylinder 61 and the clamping inner cavity 72 in the middle rotating rod 41 need to be connected in a sliding and rotating fit manner, because the middle sliding block 68 slides in the inner connecting sliding groove 67 in an annular manner, and the internal thread 66 can drive the rotating movable plate threaded shaft 64 to rotate after working, so that the rotating connecting cylinder 61 is driven by the internal thread 62 to be connected with the clamping inner cavity 72 in a sliding and rotating fit manner, the side output rod 71 is connected with the rotating connecting cylinder 61 in a sliding and rotating fit manner through the internal transmission cavity 73, so that the rotation of the side output rod 71 can be transmitted to the middle rotating rod 41, and the middle rotating rod 41 can rotate, therefore, the design aims to ensure that the internal fit motor 69 is required to transmit power to the middle rotating rod 41 to rotate as the middle rotating rod 41 and the box body 11 rotate around the inside of the outer side casing 42, and the inner structure of the outer side casing 42 is not always fixed on the outer sides of the middle rotating rod 41 and the box body 11, so that the box body 11 can be respectively driven to rotate and then installed at the gap collapse position of a road bridge aiming at a plurality of box bodies 11, and the aim of conveniently installing the box body 11 is fulfilled.

When the box body 11 is conveniently installed at the gap collapse position of a road bridge, the outer side casing 42 is lifted to enable the box body 11 to be located at the gap collapse position of the road bridge, then the inner matching motor 69 works to drive the side output rod 71 to rotate, the middle rotating rod 41 is rotated under the action of the side output rod 71, the clamping inner cavity 72 and the inner transmission cavity 73, the middle rotating rod 41 is fixedly matched and connected with the top bevel gear 16, the top bevel gear 16 is meshed with the side meshing bevel gear 14, the side meshing bevel gear 14 can drive the rotating shaft 13 to rotate, the rotating bevel gear 21 is meshed with the driven bevel gear 24 to enable the rotating shaft 13 to indirectly drive the driven bevel gear 24 to rotate, the driving gear 23 drives the meshing rack 26 to slide in the box body 11 after rotating due to the fact that the driven bevel gear 24 is fixed with the driving gear 23, and the side connecting block 31, The meshing rack 26 is fixedly matched and connected with the side connecting plate 33, so that the meshing rack 26 rotates under the action of meshing the rotating gear 35 and the matching rack 34 in the process of sliding relative to the matching rack 34 and the box body 11, and the middle rotating shaft 36 and the fixed matching bevel gear 37 rotate because the rotating cylinder 27 is arranged in the side connecting block 31 in a rotating way, under the action of meshing the side fixed bevel gear 32 and the fixed matching bevel gear 37, the cylinder inner cavity 28 in the rotating cylinder 27 can drive the reinforcing steel bars to rotate and extend out of the box body 11 at the same time after being loaded with the reinforcing steel bars, so that the design aims to enable the reinforcing steel bars to rotate and extend out of the box body 11 to fully support the gap collapse part of the road and bridge under the action of external power, thereby facilitating the construction of personnel and improving the connecting strength of the gap collapse part of the road and bridge, and reinforcing steel bars with different specifications can be placed to enable equipment to be arranged at two sides of the gap collapse part of the road and bridge, and can form the continuous stable structure with the road and bridge gap collapse place, wherein the design advantage of the top bevel gear 16, the side bevel gear 14, the rotating shaft 13, the meshing rack 26, the rotating bevel gear 21, the driving gear 23, the driven bevel gear 24, the meshing rack 26, the rotating cylinder 27, the cylinder cavity 28, the matching rack 34, the side connecting block 31, the middle rotating shaft 36, the fixed matching bevel gear 37 and the side fixed bevel gear 32 is that the strong puncture capability can be kept in the process of utilizing the transmission structure to realize the rotation of the steel bars by utilizing the external power, the structural strength of the solid place where the steel bars puncture into the road and bridge gap collapse place is improved, because the limiting limit of the structure is adopted to realize the function, the structural action can be realized only by depending on the external power source, and the steel bars push the rotating cylinder 27 or drive the rotating cylinder 27 to rotate difficultly in the reverse direction, to indirectly integrate the above into a complete rigid structure.

The above is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a road and bridge crack processing apparatus, includes the box, be provided with the inner chamber in the box, the inner chamber both sides are provided with and are located the transmission inner chamber of box, transmission inner chamber bilateral symmetry sets up, the internal rotation of transmission inner chamber is provided with the driving gear, the meshing of driving gear one side is provided with the meshing rack, meshing rack one side is provided with the side connecting block, the internal rotation of side connecting block is provided with the rotary drum, be provided with the cooperation rack in the box, be provided with a section of thick bamboo inner chamber in the rotary drum, the internal rotation of inner chamber is provided with bilateral symmetry's axis of rotation, axis of rotation one side is provided with side meshing bevel gear, side meshing bevel gear top side meshing is provided with top side bevel gear, be provided with middle swinging jib in the top side bevel gear, middle swinging jib with the inner chamber normal running fit is connected, be provided with in the box make after top side bevel gear rotates meshing rack and side connecting block can be connected with the side connecting block The outer side casings are provided with buckling devices for firmly buckling the outer side casings, the outer side casings and the middle rotary rod are internally provided with internal transmission devices which can dynamically connect the middle rotary rod and enable the box body and the outer side casings to rotate relatively, so that the middle rotary rod can rotate in multiple directions to enable the equipment to better rotate the reinforcing steel bars from different positions;

The power device comprises a rotating bevel gear arranged on one side of the rotating shaft, a driven bevel gear is arranged on one side of the driving gear, the driven bevel gear is meshed with the rotating bevel gear, the meshed rack is meshed with the driving gear, a side connecting plate is arranged on one side of the side connecting plate, a middle rotating shaft is arranged in the side connecting plate in a rotating mode, a rotating gear is arranged on one side of the middle rotating shaft and meshed with the matched rack, a fixed matched bevel gear is arranged on one side of the middle rotating shaft, a side fixed bevel gear is arranged on the outer surface of the rotating cylinder, and the side fixed bevel gear is meshed with the fixed matched bevel gear;

the internal transmission device comprises an annular groove arranged in the side annular plate, one side of the outer side casing is provided with a side block, the side block is connected with the annular groove in a sliding fit manner, a meshing gear ring is arranged in the side annular plate, an internal opening cavity is arranged in the outer side casing, an internal driving motor is arranged in the end wall of the internal opening cavity, one side of the internal driving motor is provided with a side connecting gear in a power connection manner, the side connecting gear extends into the meshing gear ring, the meshing gear ring is meshed with the side connecting gear, and a surrounding power assembly which can be in power connection with the middle rotating rod to rotate and can perform surrounding operation in the outer side casing is arranged in the outer side casing;

The surrounding power assembly comprises a clamping inner cavity arranged in the middle rotary rod, an inner connecting sliding groove is arranged in the outer side casing, a middle sliding block is arranged in the inner connecting sliding groove in a sliding manner, an inner matching motor is arranged in the middle sliding block, a side output rod is arranged on one side of the inner matching motor in a power connection manner, a rotary connecting cylinder is arranged on one side of the side output rod, an inner transmission cavity is arranged in the rotary connecting cylinder, the rotary connecting cylinder is connected with the clamping inner cavity in a sliding and rotating matching manner, the inner transmission cavity is connected with the side output rod in a sliding and rotating matching manner, and a sliding structure which enables the rotary connecting cylinder to rotate after sliding is arranged in the outer side casing;

wherein, sliding construction including set up in the side chamber in the lateral sleeve shell, the side chamber is provided with two, the side chamber top is provided with the cooperation motor, cooperation motor one side power connection is provided with the rotation threaded spindle, the gliding internal thread movable plate that is provided with in the side chamber, the internal thread movable plate with rotation threaded spindle screw-thread fit connects, the internal thread movable plate with rotating connecting cylinder normal running fit connects, side connecting block, meshing rack and side connecting plate fixed coordination connect.

2. A road and bridge crack treatment device as claimed in claim 1, wherein: the lock device is including setting up respectively in both sides smooth hole and internal thread hole in the outside cover shell, both sides articulated setting between the outside cover shell, slide the interior gliding side of being provided with of hole and connect the slide bar, slide bar one side is connected to the side and is provided with fixed connection board, the fixed connection board internal rotation be provided with the rotation threaded rod, the rotation threaded rod with internal thread hole screw-thread fit connects, the length of rotation threaded rod is less than the degree of depth in internal thread hole.