CN114657900A

CN114657900A - Bridge is consolidated and is picked chisel machine with reinforcement that has cutting depth measurement function

Info

Publication number: CN114657900A
Application number: CN202210307660.9A
Authority: CN
Inventors: 王世杰; 侯宇新; 刁万民; 王士全; 武俊刚
Original assignee: Heilongjiang Institute of Technology
Current assignee: Heilongjiang Institute of Technology
Priority date: 2022-03-25
Filing date: 2022-03-25
Publication date: 2022-06-24
Anticipated expiration: 2042-03-25
Also published as: CN114657900B

Abstract

The invention discloses a reinforcing and chiseling machine with a chiseling depth measuring function for bridge reinforcement, and relates to the field of chiseling machines. The reinforcing chiseling machine with the chiseling depth measuring function for bridge reinforcement is provided, the chiseling trolleys suitable for multiple terrains can be suitable for running on different concrete surfaces, power output is timely adjusted while stability of a vehicle body is guaranteed, and stability of power output is maintained while a chiseling disc is attached to an arc surface.

Description

Bridge is consolidated and is rejected chisel machine with reinforcement that has cutting depth measurement function

Technical Field

The invention relates to the field of chiseling machines, in particular to a reinforcing chiseling machine with a chiseling depth measuring function for bridge reinforcing.

Background

Along with the development of the bridge construction industry in China in recent years, various bridges are pulled out, after concrete is poured and solidified, the surface of concrete at a shear wall needs to be roughened, so that the upper layer concrete and the upper layer concrete can be well combined to play a role in reinforcement, and the roughening treatment needs to be applied to a chiseling machine.

The conventional picking and chiseling machine has the following common problems: at present, in the bridge building industry, the rough treatment of the concrete surface still uses manual operation, the labor intensity is high, dust pollution is easy to generate, meanwhile, the requirement of the rough treatment of the smooth surface of the concrete is difficult to achieve, and particularly, in response to some poured arc surface concrete products, the prior art cannot ensure the attachment of a chisel tool and an arc surface, so that the unsmooth feeling of the concrete surface of the arc surface area is insufficient.

Disclosure of Invention

The invention aims to provide a reinforcing and chiseling machine with a chiseling depth measuring function for reinforcing a bridge, and the reinforcing and chiseling machine is used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a bridge is consolidated with consolidating and picks chisel machine that has excavation depth measurement function, includes bottom plate and multidirectional drive mechanism, the first half installs multidirectional drive mechanism on the bottom plate, multidirectional drive mechanism includes motor, master gear, frame, pinion, transfer line, top finger dish and stock, the master gear is installed in motor bottom output transmission, and motor fixed mounting is in the bottom plate top middle-end, the coaxial frame of installing of master gear bilateral symmetry, and frame mid-rotation installs the pinion, the motor passes through the master gear and is connected with the pinion meshing transmission, and the coaxial transfer line that installs in pinion middle part, the transfer line is kept away from pinion one end transmission and is connected with top finger dish, and the stock middle part cover is equipped with the stock.

Furthermore, the multidirectional transmission mechanism further comprises a bottom finger disc, a bearing seat and a scabbling disc, the bottom finger disc is installed at the bottom of the top finger disc in a meshed mode, the bearing seat is arranged at the bottom of the bottom finger disc, the scabbling disc is rotatably installed at the bottom of the bearing seat, and the bottom finger disc is in coaxial transmission connection with the scabbling disc through the bearing seat.

Furthermore, the multidirectional transmission mechanism further comprises an extension arm and a toggle joint, the extension arm with an L-shaped section is fixedly mounted on the side face of the bearing seat, the toggle joint is arranged at the tail end of the output of the extension arm, and the sleeve frame is rotatably connected with the extension arm through the toggle joint.

Furthermore, a middle frame is fixedly mounted in the middle of the bottom plate, an anti-tilt gear is rotatably mounted at the middle end of the top of the middle frame, bevel gears are mounted on two sides of the bottom of the anti-tilt gear in a meshed mode, and an anti-tilt rod is coaxially mounted in the middle of each bevel gear.

Furthermore, the end, far away from the bevel gear, of the anti-roll rod is rotatably connected with a rocker arm, a power supply is arranged on the left side of the bottom of the rocker arm, a driving wheel is rotatably mounted on the right side of the bottom of the rocker arm, and the power supply is electrically connected with the driving wheel.

Furthermore, the right side of the top of the rocker arm is rotatably connected with a bogie, a bearing seat is arranged in the middle of the bogie in a penetrating mode, and driven wheels are symmetrically and rotatably arranged at the upper end and the lower end of the bogie.

Further, measuring mechanism is installed to bottom plate the latter half, measuring mechanism includes end plate, sleeve, drive groove and scale rack, the terminal bilateral symmetry fixed mounting of end plate has the sleeve, and end plate and bottom plate integral type fixed connection, the drive groove of arc structure is seted up at sleeve right side middle part, and the inside slidable mounting of sleeve has the scale rack.

Furthermore, the measuring mechanism further comprises a shaft bracket and a rotating rod, wherein the shaft brackets are symmetrically and fixedly arranged on the end surfaces of the two sides of the end plate, and the rotating rod is rotatably arranged in the middle of the shaft bracket.

Furthermore, the measuring mechanism also comprises a toothed handle, the toothed handles are symmetrically sleeved on two sides of the rotating rod and are in meshed transmission connection with the scale rack through a driving groove.

Further, the measuring mechanism further comprises an engaging wheel, an engaging strip and an air cylinder, the engaging wheel is sleeved in the middle of the rotating rod, the engaging strip is installed at the bottom of the engaging wheel in an engaging mode, the engaging strip is connected with the gear handle through the engaging wheel in a transmission mode, and the air cylinder is arranged at the input end of the back face of the engaging strip.

Compared with the prior art, the invention has the beneficial effects that: the reinforcing chiseling machine with the chiseling depth measuring function for bridge reinforcement is provided, the chiseling trolleys suitable for multiple terrains can be suitable for running on different concrete surfaces, power output is timely adjusted while stability of a vehicle body is guaranteed, and stability of power output is maintained while a chiseling disc is attached to an arc surface.

1. The anti-toppling mechanism has the greatest advantage that all the connections are allowed to move relatively, so that the average pitch angle from each anti-toppling rod of the chiseling trolley to the body part is maintained, and the stability of the body is improved.

2. According to the invention, through the arrangement of the steering frames, the independent steering frames on two sides of the top of the pick-and-chisel trolley are beneficial to keeping proper load distribution on different terrain environments so as to keep stability, when the poured uneven concrete bottom surface is met, the driven wheels on two sides of the top of the steering frames swing along with the fluctuation of the terrain, the fact that the scabbling disk on the bottom of the middle end of the steering frame is always attached to the arc-shaped concrete bottom surface is ensured, and the driving wheel driven by a power supply behind the rocker arm provides power for the operation of the pick-and-chisel trolley, so that the pick-and-chisel trolley can smoothly and stably pass through different concrete surfaces.

3. According to the invention, through the arrangement of the multidirectional transmission mechanism, the bogie continuously swings in the operation process of the picking trolley, so that the problem of power input of the chiseling disk is solved, and in order to ensure the stability of the power input of the chiseling disk, the motor drives the main gear to rotate through the arrangement of the multidirectional transmission mechanism, when the bottom plate swings in the operation process of the picking trolley, the output end frame of the motor coaxially rotates, the pinion still can be in meshing transmission with the main gear, the power is transmitted to the transmission rod in the middle of the pinion through the main gear and is transmitted to the chiseling disk through the power steering transmission, no matter how the vehicle body swings, the power of the motor can be stably transmitted to the chiseling disk all the time, and the chiseling disk has a stable power input source when attached to the arc-shaped concrete surface.

4. According to the invention, through the arrangement of the double finger plates, the scabbling plate is in coaxial transmission connection with the bottom finger plate through the bearing seat, the longitudinal transmission direction of the bottom finger plate is kept unchanged, through the finger-shaped meshing of the bottom finger plate and the top finger plate, when the output direction of the transmission rod is changed, the bottom finger plate and the top finger plate can still keep power transmission under the finger-shaped meshing, and the sleeve frame sleeved at the tail end of the transmission rod is arranged through a structure that the toggle joint rotates around the extension arm on the side surface of the bearing seat, so that the bottom finger plate and the top finger plate are always in a meshing state no matter how the input direction of the transmission rod is changed, and the power transmission interruption of the scabbling plate caused by the separation of the bottom finger plate and the top finger plate is prevented.

5. According to the invention, through the arrangement of the measuring mechanism, the cylinder is started to drive the meshing strip to slide in the groove in the middle part of the end plate, the meshing strip is meshed with the meshing wheel in the middle part of the rotating rod to drive the gear handles on two sides to rotate on the inner side of the shaft bracket, the gear handles are meshed and connected with the scale rack in the sleeve through the driving groove, so that the scale rack is positioned in the sleeve and slides and descends until the bottom sensor contacts the bottom of the excavated concrete, the excavation depth of the bottom surface of the concrete is measured and recorded, and the self-locking of the mechanism is realized through the meshing of the scale rack and the gear handles, so that the reading of the sensor is more stable and accurate, the synchronous ascending and descending of the scale racks on two sides can be ensured, the excavation depths of the bottom surfaces of two concrete can be measured in real time along with the processing rhythm of the front end burr plate, and the constancy of the excavation depth is ensured.

Drawings

FIG. 1 is a schematic view of an overall front view of a reinforcing and chiseling machine with a chiseling depth measuring function for bridge reinforcement according to the present invention;

FIG. 2 is a schematic view of an overall top view of a reinforcing and chiseling machine with a chiseling depth measuring function for bridge reinforcement according to the present invention;

FIG. 3 is a schematic top view of a multidirectional transmission mechanism of a reinforcing and chiseling machine with a chiseling depth measuring function for bridge reinforcement according to the present invention;

FIG. 4 is a schematic side view of a measuring mechanism of a reinforcing and chiseling machine with a chiseling depth measuring function for bridge reinforcement according to the present invention;

fig. 5 is a schematic front view of a measuring mechanism of a reinforcing and chiseling machine with a chiseling depth measuring function for reinforcing a bridge according to the present invention.

In the figure: 1. a base plate; 2. a middle frame; 3. an anti-roll gear; 4. a bevel gear; 5. an anti-roll bar; 6. a rocker arm; 7. a power source; 8. a drive wheel; 9. a bogie; 10. a driven wheel; 11. a multidirectional transmission mechanism; 1101. a motor; 1102. a main gear; 1103. a frame; 1104. a pinion gear; 1105. a transmission rod; 1106. a finger plate; 1107. sleeving a frame; 1108. a bottom finger plate; 1109. a bearing seat; 1110. chiseling a hair plate; 1111. an extension arm; 1112. a toggle joint; 12. a measuring mechanism; 1201. an end plate; 1202. a sleeve; 1203. a drive slot; 1204. a scale rack; 1205. a pedestal; 1206. a rotating rod; 1207. a gear handle; 1208. an engaging wheel; 1209. an engagement strip; 1210. and a cylinder.

Detailed Description

Referring to fig. 1-2, the present invention provides a technical solution: a reinforcing and chiseling machine with a chiseling depth measuring function for bridge reinforcement is characterized in that a middle frame 2 is fixedly installed in the middle of a bottom plate 1, an anti-tilt gear 3 is rotatably installed at the middle end of the top of the middle frame 2, bevel gears 4 are installed on two sides of the bottom of the anti-tilt gear 3 in a meshed mode, an anti-tilt rod 5 is coaxially installed in the middle of each bevel gear 4, one end, away from the bevel gear 4, of the anti-tilt rod 5 is rotatably connected with a rocker arm 6, a power supply 7 is arranged on the left side of the bottom of the rocker arm 6, a driving wheel 8 is rotatably installed on the right side of the bottom of the rocker arm 6, the power supply 7 is electrically connected with the driving wheel 8, a bogie 9 is rotatably connected to the right side of the top of the rocker arm 6, a bearing seat 1109 penetrates through the middle of the bogie 9, and driven wheels 10 are symmetrically and rotatably installed at the upper end and the lower end of the bogie 9;

when the concrete scraping vehicle is used, when the concrete scraping vehicle meets an uneven poured concrete bottom surface, driven wheels 10 on two sides of the top of a bogie 9 swing along with the fluctuation of the terrain, a scabbling disk 1110 at the bottom of the middle end of the bogie 9 is guaranteed to be attached to the arc-shaped concrete bottom surface all the time, a driving wheel 8 driven by a power supply 7 is arranged behind a rocker arm 6, power for the operation of the scraping vehicle is provided, the power can smoothly and stably pass through different concrete surfaces, the swing of the rocker arms 6 on two sides is transmitted to a bevel gear 4 at the tail end of an output through an anti-tilting rod 5, the bevel gears 4 on two sides are meshed with a middle anti-tilting gear 3, and the problem that the vehicle body topples due to the fact that the bevel gears 4 on two sides rotate synchronously and in the same direction is solved;

referring to fig. 3, the multidirectional transmission mechanism 11 comprises a bottom plate 1 and a multidirectional transmission mechanism 11, the multidirectional transmission mechanism 11 is mounted on the upper half portion of the bottom plate 1, the multidirectional transmission mechanism 11 comprises a motor 1101, a main gear 1102, a frame 1103, a secondary gear 1104, a transmission rod 1105, a top finger plate 1106 and a housing frame 1107, the main gear 1102 is mounted on an output end of the bottom of the motor 1101 in a transmission manner, the motor 1101 is fixedly mounted on the middle end of the top of the bottom plate 1, the frames 1103 are symmetrically and coaxially mounted on two sides of the main gear 1102, the secondary gear 1104 is rotatably mounted in the middle of the frame 1103, the motor 1101 is in meshing transmission connection with the secondary gear 1104 through the main gear 1102, the transmission rod 1105 is coaxially mounted in the middle of the secondary gear 1104, the top finger plate 1106 is in transmission connection with one end of the transmission rod 1105 far away from the secondary gear 1104, the housing frame 1107 is sleeved in the middle of the transmission rod 1105, the multidirectional transmission mechanism 11 further comprises a bottom finger plate 1108, a bearing seat 1109 and a chisel plate 1110, the bottom finger plate 1108 is mounted in meshing engagement with the bottom of the top finger plate 1106, the bottom of the bottom finger disc 1108 is provided with a bearing seat 1109, the bottom of the bearing seat 1109 is rotatably provided with a burr-chiseling disc 1110, the bottom finger disc 1108 is coaxially connected with the burr-chiseling disc 1110 through the bearing seat 1109 in a transmission manner, the multidirectional transmission mechanism 11 further comprises an extension arm 1111 and a toggle 1112, the side surface of the bearing seat 1109 is fixedly provided with the extension arm 1111 with an L-shaped section, the tail end of the output of the extension arm 1111 is provided with the toggle 1112, and the sleeve frame 1107 is rotatably connected with the extension arm 1111 through the toggle 1112;

in operation, the motor 1101 drives the main gear 1102 to rotate, when the soleplate 1 swings during the operation of the pick-up trolley, the output end frame 1103 of the motor 1101 rotates coaxially, the pinion 1104 can still keep meshing transmission with the main gear 1102, power is transmitted to the transmission rod 1105 in the middle of the pinion 1104 by the main gear 1102 and is transmitted to the picking disk 1110 by the steering transmission of the power, the picking disk 1110 is coaxially and drivingly connected with the bottom finger disk 1108 by the bearing seat 1109, the longitudinal transmission direction of the bottom finger disk 1108 is kept unchanged, the bottom finger disk 1108 and the top finger disk 1106 can still keep power transmission under finger meshing engagement when the output direction of the transmission rod 1105 changes by the finger-shaped transmission of the transmission rod 1108, the sleeve frame 1107 sleeved at the tail end of the transmission rod 1105 is arranged by the structure that the toggle 1112 rotates around the side surface 1111 of the bearing seat 1109, and no matter how the input direction of the transmission rod 1105 changes is ensured, the bottom finger plate 1108 and the top finger plate 1106 are always in a meshed state, the power transmission of the scabbling disc 1110 is prevented from being interrupted due to the separation of the bottom finger plate 1108 and the top finger plate 1106, the power of the motor 1101 can be always stably transmitted to the scabbling disc 1110 no matter how the car body swings, and a stable power input source is provided when the scabbling disc 1110 is attached to the arc-shaped concrete surface;

referring to fig. 4-5, a measuring mechanism 12 is mounted on the lower half portion of a bottom plate 1, the measuring mechanism 12 includes an end plate 1201, a sleeve 1202, a driving groove 1203 and a scale rack 1204, the sleeve 1202 is symmetrically and fixedly mounted on both sides of the end plate 1201, the end plate 1201 and the bottom plate 1 are integrally and fixedly connected, the driving groove 1203 of an arc structure is formed in the middle portion of the right side of the sleeve 1202, the scale rack 1204 is slidably mounted inside the sleeve 1202, the measuring mechanism 12 further includes a shaft bracket 1205 and a rotating rod 1206, the shaft bracket 1205 is symmetrically and fixedly mounted on both side end faces of the end plate 1201, the rotating rod 1206 is rotatably mounted in the middle of the shaft bracket 1205, the measuring mechanism 12 further includes a tooth handle 1207, the tooth handle 1207 is symmetrically mounted on both sides of the rotating rod 1206 and is in meshing transmission connection with the scale rack 1204 through the driving groove 1203, the measuring mechanism 12 further includes a meshing wheel 1208, a meshing strip 1209 and a cylinder 1210, the meshing wheel 1208 is mounted on the middle portion of the rotating rod 1206, and a meshing strip 1209 is mounted in meshing engagement at the bottom of the meshing wheel 1208, the meshing bar 1209 is in transmission connection with the tooth handle 1207 through a meshing wheel 1208, and an air cylinder 1210 is arranged at the input end of the back face of the meshing bar 1209;

the operation is as follows, the cylinder 1210 is started to drive the engaging strip 1209 to slide in the groove in the middle of the end plate 1201, through the engagement of the engaging bar 1209 with the engaging wheel 1208 on the middle of the rotating rod 1206, the rotating rod 1206 is driven to drive the two side toothed handles 1207 to rotate on the inner side of the shaft bracket 1205, the toothed handles 1207 are engaged with the graduated rack 1204 inside the sleeve 1202 through the driving slot 1203, the graduated rack 1204 is slidably lowered inside the sleeve 1202 until its bottom sensor contacts the bottom of the excavated concrete, the excavation depth of the concrete bottom surface is measured and recorded, the setting of the measuring mechanism 12, the self-locking of the mechanism is realized through the meshing of the scale racks 1204 and the toothed handle 1207, so that the reading of the sensor is more stable and accurate, the synchronous lifting of the scale racks 1204 at two sides can be ensured, the cutting depth of two concrete bottom surfaces can be measured in real time along with the processing rhythm of the front-end scabbling disk 1110, and the constancy of the cutting depth is ensured.

To sum up, a reinforcing and chiseling machine with a chiseling depth measuring function for bridge reinforcement, when in use, when encountering poured uneven concrete bottom surface, driven wheels 10 on two sides of the top of a bogie 9 swing along with the fluctuation of the terrain, so as to ensure that a chiseling disk 1110 at the bottom of the middle end of the bogie 9 is always attached to the arc concrete bottom surface, a driving wheel 8 driven by a power supply 7 is arranged behind a rocker arm 6, so as to provide power for the operation of the chiseling trolley, so that the chiseling trolley can smoothly and stably pass through different concrete surfaces, the swing of the rocker arms 6 on two sides is transmitted to a bevel gear 4 at the tail end of an output end through an anti-tilting rod 5, the bevel gears 4 on two sides are meshed with an anti-tilting gear 3 in the middle part, so as to prevent the problem that the bevel gears 4 on two sides rotate in the same direction to cause the overturning of a vehicle body, a motor 1101 drives a main gear 1102 to rotate, when a bottom plate 1 swings in the running process of the chiseling trolley, a frame 1103 at the output end of the motor 1101 coaxially rotates, the secondary gear 1104 can still keep engaged with the main gear 1102, the power is transmitted to the transmission rod 1105 at the middle part of the secondary gear 1104 from the main gear 1102 and is transmitted to the burr disc 1110 through the steering transmission of the power, the burr disc 1110 is coaxially and drivingly connected with the bottom finger disc 1108 through the bearing seat 1109, the longitudinal transmission direction of the bottom finger disc 1108 is kept unchanged, the bottom finger disc 1108 is meshed with the top finger disc 1106 through the finger joint of the bottom finger disc 1108 and the finger disc 1106, when the output direction of the transmission rod 1105 is changed, the power transmission can still be kept under the finger joint of the bottom finger disc 1108 and the top finger disc 1106, the sleeve frame 1107 sleeved at the tail end of the transmission rod 1105 is arranged in a structure that the sleeve frame 1107 rotates around the extension arm 1111 at the side of the bearing seat 1109 through the toggle joint 1112, the bottom finger disc 1108 and the top finger disc 1106 are always in the meshed state no matter how the input direction of the transmission rod 1105 is changed, the disconnection of the bottom finger disc 1108 and the top finger disc 1106 can be prevented from causing the interruption of the power transmission of the burr disc 1110, no matter how the vehicle body swings, the power of the motor 1101 can be stably transmitted to the scabbling disc 1110 all the time, the scabbling disc 1110 has a stable power input source when being attached to an arc-shaped concrete surface, the air cylinder 1210 is started to drive the meshing strip 1209 to be positioned in a groove in the middle of the end plate 1201 to slide, the meshing strip 1209 is meshed with the meshing wheel 1208 in the middle of the rotating rod 1206 to drive the tooth handles 1207 on two sides to be positioned on the inner side of the shaft bracket 1205 to rotate, the tooth handles 1207 are meshed and connected with the scale rack 1204 in the sleeve 1202 through the driving groove 1203, the scale rack 1204 is positioned in the sleeve 1202 to slide and descend until a bottom sensor of the scale rack contacts the bottom of the excavated concrete, and the excavation depth of the bottom surface of the concrete is measured and recorded.

Claims

1. The utility model provides a bridge is consolidated and is removed chisel machine with reinforcement that has cutting depth measurement function, its characterized in that includes bottom plate (1) and multidirectional drive mechanism (11), bottom plate (1) top half installs multidirectional drive mechanism (11), multidirectional drive mechanism (11) include motor (1101), master gear (1102), frame (1103), pinion (1104), transfer line (1105), top finger dish (1106) and set frame (1107), master gear (1102) is installed in motor (1101) bottom output transmission, and motor (1101) fixed mounting in bottom plate (1) top middle-end, frame (1103) bilateral symmetry coaxial installation has frame (1103), and frame (1103) mid-portion rotation installs pinion (1104), motor (1101) are connected with pinion (1104) meshing transmission through master gear (1102), and pinion (1104) mid-portion coaxial installation has transfer line (1105), one end of the transmission rod (1105), which is far away from the pinion (1104), is in transmission connection with a top fingerboard (1106), and the middle part of the transmission rod (1105) is sleeved with a sleeve frame (1107).

2. The reinforcing and chiseling machine with the cutting depth measuring function for bridge reinforcing according to claim 1, wherein the multidirectional transmission mechanism (11) further comprises a bottom finger disc (1108), a bearing seat (1109) and a chiseling disc (1110), the bottom of the top finger disc (1106) is engaged with the bottom finger disc (1108), the bearing seat (1109) is arranged at the bottom of the bottom finger disc (1108), the chiseling disc (1110) is rotatably arranged at the bottom of the bearing seat (1109), and the bottom finger disc (1108) is in coaxial transmission connection with the chiseling disc (1110) through the bearing seat (1109).

3. The bridge reinforcing and cutting machine with the cutting depth measuring function according to claim 2, wherein the multidirectional transmission mechanism (11) further comprises an extension arm (1111) and a toggle joint (1112), the extension arm (1111) with an L-shaped structure in section is fixedly installed on the side surface of the bearing seat (1109), the output end of the extension arm (1111) is provided with the toggle joint (1112), and the sleeve frame (1107) is rotatably connected with the extension arm (1111) through the toggle joint (1112).

4. The reinforcing and chipping machine with cutting depth measuring function for bridge reinforcing according to claim 1 is characterized in that a middle frame (2) is fixedly mounted in the middle of the bottom plate (1), an anti-roll gear (3) is rotatably mounted at the middle end of the top of the middle frame (2), bevel gears (4) are mounted on two sides of the bottom of the anti-roll gear (3) in a meshed mode, and anti-roll rods (5) are coaxially mounted in the middles of the bevel gears (4).

5. The reinforcing and rock-picking machine with cutting depth measuring function for bridge reinforcing according to claim 4, characterized in that one end of the anti-roll bar (5) far away from the bevel gear (4) is rotatably connected with a rocker arm (6), a power supply (7) is arranged on the left side of the bottom of the rocker arm (6), a driving wheel (8) is rotatably mounted on the right side of the bottom of the rocker arm (6), and the power supply (7) is electrically connected with the driving wheel (8).

6. The reinforcing and chiseling machine with the cutting depth measuring function for bridge reinforcing is characterized in that a bogie (9) is rotatably connected to the right side of the top of the rocker arm (6), a bearing seat (1109) is arranged in the middle of the bogie (9) in a penetrating mode, and driven wheels (10) are symmetrically and rotatably mounted at the upper end and the lower end of the bogie (9).

7. The bridge reinforcing is with consolidating and picking machine that has excavation depth measurement function of claim 1, characterized in that, measuring mechanism (12) is installed to bottom plate (1) the latter half, measuring mechanism (12) include end plate (1201), sleeve (1202), driving groove (1203) and scale rack (1204), the terminal bilateral symmetry fixed mounting of end plate (1201) has sleeve (1202), and end plate (1201) and bottom plate (1) integral type fixed connection, arc structure's driving groove (1203) has been seted up to sleeve (1202) right side middle part, and sleeve (1202) inside slidable mounting has scale rack (1204).

8. The reinforcing and chiseling machine with the cutting depth measuring function for bridge reinforcement according to claim 7, wherein the measuring mechanism (12) further comprises a shaft frame (1205) and a rotating rod (1206), the shaft frame (1205) is symmetrically and fixedly installed on the end surfaces of the two sides of the end plate (1201), and the rotating rod (1206) is rotatably installed in the middle of the shaft frame (1205).

9. The bridge reinforcing and cutting machine with the cutting depth measuring function according to claim 8, wherein the measuring mechanism (12) further comprises a toothed handle (1207), the toothed handle (1207) is symmetrically sleeved on two sides of the rotating rod (1206), and the toothed handle (1207) is in meshing transmission connection with the scale rack (1204) through the driving groove (1203).

10. The bridge reinforcing picks machine with reinforcement of excavation depth measurement function of claim 8, characterized in that, measuring mechanism (12) still includes meshing wheel (1208), meshing strip (1209) and cylinder (1210), bull stick (1206) middle part cover is equipped with meshing wheel (1208), and meshing wheel (1208) bottom meshing install meshing strip (1209), meshing strip (1209) are connected with tooth handle (1207) transmission through meshing wheel (1208), and meshing strip (1209) back input is provided with cylinder (1210).