CN111980002A - Drill rod detection device for foundation construction - Google Patents

Abstract

The invention relates to the technical field of drill rod detection devices, and discloses a drill rod detection device for foundation construction, which comprises an engineering truck, a folding assembly, a fixing frame, a drill rod detection striking device and a drill rod detection device, wherein the folding assembly is installed at the tail part of the engineering truck, the folding assembly is rotationally matched with the tail part of the engineering truck, the fixing frame is installed at the end part of the folding assembly, the drill rod detection striking device is installed at the top part of the fixing frame, the drill rod detection device is installed at the bottom part of the fixing frame, and the drill rod detection device is positioned right below the drill rod detection striking device; during the use earlier with the machineshop car to the construction ground that needs the borer to visit, start folding assembly and drive the borer and visit hitting the device and the borer is visited the device and is placed directly over the construction ground, start the borer and visit hitting the device and hit the borer and visit the device and hit, owing to adopted the machineshop car to drive the borer and visit the device and move, use folding assembly to visit the device to the borer and accomodate, solved among the prior art when different construction ground carry out the borer to visit the device and move the problem of comparatively troublesome extravagant manpower and materials.

Description

Drill rod detection device for foundation construction

Technical Field

The invention relates to the technical field of drill rod detection devices, in particular to a drill rod detection device for foundation construction.

Background

A special drilling and exploring machine for construction groove inspection in building engineering comprises a transmission host, a folding arm frame, a drop hammer, a hoisting chain and a exploring rod, and is characterized in that the folding arm frame is hinged on a belt wheel shaft, the other end of the folding arm frame is respectively hinged on a working shaft and a speed reduction wheel shaft together with a working shaft frame, the host is provided with an lengthening pin through the hoisting chain which is arranged on the speed reduction wheel shaft, the belt wheel shaft and a belt wheel transmission device on the working shaft and a chain wheel on the working shaft, and the drop hammer is provided with a guide hole which is matched with a guide rod in a sliding way; grooves are formed in the vertical direction; the inside of the groove is provided with a loose edge chain of the hoisting chain; the groove width is less than the length of the chain lengthening pin; the casing pipe of the working shaft bracket is internally provided with a driving head which is in clearance fit, a blind hole is arranged on the driving head, and the probe rod is inserted into the blind hole of the driving head. The drilling and exploring machine is an ideal electric machine for detecting the foundation of the building foundation construction. The falling distance of the machine can be automatically controlled to be 50cm, the hammer of 10 kilograms can automatically fall when the hammer rises to the set height of 50cm, the falling height of the hammer is not influenced by people, and the machine works stably and quickly. Under the condition of ensuring that a standard (light sounding) test method is not changed, mechanization and standardization can be realized, and the method can be conveniently used for geological and foundation compactness detection of buildings, roads and water conservancy geological systems. The drilling machine is only suitable for sandy soil, cohesive soil (including loess), artificial filling and looser granular small gravel soil. It is comparatively complicated to obtain the borer among the prior art and surveys device structure, and the borer is visited the device and is whole comparatively huge simultaneously, and operating personnel moves the borer and surveys the device and produce danger easily when other foundations.

Disclosure of Invention

The invention aims to provide a drill rod detection device for foundation construction, which aims to solve the technical problems that in the prior art, the drill rod detection device needs to be moved manually in the process of moving to each construction foundation, and the structure and the operation of the drill rod detection device are complex.

The embodiment of the invention provides a drill rod detection device for foundation construction, which comprises an engineering truck, a folding assembly, a fixing frame, a drill rod detection striking device and a drill rod detection device, wherein the folding assembly is installed at the tail part of the engineering truck, the folding assembly is in rotating fit with the tail part of the engineering truck, the fixing frame is installed at the end part of the folding assembly, the drill rod detection striking device is installed at the top of the fixing frame, the drill rod detection device is installed at the bottom of the fixing frame, and the drill rod detection device is positioned right below the drill rod detection striking device.

Further, the engineering truck comprises a truck head, an engineering truck traction plate and a first hydraulic rod overturning groove, wherein the engineering truck traction plate is arranged at the tail part of the truck head, the first hydraulic rod overturning groove is formed in one end of the engineering truck traction plate, and a folding assembly is arranged in the first hydraulic rod overturning groove.

Further, the folding assembly comprises two mounting plates, two hydraulic rods, two second mounting plates, moving rods, two rotating plates, two supporting rods and two connecting rods, the two mounting plates are respectively mounted on two sides of the first hydraulic rod turnover groove, two ends of the first mounting plate are respectively connected with the two mounting plates, the first mounting plate is in rotating fit with the two mounting plates, the first hydraulic rod is mounted on the first mounting plate, the second mounting plate is mounted at the driving end of the first hydraulic rod, the two rotating plates are respectively mounted at two ends of the second mounting plate, the two rotating plates are in rotating fit with the second mounting plate, the two moving rods are provided, one ends of the two rotating plates are respectively connected with one ends of the two moving rods, and the two rotating plates are in rotating fit with the two moving rods, the other ends of the two moving rods are respectively connected with two sides of the first hydraulic rod turnover groove, the two moving rods are respectively in rotating fit with two sides of the first hydraulic rod turnover groove, the supporting rods are installed at the other ends of the two rotating plates, the number of the first connecting rods is two, and one end of each of the two first connecting rods is respectively connected with two ends of each of the supporting rods.

Furthermore, the fixing frame comprises a fixing base, two fixing rods, two threaded rods, two rotating buttons, two fixing holes, two telescopic rods, a first shaft sleeve, a second shaft sleeve, a first rotating shaft, two connecting rods, a second rotating shaft and a first hinging frame, wherein the two fixing rods are respectively vertically arranged at two ends of the fixing base, the two fixing rods are arranged in a hollow manner, one side of each fixing rod is respectively provided with two fixing holes, threads are respectively arranged in the two fixing holes, the two threaded rods are respectively arranged in the two fixing holes, one ends of the two threaded rods are exposed out of the fixing holes, the two rotating buttons are respectively arranged at one end of the two threaded rods exposed out of the fixing holes, the two telescopic rods are respectively vertically sleeved on the two fixing rods, the two telescopic rods are respectively matched with the two fixed rods in a sliding way, the first shaft sleeves are two, the end parts of the two telescopic rods are respectively provided with a first shaft sleeve, two ends of the first rotating shaft are respectively connected with the two first shaft sleeves, the first rotating shaft is rotationally matched with the two first shaft sleeves, two connecting rods are arranged, one ends of the two connecting rods are respectively and vertically arranged on the two first shaft sleeves, the number of the first hinging frames is two, the two first hinging frames are respectively arranged at one side of the two connecting rods, the two first connecting rods are respectively connected with the two first hinging frames, two second shaft sleeves are respectively arranged at the other ends of the two connecting rods, two ends of the second rotating shaft are respectively connected with the two second shaft sleeves, and the second rotating shaft is in rotating fit with the two second shaft sleeves.

Furthermore, unable adjustment base is including grabbing the ground nail, it has four to grab the ground nail, four it installs respectively to grab the ground nail on four angles of unable adjustment base bottom.

Further, the borer is visited and is beaten device and is included cam pendulum subassembly and rotary driving subassembly, cam pendulum subassembly includes cam, driving plate, installation piece, installation pole and beats and beat, cam fixed mounting is on the second rotation axis, installation piece fixed mounting is on first rotation axis, the driving plate is installed to the one end of installation piece just the one end of driving plate with the cam contact, the one end of installation pole with the other end of installation piece is connected, the other end of installation pole is installed and is beaten.

Further, the rotary driving assembly comprises a motor, a first belt pulley, a belt and a second belt pulley, the motor is installed on the fixed base, the first belt pulley is installed on the driving end of the motor, the second belt pulley is installed on the second rotating shaft, and two ends of the belt are respectively sleeved on the first belt pulley and the second belt pulley.

Further, preferably, the drill detecting device comprises two second hydraulic rods, two second hinge brackets, a movable mounting plate, two third hinge brackets, two second connecting rods, two hinge blocks, two fourth hinge brackets and two drill detecting rods, wherein the two second hydraulic rods are respectively mounted on the fixed base and are respectively positioned at one side of the two fixed rods, the two second hinge brackets are respectively connected with the driving ends of the two second hydraulic rods, two ends of one side of the bottom of the movable mounting plate are respectively connected with the two second hinge brackets, two third hinge brackets are respectively mounted at two ends of one side of the bottom of the movable mounting plate, which is not hinged, the two fourth hinge brackets are respectively mounted at two end parts of one side of the fixed base, the hinge block has two, two the hinge block respectively with two the fourth articulated frame links up, the second links up the pole has two, two the both ends of second link up the pole respectively with two the third articulated frame links up with two the hinge block links up, borer probe rod is installed to one side of removal mounting panel, the last opening that is equipped with of unable adjustment base, borer probe rod output stretches out from the opening part.

Compared with the prior art, the invention has the beneficial effects that:

when the folding assembly is used, the folding assembly can be turned in a first hydraulic rod turning groove on the engineering truck so as to drive the drill rod detection device to be folded and stored on a traction plate of the engineering truck or place the drill rod detection device on a construction foundation needing drill rod detection from the traction plate of the engineering truck; when the folding assembly is used for placing the drilling detection device on a construction foundation needing drilling detection from a traction plate of an engineering truck, the first hydraulic rod is firstly driven to turn to a vertical state, the first hydraulic rod turns to drive the second mounting platform to rotate, the second mounting platform drives the two rotating plates to rotate, the two rotating plates drive the supporting rods to rotate so as to drive the two first connecting rods to rotate, so that the drilling detection device connected with the two first connecting rods rotates to the vertical state, the driving end of the first hydraulic rod is started to move upwards while the first hydraulic rod turns, the first hydraulic rod is stopped to be driven after the drilling detection device is horizontally contacted with the construction foundation needing drilling detection, the first hydraulic rod is turned towards the direction of a vehicle head and simultaneously drives the driving end of the first hydraulic rod to contract after the drilling detection device is folded and accommodated on the traction plate of the engineering truck, and then the first hydraulic rod is stopped to be driven, the whole process does not need to manually move the drilling detection device, and the workload of operators is saved.

Secondly, the drill rod detection striking device and the drill rod detection device are arranged on the fixing frame, the drill rod detection striking device is simultaneously arranged on the first rotating shaft on the telescopic rod, and the length of the telescopic rod in the fixing rod can be controlled through rotation of the threaded rod in the fixing hole, so that the height of the drill rod detection striking device is adjusted, and the problem of controlling the height and the falling distance of a falling hammer is solved.

Thirdly, when an operator conducts drill rod detection work, the operator needs to use a drill rod detection striking device to strike the drill rod detection device, a motor is started firstly, a driving end of the motor rotates to drive a first belt pulley to rotate, the first belt pulley drives a belt to move, the belt drives a second belt pulley to rotate, the second belt pulley drives a second rotating shaft to rotate, the second rotating shaft drives a cam to rotate, the cam rotates to drive a transmission plate to swing up and down, the transmission plate drives an installation block and simultaneously drives an installation rod to swing up and down, and the installation rod drives the striking hammer to swing up and down so as to strike the drill rod detection device below the striking hammer; when the drill rod detection operation is started, the drill rod detection striking device is started, a striking hammer strikes the drill rod detection rod, the drill rod detection rod is driven to move downwards to perform drill rod detection on a construction foundation, meanwhile, the drill rod detection rod also drives the output ends of the two second hydraulic rods to move downwards, the movable mounting platform can also move downwards, after the drill rod detection work is completed, the output ends of the two second hydraulic rods are driven to move upwards until the height of the drill rod detection before the recovery work is completed, and compared with the prior art, the structure is simpler and more convenient to operate when the drill rod detection operation is performed on the construction foundation.

The ground grabbing nail is arranged, when the folding assembly drives the drill rod detection device to be placed on a construction foundation in use, the fixing base is directly and horizontally contacted with the ground, the ground grabbing nail is pricked into the ground, and the stability of the drill rod detection device during drill rod detection work can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic representation of the three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the folding member and the fixing frame according to the present invention;

FIG. 3 is a schematic structural view of a fixing frame and a drill detecting striking device according to the present invention;

FIG. 4 is a schematic structural view of a fixing frame and a drilling device according to the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

fig. 6 is a schematic structural view of the drill rod detecting device accommodated in the engineering truck.

Reference numerals: the engineering truck comprises an engineering truck 1, a truck head 11, an engineering truck traction plate 12, a hydraulic rod overturning groove 13, a folding assembly 2, a mounting plate 21, a first mounting table 22, a first hydraulic rod 23, a second mounting table 24, a moving rod 25, a rotating plate 26, a supporting rod 27, a first connecting rod 28, a fixing frame 3, a fixing base 31, a fixing rod 32, a threaded rod 33, a rotating button 34, a fixing hole 35, a telescopic rod 36, a first shaft sleeve 37, a second shaft sleeve 38, a first rotating shaft 39, a connecting rod 391, a second rotating shaft 392, a first hinge frame 393, a ground grabbing nail 4, a drill detecting and striking device 5, a cam pendulum assembly 51, a cam 511, a transmission plate 512, a mounting block 513, a mounting rod 514, a hammer 515, a rotating driving assembly 52, a motor 521, a first belt pulley 522, a belt 523, a second belt pulley 524, a drill detecting device 6, a second hydraulic rod 61, a second hinge frame 62, a moving mounting plate 63, a third hinge frame 64, A second joint rod 65, a hinge block 66, a fourth hinge frame 67 and a drill rod 68.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, an embodiment of the present invention provides a drill rod detection device for foundation construction, including an engineering truck 1, a folding assembly 2, a fixing frame 3, a drill rod detection striking device 5 and a drill rod detection device 6, where the folding assembly 2 is installed at the tail of the engineering truck 1, the folding assembly 2 is rotatably matched with the tail of the engineering truck 1, the fixing frame 3 is installed at the end of the folding assembly 2, the drill rod detection striking device 5 is installed at the top of the fixing frame 3, the drill rod detection device 6 is installed at the bottom of the fixing frame 3, and the drill rod detection device 6 is located right below the drill rod detection striking device 5; during the use, operating personnel opens engineering van 1 to the construction ground that needs carry out the borer and visit earlier, the construction ground is aimed at to the rear of a vehicle, start folding assembly 2 after that, folding assembly 2 drives mount 3 and places on the construction ground that needs the borer to visit, install the borer on mount 3 and visit and hit and beat device 5 and borer and visit device 6 and be located the construction ground directly over, it visits and hit device 5 and hit to hit and beat the borer to borer and visit device 6 and carry out the borer to the construction ground to start the borer at last, owing to adopted engineering van 1 to drive borer and visit device 6 and remove, use folding assembly 2 to visit device 6 and accomodate, thereby solved among the prior art when different construction grounds carry out the borer and visit device 6 remove the problem of.

Preferably, the engineering truck 1 comprises a truck head 11, an engineering truck traction plate 12 and a hydraulic rod overturning groove 13, wherein the engineering truck traction plate 12 is installed at the tail of the truck head 11, the hydraulic rod overturning groove 13 is arranged at one end of the engineering truck traction plate 12, and the folding assembly 2 is installed in the hydraulic rod overturning groove 13; thereby folding subassembly 2 can drive the folding engineering truck traction plate 12 of accomodating of borer detection device 6 in hydraulic stem overturning groove 13 on engineering truck 1 is turned over or place the construction ground that needs the borer to visit on the borer detection device 6 follow engineering truck traction plate 12.

Preferably, the folding assembly 2 includes two mounting plates 21, two mounting plates 22, two hydraulic rods 23, two mounting plates 24, a moving rod 25, two rotating plates 26, a support rod 27 and a first connecting rod 28, the two mounting plates 21 are respectively mounted on two sides of the hydraulic rod turnover groove 13, two ends of the first mounting plate 22 are respectively connected to the two mounting plates 21, the first mounting plate 22 is rotatably fitted to the two mounting plates 21, the first hydraulic rod 23 is mounted on the first mounting plate 22, the second mounting plate 24 is mounted at a driving end of the first hydraulic rod 23, the two rotating plates 26 are respectively mounted at two ends of the second mounting plate 24, the two rotating plates 26 are rotatably fitted to the second mounting plate 24, the two moving rods 25 are provided, one ends of the two rotating plates 26 are respectively connected to one ends of the two moving rods 25, the two rotating plates 26 are in rotating fit with the two moving rods 25, the other ends of the two moving rods 25 are respectively connected with two sides of the hydraulic rod overturning groove 13, the two moving rods 25 are respectively in rotating fit with two sides of the hydraulic rod overturning groove 13, a supporting rod 27 is installed at the other ends of the two rotating plates 26, the number of the first connecting rods 28 is two, and one end of each of the two first connecting rods 28 is respectively connected with two ends of the supporting rod 27; when the folding assembly 2 is used for placing the drill rod detection device 6 on a construction foundation needing drill rod detection from the engineering vehicle traction plate 12, the first hydraulic rod 23 is firstly driven to turn to a vertical state, the first hydraulic rod 23 turns to drive the second installation platform 24 to rotate, the second installation platform 24 drives the two rotary plates 26 to rotate, the two rotary plates 26 drive the support rods 27 to rotate so as to drive the two first connecting rods 28 to rotate, so that the drill rod detection device 6 connected with the two first connecting rods 28 rotates to a vertical state, the driving end of the first hydraulic rod 23 is started to move upwards while the first hydraulic rod 23 turns, the first hydraulic rod 23 is stopped being driven until the drill rod detection device 6 is horizontally contacted with the construction foundation needing drill rod detection, after the drill rod detection work is finished, the first hydraulic rod 23 is turned towards the direction of the vehicle head 11 and simultaneously drives the driving end of the first hydraulic rod 23 to contract until the drill rod detection device 6 is folded and accommodated on the engineering vehicle traction plate 12, and then the first hydraulic rod 23 is stopped being driven, the whole process does not need to manually move the drilling device 6, so that the workload of operators is saved.

Preferably, the fixing frame 3 includes a fixing base 31, two fixing rods 32, two threaded rods 33, two rotating buttons 34, two fixing holes 35, two telescopic rods 36, a first shaft sleeve 37, a second shaft sleeve 38, a first rotating shaft 39, a connecting rod 391, a second rotating shaft 392 and a first hinge frame 393, the two fixing rods 32 are respectively vertically installed at both ends of the fixing base 31, the two fixing rods 32 are hollow, the two fixing holes 35 are provided, two fixing holes 35 are respectively provided at one side of the two fixing rods 32, threads are respectively provided in the two fixing holes 35, the two threaded rods 33 are respectively installed in the two fixing holes 35, one ends of the two threaded rods 33 are exposed out of the fixing holes 35, the two rotating buttons 34 are provided, the two rotating buttons 34 are respectively installed at one ends of the two threaded rods 33 exposed out of the fixing holes 35, the number of the telescopic rods 36 is two, the two telescopic rods 36 are respectively vertically sleeved on the two fixing rods 32, the two telescopic rods 36 are respectively in sliding fit with the two fixing rods 32, the number of the first shaft sleeves 37 is two, the end portions of the two telescopic rods 36 are respectively provided with the first shaft sleeves 37, both ends of the first rotating shaft 39 are respectively connected with the two first shaft sleeves 37, the first rotating shaft 39 is rotatably matched with the two first shaft sleeves 37, the number of the connecting rods 391 is two, one end of each of the two connecting rods 391 is respectively vertically arranged on the two first shaft sleeves 37, the number of the first hinge brackets 393 is two, the two first hinge brackets 393 are respectively arranged at one side of the two connecting rods 391, the two first connecting rods 28 are respectively connected with the two first hinge brackets 393, the number of the second shaft sleeves 38 is two, the two second shaft sleeves 38 are respectively arranged at the other ends of the two connecting rods 391, both ends of the second rotating shaft 392 are respectively connected with the two second shaft sleeves 38, and the second rotating shaft 392 is rotatably matched with the two second shaft sleeves 38; install on mount 3 that the borer is visited and hit and beat device 5 and borer and visit device 6, the borer is visited and is hit and hit device 5 and install again on the first rotation axis 39 on telescopic link 36 simultaneously, can control the length of telescopic link 36 in dead lever 32 through the rotation of threaded rod 33 in fixed orifices 35 to realize that the adjustment borer is visited and is hit the height of hitting device 5, thereby solved the problem of control drop hammer height and drop distance.

Preferably, the fixed base 31 includes four ground-grasping nails 4, and the four ground-grasping nails 4 are respectively installed at four corners of the bottom of the fixed base 31; when folding assembly 2 drive borer is visited device 6 and is placed on the construction ground, unable adjustment base 31 and the direct horizontal contact in ground grab ground nail 4 and prick into ground, can improve the borer and visit the stability of device 6 during operation.

Preferably, the drill striking device 5 comprises a cam pendulum assembly 51 and a rotary driving assembly 52, wherein the cam pendulum assembly 51 comprises a cam 511, a transmission plate 512, a mounting block 513, a mounting rod 514 and a striking hammer 515, the cam 511 is fixedly mounted on a second rotating shaft 392, the mounting block 513 is fixedly mounted on a first rotating shaft 39, one end of the mounting block 513 is provided with the transmission plate 512, one end of the transmission plate 512 is in contact with the cam 511, one end of the mounting rod 514 is connected with the other end of the mounting block 513, and the other end of the mounting rod 514 is provided with the striking hammer 515;

the rotary driving assembly 52 comprises a motor 521, a first belt pulley 522, a belt 523 and a second belt pulley 524, the motor 521 is installed on the fixed base 31, the first belt pulley 522 is installed on a driving end of the motor 521, the second belt pulley 524 is installed on the second rotating shaft 392, and two ends of the belt 523 are respectively sleeved on the first belt pulley 522 and the second belt pulley 524; when an operator performs drill rod detection work, firstly, the drill rod detection device 5 needs to be used for striking the drill rod detection device 6, the motor 521 is started firstly, the driving end of the motor 521 rotates to drive the first belt pulley 522 to rotate, the first belt pulley 522 drives the belt 523 to move, the belt 523 moves to drive the second belt pulley 524 to rotate, the second belt pulley 524 drives the second rotating shaft 392 to rotate, the second rotating shaft 392 drives the cam 511 to rotate, the rotation of the cam 511 drives the transmission plate 512 to swing up and down, the transmission plate 512 drives the installation block 513 and simultaneously drives the installation rod 514 to swing up and down, and the installation rod 514 drives the striking hammer 515 to swing up and down so as to strike the drill rod detection device 6 located below the striking hammer 515.

Preferably, the drill detecting device 6 includes two second hydraulic rods 61, two second hinge brackets 62, a movable mounting plate 63, two third hinge brackets 64, two second connecting rods 65, two hinge blocks 66, two fourth hinge brackets 67 and a drill rod 68, the two second hydraulic rods 61 are respectively mounted on the fixed base 31 and are respectively located at one side of the two fixed rods 32, the two second hinge brackets 62 are respectively connected with the driving ends of the two second hydraulic rods 61, two ends of one side of the bottom of the movable mounting plate 63 are respectively connected with the two second hinge brackets 62, the two third hinge brackets 64 are respectively mounted at two ends of the side of the bottom of the movable mounting plate 63 which is not hinged, two fourth hinge brackets 67 are respectively mounted at two ends of one side of the fixed base 31, two of the hinge blocks 66 are provided, the two hinge blocks 66 are respectively connected with the two fourth hinge brackets 67, the two second connecting rods 65 are provided, two ends of the two second connecting rods 65 are respectively connected with the two third hinge brackets 64 and the two hinge blocks 66, a drill rod 68 is arranged on one side of the movable mounting plate 63, an opening is formed in the fixed base 31, and the output end of the drill rod 68 extends out of the opening; when the drill rod detection operation is started, the drill rod detection striking device 5 is started, the striking hammer 515 strikes the drill rod 68, the drill rod 68 is driven to move downwards to perform drill rod detection on a construction foundation, meanwhile, the drill rod 68 also drives the output ends of the two second hydraulic rods 61 to move downwards, meanwhile, the movable mounting platform can also move downwards, and after the drill rod detection operation is completed, the output ends of the two second hydraulic rods 61 are driven to move upwards until the height of the drill rod detection operation is up to the height of the drill rod detection operation.

The working principle is that when in use, an operator firstly drives the engineering vehicle 1 to a construction foundation to be subjected to drill rod detection, the tail of the vehicle is aligned to the construction foundation, then the folding assembly 2 is started, the folding assembly 2 drives the fixing frame 3 to be placed on the construction foundation to be subjected to drill rod detection, the drill rod detection striking device 5 and the drill rod detection device 6 which are installed on the fixing frame 3 are positioned right above the construction foundation, and finally the drill rod detection striking device 5 is started to strike the drill rod detection device 6 so as to carry out drill rod detection on the construction foundation; the folding assembly 2 can be turned in a hydraulic rod turning groove 13 on the engineering truck 1 so as to drive the drill rod detection device 6 to be folded and stored on an engineering truck traction plate 12 or place the drill rod detection device 6 on a construction foundation needing drill rod detection from the engineering truck traction plate 12; when the folding assembly 2 is used for placing the drill rod detection device 6 on a construction foundation needing drill rod detection from the engineering vehicle traction plate 12, the first hydraulic rod 23 is firstly driven to turn to a vertical state, the first hydraulic rod 23 turns to drive the second installation platform 24 to rotate, the second installation platform 24 drives the two rotary plates 26 to rotate, the two rotary plates 26 drive the support rods 27 to rotate so as to drive the two first connecting rods 28 to rotate, so that the drill rod detection device 6 connected with the two first connecting rods 28 rotates to a vertical state, the driving end of the first hydraulic rod 23 is started to move upwards while the first hydraulic rod 23 turns, the first hydraulic rod 23 is stopped being driven until the drill rod detection device 6 is horizontally contacted with the construction foundation needing drill rod detection, after the drill rod detection work is finished, the first hydraulic rod 23 is turned towards the direction of the vehicle head 11 and simultaneously drives the driving end of the first hydraulic rod 23 to contract until the drill rod detection device 6 is folded and accommodated on the engineering vehicle traction plate 12, and then the first hydraulic rod 23 is stopped being driven, the whole process does not need to manually move the drilling device 6, so that the workload of operators is saved; the fixing frame 3 is provided with a drill rod detection striking device 5 and a drill rod detection device 6, the drill rod detection striking device 5 is simultaneously arranged on a first rotating shaft 39 on the telescopic rod 36, and the length of the telescopic rod 36 in the fixing rod 32 can be controlled through the rotation of the threaded rod 33 in the fixing hole 35, so that the height of the drill rod detection striking device 5 is adjusted, and the problem of controlling the height and the drop distance of a drop hammer is solved; when the folding assembly 2 drives the drill rod detection device 6 to be placed on a construction foundation, the fixed base 31 is directly and horizontally contacted with the ground, and the ground grabbing nail 4 is pricked into the ground, so that the stability of the drill rod detection device 6 during drill rod detection work can be improved; when an operator performs drill rod detection work, firstly, the drill rod detection striking device 5 is required to strike the drill rod detection device 6, the motor 521 is started, the driving end of the motor 521 rotates to drive the first belt pulley 522 to rotate, the first belt pulley 522 drives the belt 523 to move, the belt 523 moves to drive the second belt pulley 524 to rotate, the second belt pulley 524 drives the second rotating shaft 392 to rotate, the second rotating shaft 392 drives the cam 511 to rotate, the rotation of the cam 511 drives the driving plate 512 to swing up and down, the driving plate 512 drives the mounting block 513 and simultaneously drives the mounting rod 514 to swing up and down, and the mounting rod 514 drives the striking hammer 515 to swing up and down so as to strike the drill rod detection device 6 below the striking hammer 515; when the drill rod detection operation is started, the drill rod detection striking device 5 is started, the striking hammer 515 strikes the drill rod 68, the drill rod 68 is driven to move downwards to perform drill rod detection on a construction foundation, meanwhile, the drill rod 68 also drives the output ends of the two second hydraulic rods 61 to move downwards, meanwhile, the movable mounting platform can also move downwards, and after the drill rod detection operation is completed, the output ends of the two second hydraulic rods 61 are driven to move upwards until the height of the drill rod detection operation is up to the height of the drill rod detection operation.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a device is visited to borer for foundation construction, its characterized in that, surveys including machineshop car (1), folding assembly (2), mount (3), borer and hits and hit device (5) and borer and visit device (6), folding assembly (2) are installed to machineshop car (1) afterbody, folding assembly (2) with rotatory cooperation of machineshop car (1) afterbody, mount (3) are installed to folding assembly (2) tip, mount (3) top is installed the borer and is visited and hit device (5), the bottom of mount (3) is installed the borer and is visited device (6) and be located the borer and visit and hit under device (5).

2. The drilling detection device for foundation construction according to claim 1, wherein the engineering truck (1) comprises a truck head (11), an engineering truck traction plate (12) and a hydraulic rod overturning groove (13), the engineering truck traction plate (12) is installed at the tail of the truck head (11), the hydraulic rod overturning groove (13) is arranged at one end of the engineering truck traction plate (12), and a folding assembly (2) is installed in the hydraulic rod overturning groove (13).

3. The drilling detection device for foundation construction according to claim 2, wherein the folding assembly (2) comprises two mounting plates (21), two first mounting tables (22), two first hydraulic rods (23), two second mounting tables (24), a moving rod (25), a rotating plate (26), a supporting rod (27) and two first connecting rods (28), the two mounting plates (21) are respectively mounted at two sides of the hydraulic rod overturning groove (13), two ends of the first mounting table (22) are respectively connected with the two mounting plates (21), the first mounting table (22) is rotatably matched with the two mounting plates (21), the first hydraulic rod (23) is mounted on the first mounting table (22), the second mounting table (24) is mounted at the driving end of the first hydraulic rod (23), and the two rotating plates (26) are provided, two the both ends at second mount table (24) are installed respectively to rotor plate (26), two rotor plate (26) and second mount table (24) normal running fit, travel bar (25) have two, two the one end of rotor plate (26) is connected with two respectively the one end of travel bar (25), two rotor plate (26) and two travel bar (25) normal running fit, two the other end of travel bar (25) respectively with the both sides of hydraulic stem upset groove (13) are connected, two travel bar (25) respectively with the both sides normal running fit of hydraulic stem upset groove (13), two bracing piece (27) are installed to the other end of rotor plate (26), first link rod (28) have two, two the one end of first link rod (28) is connected with the both ends of bracing piece (27) respectively.

4. The drilling detection device for foundation construction as claimed in claim 3, wherein the fixing frame (3) comprises a fixing base (31), two fixing rods (32), two threaded rods (33), a rotating button (34), two fixing holes (35), a telescopic rod (36), a first shaft sleeve (37), a second shaft sleeve (38), a first rotating shaft (39), a connecting rod (391), a second rotating shaft (392) and a first hinge frame (393), the two fixing rods (32) are vertically installed at both ends of the fixing base (31), the two fixing rods (32) are hollow, the two fixing holes (35) are two, the two fixing holes (35) are respectively formed at one side of the two fixing rods (32), threads are respectively formed in the two fixing holes (35), the two threaded rods (33) are two, two threaded rods (33) are respectively installed in two fixed holes (35) and one end of two threaded rods (33) is exposed outside the fixed holes (35), the rotary button (34) has two, the rotary button (34) is respectively installed at two one ends of the threaded rods (33) exposed outside the fixed holes (35), the telescopic rods (36) have two, the telescopic rods (36) are respectively vertically sleeved on the two fixed rods (32), the two telescopic rods (36) are respectively in sliding fit with the two fixed rods (32), the first shaft sleeves (37) have two, the end parts of the two telescopic rods (36) are respectively provided with the first shaft sleeves (37), two ends of the first rotating shaft (39) are respectively connected with the two first shaft sleeves (37), the first rotating shaft (39) is in rotating fit with the two first shaft sleeves (37), the number of the connecting rods (391) is two, one end of each of the two connecting rods (391) is vertically installed on each of the two first shaft sleeves (37), the number of the first hinge brackets (393) is two, the two first hinge brackets (393) are installed on one side of each of the two connecting rods (391), the two first connecting rods (28) are respectively connected with the two first hinge brackets (393), the number of the second shaft sleeves (38) is two, the two second shaft sleeves (38) are installed on the other ends of the two connecting rods (391), two ends of the second rotating shaft (392) are respectively connected with the two second shaft sleeves (38), and the second rotating shaft (392) is in rotating fit with the two second shaft sleeves (38).

5. The drilling detection device for foundation construction according to claim 4, wherein the fixing base (31) comprises four ground grabbing nails (4), and the four ground grabbing nails (4) are respectively arranged at four corners of the bottom of the fixing base (31).

6. The drilling device for foundation construction as claimed in claim 4, wherein the drilling striking device (5) comprises a cam pendulum assembly (51) and a rotary driving assembly (52), the cam pendulum assembly (51) comprises a cam (511), a driving plate (512), a mounting block (513), a mounting rod (514) and a striking hammer (515), the cam (511) is fixedly mounted on the second rotary shaft (392), the mounting block (513) is fixedly mounted on the first rotary shaft (39), the driving plate (512) is mounted at one end of the mounting block (513) and one end of the driving plate (512) is in contact with the cam (511), one end of the mounting rod (514) is connected with the other end of the mounting block (513), and the striking hammer (515) is mounted at the other end of the mounting rod (514).

7. The drilling device as claimed in claim 4, wherein the rotary driving assembly (52) comprises a motor (521), a first pulley (522), a belt (523) and a second pulley (524), the motor (521) is mounted on the fixed base (31), the first pulley (522) is mounted on a driving end of the motor (521), the second pulley (524) is mounted on the second rotary shaft (392), and two ends of the belt (523) are respectively sleeved on the first pulley (522) and the second pulley (524).

8. The boring device for ground construction according to claim 4, wherein the boring device (6) comprises two second hydraulic rods (61), two second hinge brackets (62), a movable mounting plate (63), a third hinge bracket (64), a second joint rod (65), a joint block (66), a fourth hinge bracket (67), and boring rods (68), two of the second hydraulic rods (61) being respectively mounted on the fixed base (31) and being respectively located at one side of the two fixed rods (32), two of the second hinge brackets (62) being respectively engaged with driving ends of the two second hydraulic rods (61), two ends of a bottom side of the movable mounting plate (63) being respectively connected to the two second hinge brackets (62), two of the third hinge brackets (64), two third articulated frame (64) are installed respectively remove mounting panel (63) bottom both ends on the articulated one side not, fourth articulated frame (67) have two, two fourth articulated frame (67) are installed respectively at the both ends tip of unable adjustment base (31) one side, articulated piece (66) have two, two articulated piece (66) respectively with two fourth articulated frame (67) link up, second linking pole (65) have two, two the both ends of second linking pole (65) respectively with two third articulated frame (64) and two articulated piece (66) link up, bougie (68) are installed to one side of removing mounting panel (63), be equipped with the opening on unable adjustment base (31), bougie (68) output stretches out from the opening part.

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