CN218271802U - Hydraulic engineering dam body intensity check out test set - Google Patents

Abstract

The utility model relates to a hydraulic engineering technical field specifically discloses a hydraulic engineering dam body intensity check out test set, including detection mechanism, base and four moving mechanism, moving mechanism includes the walking wheel, the walking frame, the walking pole, the walking gear, go up the walking board, lower walking board and power pack, the walking wheel rotates connects the double-phase inside surface of walking frame, walking pole one end is fixed on the walking frame top surface, the other end passes base and fixed connection walking gear, it all fixes on the walking pole with lower walking board to go up the walking board, and butt base top surface and bottom surface respectively, power pack fixes on the base top surface, and butt walking gear, detection mechanism fixes on the base, the utility model provides a hydraulic engineering dam body intensity detection device moves inconvenient can lead to the problem that the physical demands of detection personnel when detecting a plurality of check points in succession among the prior art on dam body detection surface and increase.

Description

Hydraulic engineering dam body intensity check out test set

Technical Field

The application relates to the technical field of hydraulic engineering, and particularly discloses hydraulic engineering dam body strength detection equipment.

Background

The water conservancy project is a project which is built for controlling and allocating surface water and underground water in the nature to achieve the purposes of removing harm and benefiting benefit, is also called water project, and the dam is an important building in the water conservancy project and has important significance for water storage and drainage of the water conservancy project.

People's property and safety in the hydraulic engineering dam body relation, in order to guarantee people's property and safety, need detect the hydraulic engineering dam body with hydraulic engineering dam body intensity check out test set, current hydraulic engineering dam body intensity detection device moves inconveniently on the dam body detection face, leads to the physical demands increase of measurement personnel when a plurality of check points of continuous measurement.

The invention provides hydraulic engineering dam body strength detection equipment so as to solve the problem that physical consumption of detection personnel is increased when the detection personnel continuously detect a plurality of detection points due to the fact that the hydraulic engineering dam body strength detection device is inconvenient to move on a dam body detection surface.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic engineering dam body intensity check out test set to solve among the prior art hydraulic engineering dam body intensity detection device and remove inconvenient can lead to the physical demands increase problem of measurement personnel when detecting a plurality of check points in succession on the dam body detection surface.

In order to achieve the above object, the utility model discloses a basic scheme provides a hydraulic engineering dam body intensity check out test set: including the detection mechanism that is used for detecting hydraulic engineering dam body intensity, a pedestal, four moving mechanism that are used for removing detection mechanism, coupling mechanism and place the pulling mechanism on hydraulic engineering dam body top surface, moving mechanism includes the walking unit, power pack and fixed unit, the walking unit includes the walking wheel, the walking frame, the walking rod, the walking gear, go up walking plate and lower walking plate, the walking wheel rotates and connects the double-phase inside surface of walking frame, walking rod one end is fixed on the walking frame top surface, the other end passes base and fixed connection walking gear, it all fixes on the walking rod to go up walking plate and lower walking plate, and respectively butt base top surface and bottom surface, power pack includes first electronic hydraulic push rod, the power piece, the power pinion rack, place the piece, stop block and electric putter, power block and place the piece all fix on the base top surface, power groove and power mouth have been seted up on the power piece, the width of power groove and power pinion rack all is greater than the width of power mouth, the power groove slides in power groove and power notch, walking gear meshing power gear meshes the power, two first stop block have been seted up on the power pinion, the power groove and power pinion is fixed on the base, the fixed connection hole, and the fixed connection mechanism of other end, and the fixed connection block are fixed on the base, and the base, and the fixed connection mechanism, the fixed connection block of the stop block, and the fixed connection mechanism.

Compared with the prior art, the utility model discloses an effect: when the dam body strength detection device needs to move to other detection points, a worker starts a first electric hydraulic push rod firstly, the first electric hydraulic push rod can drive a power toothed plate to move, the power toothed plate can drive a walking gear to rotate, after the walking gear rotates for 90 degrees, the first electric hydraulic push rod stops moving, the electric push rod starts moving and pushes a stop block into a first stop notch to form fixation of the power toothed plate and the walking gear, then a fixing unit is started to further fix the walking gear, and finally the worker moves a connecting mechanism to move a detection mechanism to the next detection point; the upper walking plate and the lower walking plate are adopted, so that the base can keep the relative position with the walking wheels in the moving process, and the stability of the base in the moving process is improved; the fixing unit can reduce the pressure on the power toothed plate, and the service life of the power toothed plate is prolonged.

Further, detection mechanism includes four bracing pieces, a supporting plate, the concrete resiliometer, second electronic hydraulic push rod and bottom surface open-ended guard box, four bracing piece one end are fixed on the base top surface, the other end is fixed on the backup pad bottom surface, the detection mouth has been seted up on the base, second electronic hydraulic push rod is fixed on the backup pad top surface, second electronic hydraulic push rod free end passes backup pad and fixed connection concrete resiliometer, the concrete resiliometer is corresponding with the detection mouth, it is greater than the concrete resiliometer width to detect the mouth width, the guard box is fixed on the base side, and concrete resiliometer and second electronic hydraulic push rod are all in the guard box, coupling mechanism fixed connection guard box, concrete resiliometer central line perpendicular to hydraulic engineering dam body's detection face.

Compared with the prior art, the utility model discloses an effect: concrete resiliometer can carry out accurate detection to hydraulic engineering dam body intensity, and the electronic hydraulic pressure push rod of second can let concrete resiliometer carry out butt and separation to the hydraulic engineering dam body, has guaranteed concrete resiliometer's practicality.

Further, fixed unit includes the fixed block, two pars contractilis, the dead lever, the butt joint pole, electronic hydraulic push rod of third and fixed plate, fixed slot and fixed orifices have been seted up on the fixed block, the pars contractilis includes expanding spring and telescopic link, the fixed block is fixed on the base top surface, fixed slot intercommunication fixed orifices, expanding spring one end is fixed on the fixed slot internal surface, other end fixed connection expansion plate, two expansion plates are fixed respectively on the dead lever both ends, the dead lever slides in the fixed slot, the fixed plate is fixed on the fixed block top surface, electronic hydraulic push rod of third is fixed on the fixed plate side, the butt pole slides in the fixed orifices, and the electronic hydraulic push rod free end of fixed connection third, dead lever one end butt joint pole, other end butt walking gear.

Compared with the prior art, the utility model discloses an effect: the dead lever can carry out the butt to the gear block of walking gear, has avoided the rotation of walking gear, has alleviateed the pressure of power pinion rack, has improved the stability of walking gear at the removal in-process.

Further, the connecting mechanism comprises a first connecting block, a first connecting rod and a plurality of connecting units, each connecting unit comprises a second connecting block, a second connecting rod and two positioning portions, each positioning portion comprises a positioning rod, a positioning plate, two positioning springs, a positioning rope and a positioning ring, one end of each first connecting block is fixedly connected with the side face of the protection box, the other end of each first connecting block is fixedly connected with the first connecting block, one end of each second connecting block is fixedly connected with the second connecting rod, the other end of each second connecting block is provided with a connecting groove, two first positioning holes and two positioning grooves, the connecting grooves are matched with the first connecting rods and the second connecting rods, the first connecting rods and the second connecting rods slide in the two connecting grooves respectively, two second positioning holes are formed in the first connecting rods and the second connecting rods, one ends of the two positioning springs are fixed on the inner surfaces of the positioning grooves, the other ends of the positioning springs are fixedly connected with the positioning plates, the other ends of the positioning ropes penetrate through the second connecting blocks and the positioning rings, the positioning rods are fixedly connected with the positioning plates, the inner surfaces of the upper ends of the second positioning holes, and the second connecting blocks are connected by the pulling mechanism in a rotating mode.

Compared with the prior art, the utility model discloses an effect: positioning spring, locating plate and locating lever can carry out fine fixed to second connecting rod and head rod, have guaranteed detection mechanism stability when removing and detecting.

Further, the pulling mechanism includes the bottom plate, six roll units, the lift unit, the pouring weight, display and the control unit, the lift unit includes the lifter plate, two lifting portions, two rotate seat and axis of rotation, lifting portion includes the lifting screw rod, lifting screw thread section of thick bamboo and a rotation section of thick bamboo, lifting screw rod one end is fixed on the bottom plate top surface, other end threaded connection lifting screw thread section of thick bamboo, rotation section of thick bamboo one end is fixed on the lifter plate bottom surface, the other end rotates and connects lifting screw thread section of thick bamboo, two rotation seats are all fixed on the lifter plate top surface, two rotation seats of the fixed both ends fixed connection of axis of rotation, and rotate and connect the second connecting block of upper end, the pouring weight is fixed on the bottom plate top surface, display and the fixed nothing of control unit are fixed on the pouring weight top surface, and the concrete resiliometer is connected to the display electricity, first electronic hydraulic push rod of control unit electricity, second electronic hydraulic push rod, third electronic hydraulic push rod and electric push rod, six roll units all rotate and connect the bottom plate bottom surface.

Compared with the prior art, the utility model discloses an effect: the weight can prevent the bottom plate and the lifting unit from being pulled downwards by the detection mechanism and the moving mechanism, thereby ensuring the stability of the bottom plate and the lifting unit and prolonging the service life of the bottom plate and the lifting unit.

Furthermore, the rolling unit comprises a rolling wheel, a rolling frame, a rolling rod and a rolling disc, the rolling wheel is rotatably connected with two opposite inner side surfaces of the rolling frame, one end of the rolling rod is fixedly connected with the rolling disc, the other end of the rolling rod is fixedly connected with the top surface of the rolling frame, six rolling grooves are formed in the bottom surface of the bottom plate, the widths of the bottom surface of the rolling groove and the width of the rolling disc are larger than the width of the top surface of the rolling groove, and the rolling disc rotates in the rolling grooves.

Compared with the prior art, the utility model discloses an effect: the rolling wheel can be convenient for the staff to the promotion of pouring weight, has reduced the physical demands of staff when removing the pouring weight, and the rotation of rolling wheel can be convenient for to the rolling dish, has improved the practicality of rolling wheel.

Further, still include guiding mechanism, guiding mechanism includes deflector and guide block, and the deflector is fixed on the bottom plate top surface, and the butt pouring weight, has seted up the guide way on the deflector, and the guide block is fixed on the lifter plate side, and slides in the guide way.

Compared with the prior art, the utility model discloses an effect: the guide plate and the guide block can guide the lifting plate when the lifting plate moves up and down, so that the deviation of the moving route of the lifting plate is reduced, and the practicability of the lifting plate is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a front view of an embodiment of a hydraulic engineering dam body strength detection device of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a partial enlarged view of portion B of FIG. 2;

FIG. 5 is a schematic view of the pulling mechanism of FIG. 2;

FIG. 6 is a schematic structural view of the detecting mechanism and the moving mechanism in FIG. 2;

fig. 7 is a schematic structural view of the fixing unit and the power unit in fig. 2.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. 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 application.

The following is further detailed by the specific embodiments:

reference numerals in the drawings of the specification include: the hydraulic control device comprises a protection box 1, a second connecting block 2, a weight 3, a third electric hydraulic push rod 4, a fixing rod 5, a second connecting rod 6, a bottom plate 7, a lifting threaded cylinder 8, a rotating seat 9, a control unit 10, a display 11, a second electric hydraulic push rod 12, a concrete resiliometer 13, an electric push rod 14, a first electric hydraulic push rod 15, a power toothed plate 16 and a walking gear 17.

The embodiment is as follows:

the utility model discloses a concrete implementation process: a hydraulic engineering dam body strength detection device is disclosed, as shown in figures 1, 2, 3, 6 and 7, and comprises a detection mechanism for detecting the strength of the hydraulic engineering dam body, a base, four moving mechanisms for moving the detection mechanism, a connecting mechanism and a pulling mechanism placed on the top surface of the hydraulic engineering dam body, wherein the moving mechanism comprises a walking unit, a power unit and a fixing unit, the walking unit comprises walking wheels, a walking frame, walking rods, walking gears 17, an upper walking plate and a lower walking plate, the walking wheels are rotatably connected with the two inner side surfaces of the walking frame, one end of each walking rod is fixed on the top surface of the walking frame, the other end of each walking rod penetrates through the base and is fixedly connected with the walking gears 17, the upper walking plate and the lower walking plate are fixed on the walking rods and are respectively abutted against the top surface and the bottom surface of the base, the power unit comprises a first electric hydraulic push rod 15, a power block, a power toothed plate 16, a placing block, a stop block and an electric push rod 14, the power block with place the piece and all fix on the base top surface, power groove and power mouth have been seted up on the power block, the width of power groove and power pinion rack 16 all is greater than the width of power mouth, power pinion rack 16 slides in power groove and power mouth, walking gear 17 meshes power pinion rack 16, two first locking mouths have been seted up on the power pinion rack 16, the second locking hole has been seted up on the power block, electric putter 14 is fixed on placing the piece, 14 free end fixed connection locking pieces of electric putter, the locking piece slides in second locking hole and first locking mouth, and the first locking mouth internal surface of butt, fixed unit fixes on the base top surface, and butt walking gear 17, detection mechanism fixes on the base, coupling mechanism one end fixed connection pulling mechanism, other end fixed connection detection mechanism.

As shown in fig. 2 and 6, the detection mechanism includes four support rods, a support plate, a concrete resiliometer 13, a second electric hydraulic push rod 12 and a protection box 1 with an opening on the bottom surface, one end of each of the four support rods is fixed on the top surface of the base, the other end of each of the four support rods is fixed on the bottom surface of the support plate, a detection port is formed in the base, the second electric hydraulic push rod 12 is fixed on the top surface of the support plate, the free end of the second electric hydraulic push rod 12 penetrates through the support plate and is fixedly connected with the concrete resiliometer 13, the concrete resiliometer 13 corresponds to the detection port, the width of the detection port is greater than that of the concrete resiliometer 13, the protection box 1 is fixed on the side surface of the base, the concrete resiliometer 13 and the second electric hydraulic push rod 12 are both in the protection box 1, the connection mechanism is fixedly connected with the protection box 1, and the center line of the concrete resiliometer 13 is perpendicular to the detection surface of the hydraulic engineering dam body.

As shown in fig. 2, fig. 3, fig. 6 and fig. 7, fixed unit includes the fixed block, two pars contractilis, dead lever 5, the butt rod, third electric hydraulic rod 4 and fixed plate, fixed slot and fixed orifices have been seted up on the fixed block, the pars contractilis includes expanding spring and telescopic link, the fixed block is fixed on the base top surface, fixed slot intercommunication fixed orifices, expanding spring one end is fixed on the fixed slot internal surface, other end fixed connection expansion plate, two expansion plates are fixed respectively on dead lever 5 both ends, dead lever 5 slides in the fixed slot, the fixed plate is fixed on the fixed block top surface, third electric hydraulic rod 4 is fixed on the fixed plate side, the butt rod slides in the fixed orifices, and fixed connection third electric hydraulic rod 4 free ends, dead lever 5 one end butt rod, other end butt walking gear 17.

As shown in fig. 1, fig. 2 and fig. 4, the connection mechanism includes a first connection block, a first connection rod and a plurality of connection units, the connection unit includes a second connection block 2, a second connection rod 6 and two positioning portions, the positioning portions include positioning rods, a positioning plate, two positioning springs, a positioning rope and a positioning ring, a first connection block one end fixed connection protection box 1 side surface, another end fixed connection first connection block, 2 one end fixed connection second connection rods 6 of the second connection block, the other end has been provided with a connection groove, two first positioning holes and two positioning grooves, the connection groove is matched with the first connection rod and the second connection rod 6, the first connection rod and the second connection rod 6 slide in the two connection grooves respectively, two second positioning holes have been provided on the first connection rod and the second connection rod 6, one end of the two positioning springs is fixed on the inner surface of the positioning groove, another end fixed connection positioning plate, one end fixed connection positioning rope, the other end passes through the second connection block 2 and is fixed connection positioning ring, the positioning rod is fixed connection positioning plate, and the positioning rod is slid in the first positioning hole and the second positioning hole inner surface, the pulling mechanism is connected to the second connection block 2.

As shown in fig. 1, fig. 2 and fig. 5, the pulling mechanism includes a bottom plate 7, six rolling units, a lifting unit, a weight 3, a display 11 and a control unit 10, the lifting unit includes a lifting plate, two lifting portions, two rotating seats 9 and a rotating shaft, the lifting portion includes a lifting threaded rod, a lifting threaded cylinder 8 and a rotating cylinder, one end of the lifting threaded rod is fixed on the top surface of the bottom plate 7, the other end of the lifting threaded cylinder is connected with the lifting threaded cylinder 8, one end of the rotating cylinder is fixed on the bottom surface of the lifting plate, the other end of the rotating cylinder is connected with the lifting threaded cylinder 8 in a rotating manner, the two rotating seats 9 are both fixed on the top surface of the lifting plate, two rotating seats 9 are fixed at two fixed ends of the rotating shaft, the second connecting block 2 at the uppermost end is connected in a rotating manner, the weight 3 is fixed on the top surface of the bottom plate 7, the display 11 and the control unit 10 are both fixed and fixed on the top surface of the weight 3, the display 11 is electrically connected with a concrete rebound tester 13, the control unit 10 is electrically connected with a first electric hydraulic push rod 15, a second electric hydraulic push rod 12, a third electric hydraulic push rod 4 and an electric push rod 14, and a bottom plate 7 are connected with the six rolling units in a bottom surface in a rotating manner.

As shown in fig. 1 and 5, the rolling unit includes a rolling wheel, a rolling frame, a rolling rod, and a rolling disc, the rolling wheel is rotatably connected to two opposite inner side surfaces of the rolling frame, one end of the rolling rod is fixedly connected to the rolling disc, the other end of the rolling rod is fixedly connected to the top surface of the rolling frame, six rolling grooves are formed in the bottom surface of the bottom plate 7, the widths of the bottom surface of the rolling groove and the rolling disc are both greater than the width of the top surface of the rolling groove, and the rolling disc rotates in the rolling groove.

As shown in fig. 1, 2 and 5, the lifting device further comprises a guide mechanism, the guide mechanism comprises a guide plate and a guide block, the guide plate is fixed on the top surface of the bottom plate 7 and is abutted against the weight 3, a guide groove is formed in the guide plate, and the guide block is fixed on the side surface of the lifting plate and slides in the guide groove.

When the detection point is to be moved to another detection point, the worker starts the first electric hydraulic push rod 15, the first electric hydraulic push rod 15 can drive the power toothed plate 16 to move, the power toothed plate 16 can drive the walking gear 17 to rotate, after the walking gear 17 rotates for 90 degrees, the first electric hydraulic push rod 15 stops moving, the electric push rod 14 starts moving, the stop block is pushed into the first stop hole, fixing of the power toothed plate 16 and the walking gear 17 is formed, then the fixing unit is started to further fix the walking gear 17, finally, the worker moves the connecting mechanism to move the detection mechanism to the next detection point, the first electric hydraulic push rod 15 drives the power toothed plate 16 to move reversely, the walking gear 17 can rotate reversely, and the first electric hydraulic push rod 15 and the electric push rod 14 are electrically connected with an external power supply.

When concrete resiliometer 13 will detect hydraulic engineering dam body intensity, the staff starts electronic hydraulic rod 12 of second, and electronic hydraulic rod 12 free end of second can take concrete resiliometer 13 to extrude the detection to the hydraulic engineering dam body, detects the back that finishes, and the staff starts electronic hydraulic rod 12 of second, lets electronic hydraulic rod 12 free end of second take concrete resiliometer 13 to get back to the normal position, and external power is connected to electronic hydraulic rod 12 electricity of second.

After the walking gear 17 finishes rotating, the worker starts the third electric hydraulic push rod 4, the free end of the third electric hydraulic push rod 4 can bring the abutting rod to be close to the bottom surface of the fixing hole, meanwhile, the fixing rod 5 can be completely extruded into the fixing groove, the fixing rod 5 can stretch the expansion spring after being extruded into the fixing groove by the abutting rod, meanwhile, the free end of the third electric hydraulic push rod 4 can abut against a tooth block of the walking gear 17 to fix the walking gear 17, when the walking gear 17 rotates, the worker starts the third electric hydraulic push rod 4 to enable the third electric hydraulic push rod 4 to bring the abutting rod to be far away from the fixing rod 5, the fixing rod 5 can be far away from the walking gear 17 under the action of the expansion spring, and the third electric hydraulic push rod 4 is electrically connected with an external power supply.

Staff pulling holding ring, the holding ring can stimulate the location rope, the locating plate can be being drawn to the location rope and the locating lever removes, leave the spread groove completely until the locating lever, the locating plate can extrude the location spring, then put into the spread groove first connecting rod or second connecting rod 6, loosen the holding ring again, the locating plate can get back to the normal position under the effect of location spring, the locating lever can get into in the second locating hole, form the fixed to first connecting rod or second connecting rod 6, accomplish simultaneously fixed or two fixed between the linkage unit of linkage unit and first connecting block between the linkage unit.

When detection mechanism will remove hydraulic engineering dam body check point, the staff begins to rotate lift screw thread section of thick bamboo 8 according to the angle of hydraulic engineering dam body detection face, lift screw thread section of thick bamboo 8 anticlockwise rotation, then the lifter plate rebound, lift screw thread section of thick bamboo 8 clockwise dwang, then the lifter plate downstream, the back is accomplished in the altitude mixture control of lifter plate, can put detection mechanism and coupling mechanism on hydraulic engineering dam body detection face, external power is connected to the equal electricity of control unit 10 and display 11, control unit 10 can control first electronic hydraulic ram 15, electronic hydraulic ram 12 of second, the action of electronic hydraulic ram 4 of third and electric putter 14, display 11 can show the data that concrete resiliometer 13 detected.

The rolling wheel can be convenient for the staff to the promotion of pouring weight 3, has reduced the physical demands of staff when removing pouring weight 3, and the rotation of rolling wheel can be convenient for to the rolling dish, has improved the practicality of rolling wheel, and the rolling dish can be formed by wear-resisting alloy steel preparation.

The guide plate and the guide block can guide the lifting plate when the lifting plate moves up and down, so that the deviation of the moving route of the lifting plate is reduced, the practicability of the lifting plate is improved, and the guide block can be made of wear-resistant alloy steel.

The utility model provides a hydraulic engineering dam body intensity check out test set during operation, the staff starts first electronic hydraulic rod 15 earlier, first electronic hydraulic rod 15 can take power pinion rack 16 to remove, power pinion rack 16 can take walking gear 17 to rotate, walk gear 17 and rotate 90 degrees after, first electronic hydraulic rod 15 stop motion, electronic push rod 14 begins to move, and push the stopper into first dog, form the fixed to power pinion rack 16 and walking gear 17, then start fixed unit and further fix walking gear 17, the staff removes coupling mechanism at last and can remove detection mechanism to next check point, first electronic hydraulic rod 15 takes power pinion rack 16 reverse translation, then walking gear 17 can reverse rotation, external power supply is connected to first electronic hydraulic rod 15 and electronic push rod 14 electricity.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (7)

1. The utility model provides a hydraulic engineering dam body intensity check out test set which characterized in that: including the detection mechanism that is used for detecting hydraulic engineering dam body intensity, a pedestal, four moving mechanism that are used for removing detection mechanism, coupling mechanism and place the pulling mechanism on hydraulic engineering dam body top surface, moving mechanism includes the walking unit, power pack and fixed unit, the walking unit includes the walking wheel, the walking frame, the walking rod, the walking gear, go up walking plate and lower walking plate, the walking wheel rotates and connects the double-phase inside surface of walking frame, walking rod one end is fixed on the walking frame top surface, the other end passes base and fixed connection walking gear, it all fixes on the walking rod to go up walking plate and lower walking plate, and respectively butt base top surface and bottom surface, power pack includes first electronic hydraulic push rod, the power piece, the power pinion rack, place the piece, stop block and electric putter, power block and place the piece all fix on the base top surface, power groove and power mouth have been seted up on the power piece, the width of power groove and power pinion rack all is greater than the width of power mouth, the power groove slides in power groove and power notch, walking gear meshing power gear meshes the power, two first stop block have been seted up on the power pinion, the power groove and power pinion is fixed on the base, the fixed connection hole, and the fixed connection mechanism of other end, and the fixed connection block are fixed on the base, and the base, and the fixed connection mechanism, the fixed connection block of the stop block, and the fixed connection mechanism.

2. The hydraulic engineering dam body intensity check out test set of claim 1, characterized in that: detection mechanism includes four bracing pieces, the backup pad, the concrete resiliometer, electronic hydraulic rod of second and bottom surface open-ended guard box, four bracing piece one end are fixed on the base top surface, the other end is fixed on the backup pad bottom surface, the detection mouth has been seted up on the base, electronic hydraulic rod of second fixes on the backup pad top surface, electronic hydraulic rod free end of second passes backup pad and fixed connection concrete resiliometer, the concrete resiliometer is corresponding with the detection mouth, detection mouth width is greater than the concrete resiliometer width, the guard box is fixed on the base side, and concrete resiliometer and electronic hydraulic rod of second are all in the guard box, coupling mechanism fixed connection guard box, concrete resiliometer central line perpendicular to hydraulic engineering dam body's detection face.

3. The hydraulic engineering dam body intensity check out test set of claim 2, characterized in that: fixed unit includes the fixed block, two pars contractilis, the dead lever, the butt pole, electronic hydraulic rod of third and fixed plate, fixed slot and fixed orifices have been seted up on the fixed block, the pars contractilis includes expanding spring and telescopic link, the fixed block is fixed on the base top surface, fixed slot intercommunication fixed orifices, expanding spring one end is fixed on the fixed slot internal surface, other end fixed connection expansion plate, two expansion plates are fixed respectively on the dead lever both ends, the dead lever slides in the fixed slot, the fixed plate is fixed on the fixed block top surface, electronic hydraulic rod of third fixes on the fixed plate side, the butt pole slides in the fixed orifices, and the electronic hydraulic rod free end of fixed connection third, dead lever one end butt pole, other end butt walking gear.

4. The hydraulic engineering dam body intensity check out test set of claim 1, characterized in that: the connecting mechanism comprises a first connecting block, a first connecting rod and a plurality of connecting units, each connecting unit comprises a second connecting block, a second connecting rod and two positioning portions, each positioning portion comprises a positioning rod, a positioning plate, two positioning springs, a positioning rope and a positioning ring, one end of each first connecting block is fixedly connected with the side face of the protection box, the other end of each first connecting block is fixedly connected with the corresponding first connecting block, one end of each second connecting block is fixedly connected with the corresponding second connecting rod, the other end of each second connecting block is provided with a connecting groove, two first positioning holes and two positioning grooves, the connecting grooves are matched with the first connecting rods and the second connecting rods, the first connecting rods and the second connecting rods slide in the two connecting grooves respectively, two second positioning holes are formed in the first connecting rods and the second connecting rods, one ends of the two positioning springs are fixed on the inner surfaces of the positioning grooves, the other ends of the positioning springs are fixedly connected with the positioning plates, the other ends of the positioning ropes penetrate through the second connecting blocks and the positioning rings, the positioning rods are fixedly connected with the positioning plates, the positioning rods are abutted to the inner surfaces of the second connecting blocks, and the pulling mechanisms are rotatably connected with the second connecting blocks at the uppermost ends.

5. The hydraulic engineering dam body intensity check out test set of claim 4, characterized in that: pulling mechanism includes the bottom plate, six roll units, the lifting unit, the pouring weight, display and the control unit, the lifting unit includes the lifter plate, two lift portions, two rotate seat and axis of rotation, lift portion includes the lifting screw rod, lifting screw thread section of thick bamboo and rotation section of thick bamboo, lifting screw rod one end is fixed on the bottom plate top surface, other end threaded connection lifting screw thread section of thick bamboo, rotation section of thick bamboo one end is fixed on the lifter plate bottom surface, the other end rotates and connects lifting screw thread section of thick bamboo, two rotation seats are all fixed on the lifter plate top surface, two rotation seats of the fixed both ends fixed connection of axis of rotation, and rotate and connect the second connecting block of upper end, the pouring weight is fixed on the bottom plate top surface, display and the fixed equal fixing on the pouring weight top surface of control unit, and the concrete resiliometer is connected to the display electricity, first electronic hydraulic push rod of control unit electricity, second electronic hydraulic push rod, third electronic hydraulic push rod and electric push rod, six roll units all rotate and connect the bottom plate bottom surface.

6. The hydraulic engineering dam body intensity check out test set of claim 5, characterized in that: the rolling unit comprises a rolling wheel, a rolling frame, a rolling rod and a rolling disc, the rolling wheel is connected with two opposite inner side faces of the rolling frame in a rotating mode, one end of the rolling rod is fixedly connected with the rolling disc, the other end of the rolling rod is fixedly connected with the top face of the rolling frame, six rolling grooves are formed in the bottom face of the bottom plate, the widths of the bottom face of the rolling groove and the widths of the rolling disc are larger than the widths of the top faces of the rolling grooves, and the rolling disc rotates in the rolling grooves.

7. The hydraulic engineering dam body intensity check out test set of claim 6, characterized in that: still include guiding mechanism, guiding mechanism includes deflector and guide block, and the deflector is fixed on the bottom plate top surface, and the butt pouring weight, has seted up the guide way on the deflector, and the guide block is fixed on the lifter plate side, and slides in the guide way.

Images