CN115265345A - Device for fixed-point detection of deformation of water conservancy facilities - Google Patents

Abstract

The invention provides a device for detecting the deformation of a water conservancy facility at a fixed point, which relates to the technical field of water conservancy facility detection and comprises the following components: the buckling blocks A are respectively and correspondingly arranged on the clamping blocks a; the pair of clamping blocks b are respectively and correspondingly arranged on the pair of clamping blocks a and the pair of buckling blocks A; the pair of buckling blocks B are respectively and correspondingly arranged on the pair of clamping blocks B; support fixed mounting is at fixture block c upside placed in the middle, through the mutual through connection of installation vertical pole and interlude pole, has solved the diameter size of the water conservancy facility water inlet that the device that detects water conservancy facility deformation can not detect as required and has carried out convenient regulation installation, detects the high efficiency detection that deformation device can not be to the water conservancy facility water inlet that detects, has not only reduced the application scope of device, has increased detection error, and then still reduces the detection efficiency problem.

Description

Device for fixed-point detection of deformation of water conservancy facilities

Technical Field

The invention relates to the technical field of water conservancy facility detection, in particular to a device for detecting deformation of a water conservancy facility at a fixed point.

Background

The water conservancy facilities are equipment devices for controlling, adjusting, developing, utilizing and protecting water in the nature, wherein the water conservancy facilities specifically comprise a water inlet, a water making well, a storage chamber, a grit chamber, a hydrological observation station, an open channel, an inverted siphon and the like, the water conservancy facilities have the combined action of reducing and avoiding flood and drought disasters, utilize water resources and adapt to the human society and the natural environment, and in order to facilitate the detection and the maintenance of the water conservancy facilities, people use a device for detecting the deformation of the water conservancy facilities and mainly detect an open water inlet to prevent the water inlet from changing the installation position and the shape of the water inlet due to external reasons or internal defects.

However, the diameter size of the hydraulic establishment water inlet that just current device for detecting hydraulic establishment deformation can not detect as required carries out convenient regulation installation, it can not detect the high efficiency of the hydraulic establishment water inlet that detects to detect deformation device, and detect deformation device and can not follow the shape change of the hydraulic establishment water inlet that detects and adjust, just also make and detect the hydraulic establishment water inlet diameter that deformation device can not be applicable to various needs and detect, and then reduced the application scope who detects deformation device, and simultaneously, the detection error who detects deformation device has been increased, and then reduced the detection efficiency who detects deformation device.

Disclosure of Invention

In view of the above, the invention provides a device for fixed-point detection of hydraulic facility deformation, which is provided with a vertical rod and an inserting rod for telescopic operation, so that the device for detecting hydraulic facility deformation can conveniently adjust the diameter of a water inlet of a hydraulic facility detected according to needs, and can efficiently detect the detected water inlet of the hydraulic facility, thereby improving the detection efficiency.

The invention provides a device for detecting deformation of a water conservancy facility at a fixed point, which specifically comprises: the buckling blocks A are respectively and correspondingly arranged on the clamping blocks a; the pair of clamping blocks b are respectively and correspondingly arranged on the pair of clamping blocks a and the pair of buckling blocks A; the pair of buckling blocks B are respectively and correspondingly arranged on the pair of clamping blocks B; the clamping blocks c are arranged in the middle of the upper ends of the clamping blocks B and the buckling blocks B; the buckling blocks C are correspondingly arranged on the clamping blocks C; the rotation sensor is correspondingly arranged on the upper side of the center of the clamping block c; the two vertical rods are respectively and vertically arranged on the pair of buckling blocks A; the inserting rods are vertically arranged in the two vertical rods in a penetrating mode respectively, and the vertical rods and the inserting rods are of long strip-shaped structures.

Optionally, the fixture block a includes two insert plates a, and the two insert plates a are respectively and fixedly mounted on the outer end surfaces of the two fixture blocks a; the buckling block A comprises a square groove a and a screw rod a, the two square grooves a are respectively formed in the end faces of the inner sides of the two buckling blocks A, the square groove a is of a rectangular hollow structure, and the two inserting plates a are respectively installed in the two square grooves a in a penetrating mode; the two screw rods a are respectively transversely installed in the pair of buckling blocks A, the pair of clamping blocks a and the pair of vertical rods in a penetrating mode.

Optionally, the fixture block b comprises two insert plates b, and the two insert plates b are respectively and fixedly mounted on the outer end surfaces of the pair of fixture blocks b; the buckling blocks B comprise square grooves B and connecting rods, the two square grooves B are respectively formed in the end faces of the inner sides of the two buckling blocks B, the square grooves B are of rectangular hollow structures, and the two inserting plates B are respectively installed in the two square grooves B in a penetrating mode; the two connecting rods are respectively and fixedly arranged on the end faces of the outer sides of the two buckling blocks B.

Optionally, the fixture block c comprises a square groove c and a bracket, the square groove c is formed in the end surface of the inner side of the fixture block c, and the square groove c is of a rectangular hollow structure; the bracket is fixedly arranged on the upper side in the middle of the clamping block c, and the rotary sensor is correspondingly arranged on the inner side in the middle of the bracket; the buckling block C comprises an inserting plate C, the inserting plate C is fixedly arranged on the end face of the outer side of the buckling block C, and the inserting plate C penetrates through the square groove C; the rotary sensor comprises a gear which is correspondingly arranged on the upper side in the middle of the rotary sensor.

Optionally, the vertical rods comprise circular holes and limiting frames, the two circular holes are respectively formed in the inner end surfaces of the lower sides of the two vertical rods, and the two screw rods a are respectively installed in the two circular holes in a penetrating manner; the two groups of limiting frames are respectively and fixedly arranged on the inner side end faces of the two vertical rods, and the two connecting rods are respectively arranged in the two groups of limiting frames in a penetrating manner; the inserting rods comprise racks, the two racks are respectively and transversely fixedly installed at the top ends of the upper sides of the two inserting rods, and the front side and the rear side of one gear are respectively installed on the inner sides, between two racks, in a meshed mode.

Advantageous effects

According to the fixed-point deformation detection device disclosed by the embodiments of the invention, compared with the traditional detection device, the use and installation of the structure can be adjusted more flexibly, the problems of detection sensitivity and detection efficiency reduction caused by the fact that the device is not firm enough and standard enough in installation are solved, the detection error is smaller, and the application range of the deformation device is expanded.

1. In addition, through the mutual through connection installation of vertical pole and interlude pole for vertical pole and interlude pole can flexible operation, and the diameter size of the hydraulic establishment water inlet that detects as required carries out convenient regulation, make the fixed point detect deformation device can be applicable to the hydraulic establishment water inlet diameter that various needs detected, and then enlarge the application scope that the fixed point detected deformation device.

2. In addition, through the connection installation of spacing frame and connecting rod, make fixture block B and the arc shape of detaining the water conservancy facility water inlet pipeline that piece B can detect as required swing and adjust and install on vertical rod, fixture block B and the arc shape of detaining the water conservancy facility water inlet that piece B not only can detect as required adjust the installation, can also fix the mounted position of vertical rod once more simultaneously, not only improve the regulation convenience that the fixed point detected deformation device, still guaranteed the installation standard that the fixed point detected deformation device.

3. In addition, through not installing any power equipment and power electrical apparatus on the gear, the rotation of gear is whole to rely on the meshing of rack to realize for rotary sensor is more accurate with the rotation condition of real-time detection gear, and the rotary sensor of installation carries out synchronous transmission and warning with the rotation information of the gear that detects in real time, and then improves the detectivity that fixed point detected deformation device.

4. In addition, through the rack toothing gear rotation, detect the deformation device with the fixed point and realize detecting the high efficiency of the hydraulic establishment water inlet that detects, and the fixed point detects the deformation device and follows the shape change of the hydraulic establishment water inlet that detects and adjust, will reduce the fixed point as far as and detect the detection error of deformation device, and then improve the detection efficiency that the fixed point detected the deformation device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic top left front axial view of an overall structure according to an embodiment of the invention;

FIG. 2 shows a front right upper schematic axial view of an overall structure according to an embodiment of the invention;

FIG. 3 shows a schematic top right rear perspective view of an overall structure according to an embodiment of the invention;

fig. 4 shows a partially disassembled axial view of the fixture block a and the buckle block a according to the embodiment of the present invention;

fig. 5 shows a partially disassembled axial view of the fixture block B and the buckle block B according to the embodiment of the present invention;

FIG. 6 illustrates a partial axial exploded view of a fixture block C, a clasp block C, and a rotary sensor in accordance with an embodiment of the present invention;

FIG. 7 illustrates a vertical rod portion axial structural schematic according to an embodiment of the present invention;

FIG. 8 illustrates a partially exploded perspective view of a threaded rod portion according to an embodiment of the present invention.

List of reference numerals

1. A clamping block a; 101. an inserting plate a;

2. a buckling block A; 201. a square groove a; 202. a screw a;

3. a clamping block b; 301. an inserting plate b;

4. a buckling block B; 401. a square groove b; 402. a connecting rod;

5. a clamping block c; 501. a square groove c; 502. a support;

6. a buckling block C; 601. c, inserting a plate;

7. a rotation sensor; 701. a gear;

8. a vertical rod; 801. a circular hole; 802. a limiting frame;

9. inserting the rod; 901. a rack.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to fig. 8:

the invention provides a device for detecting deformation of a water conservancy facility at a fixed point, which comprises: the fixture block a1, the fixture block a1 and the buckling block A2 correspond to each other to form a concave block-shaped structure, the fixture block a1 and the buckling block A2 are arranged on the left side and the right side of a water inlet of a water conservancy facility to be detected, and the buckling block A2 and the pair of buckling blocks A2 are respectively and correspondingly arranged on the fixture block a 1; the pair of clamping blocks b3 are respectively and correspondingly arranged on the pair of clamping blocks a1 and the pair of buckling blocks A2; the buckling block B4, a pair of buckling blocks B4 are respectively and correspondingly arranged on the pair of clamping blocks B3, the clamping blocks B3 and the buckling blocks B4 are mutually and correspondingly formed into a concave block-shaped structure, and the clamping blocks B3 and the buckling blocks B4 are arranged on the inclined edge position of the upper end of the water inlet of the water conservancy facility to be detected; a clamping block c5, wherein one clamping block c5 is arranged at the middle upper end of the pair of clamping blocks B3 and the pair of buckling blocks B4; detain piece C6, it installs on fixture block C5 to detain piece C6 correspondence, fixture block C5 forms a spill massive structure with detaining a C6 mutual correspondence, fixture block C5 is installed on the upper end position placed in the middle of the hydraulic establishment water inlet that needs to detect with detaining a C6 buckle, and fixture block a1, fixture block B3 all is the structure of installing in the inboard use of the hydraulic establishment water inlet that needs to detect with detaining a C6, detain a A2, detain a B4 and fixture block C5 and all are the structure of installing in the hydraulic establishment water inlet outside that needs to detect and use, and the fixed point detects the mounting means of deformation device use buckle formula, will improve the fixed point greatly and detect the installation fastness of deformation device.

In another embodiment, install the concave buckle structure of fixture block a1 and knot piece A2 on the structure that needs detect the hydraulic establishment water inlet, replace to transversely install and fix at the structural shaft-like structure that needs detect the hydraulic establishment water inlet, use in daily fixed point's detection, transversely install at the structural shaft-like structure that needs detect the hydraulic establishment water inlet and can influence the normal use of intaking that needs detect the hydraulic establishment water inlet, shaft-like structure transversely install in need detect the hydraulic establishment water inlet simultaneously can block the impurity in the backward flow, cause the phenomenon that needs to detect the hydraulic establishment water inlet and be blockked up by the impurity, and then greatly reduced the fixed point and detected the practicality of deformation device.

The rotary sensor 7 is correspondingly arranged on the upper side of the center of the clamping block c5, the rotary sensor 7 not only detects the displacement abnormity of the fixed-point detection deformation device structure, but also detects the rotation operation of the structure, and the rotary sensor 7 can sensitively detect the shape change of the water inlet of the hydraulic facility, so that the detection sensitivity of the fixed-point detection deformation device is improved; the vertical rods 8, two vertical rods 8 are respectively vertically arranged on the pair of buckling blocks A2; interlude pole 9, two interlude poles 9 are vertical run through respectively and are installed in two vertical poles 8, and vertical pole 8 and interlude pole 9 are rectangular structure, vertical pole 8 and the mutual through connection of interlude pole 9, when the water conservancy facility water inlet diameter that needs detected is less, interlude pole 9 is to vertical pole 8 inboard indentation, when the water conservancy facility water inlet diameter that needs detected is great, interlude pole 9 stretches out to vertical pole 8's the outside, realize vertical pole 8 and the flexible operation each other of interlude pole 9 structure, vertical pole 8 and the water conservancy facility water inlet diameter that interlude pole 9 will be applicable to various needs and detect, and then enlarge the application scope that the fixed point detected deformation device.

The clamping block a1 comprises two inserting plates a101, the two inserting plates a101 are respectively fixedly arranged on the outer end faces of the two clamping blocks a1, and the inserting plates a101 and the clamping blocks a1 are arranged to form an L-shaped plate-shaped structure; the buckling block A2 comprises a square groove a201 and a screw a202, the two square grooves a201 are respectively formed in the end faces of the inner sides of the two buckling blocks A2, the square groove a201 is of a rectangular hollow structure, the two inserting plates a101 are respectively installed in the two square grooves a201 in a penetrating mode, the inserting plates a101 can be conveniently installed in the penetrating mode through the square grooves a201 due to the fact that the square grooves a201 are formed, and the phenomenon that the inserting plates a101 penetrate through the square grooves a201 to rotate and shift is prevented; two screws a202 transversely penetrate through the pair of buckling blocks A2, the pair of clamping blocks a1 and the pair of vertical rods 8 respectively, the pair of buckling blocks A2 and the pair of clamping blocks a1 are fixedly installed at the positions of water conservancy facility water inlets needing to be detected through the screws a202, and the pair of buckling blocks A2 and the pair of clamping blocks a1 are guaranteed to be firmly installed on the water conservancy facility water inlets needing to be detected.

The clamping block b3 comprises two inserting plates b301, the two inserting plates b301 are respectively fixedly installed on the end faces of the outer sides of the clamping blocks b3, and the inserting plates b301 and the clamping blocks b3 are installed to form an L-shaped plate-shaped structure; the buckling block B4 comprises a square groove B401 and a connecting rod 402, the two square grooves B401 are respectively arranged on the end surfaces of the inner sides of the two buckling blocks B4, the square groove B401 is of a rectangular hollow structure, the two inserting plates B301 are respectively installed in the two square grooves B401 in a penetrating mode, and the firm installation of the clamping block B3 and the buckling block B4 is achieved by inserting and installing the inserting plates B301 and the square grooves B401; the two connecting rods 402 are respectively fixedly installed on the outer side end faces of the two buckling blocks B4, and the buckling blocks B4 are flexibly connected, installed and used by the installation of the connecting rods 402.

The fixture block c5 comprises a square groove c501 and a support 502, the square groove c501 is formed in the end face of the inner side of the fixture block c5, the square groove c501 is of a rectangular hollow structure, the rectangular hollow structure is relatively poor in installation effect of a buckle of the structure compared with a structure which is formed by inserting the buckle in a circular hollow structure, the connection among the structures is prone to generating a phenomenon of rotation and displacement, and the square groove a201, the square groove b401 and the square groove c501 are of rectangular hollow structures and are more suitable for being used; the bracket 502 is fixedly arranged on the upper side of the fixture block C5 in the middle, the rotary sensor 7 is correspondingly arranged on the inner side of the bracket 502 in the middle, the bracket 502 lifts and fixes the rotary sensor 7 to ensure that the installation positions of the rotary sensor 7 and the gear 701 are suitable for the matching use of the inserting rod 9, the fixture block C5, the buckle block C6 and the bracket 502 are structures arranged at the upper end of the middle of the water conservancy facility water inlet needing to be detected, the installation heights of the fixture block C5, the buckle block C6 and the bracket 502 are determined by the diameter of the water conservancy facility water inlet needing to be detected, and the fixed-point detection deformation device is reasonable in structure; the buckling block C6 comprises an inserting plate C601, the inserting plate C601 is fixedly installed on the outer end face of the buckling block C6, the inserting plate C601 is installed in a square groove C501 in a penetrating mode, circular adjusting holes are formed in the inserting plate C601, the clamping block C5, the inserting plate B301, the buckling block B4, the inserting plate a101 and the buckling block A2 in a penetrating mode, the inserting plate C601, the inserting plate B301 and the inserting plate a101 can be adjusted in the clamping block C5, the buckling block B4 and the buckling block A2 in a sliding mode according to the thickness of a water inlet pipeline of a water conservancy facility to be detected, the adjusting holes formed in the inserting plate C601 and the clamping block C5 correspond to the adjusting holes formed in the buckling block B301 and the buckling block B4, the inserting plate a101 and the buckling block A2 correspond to the adjusting holes formed in the inserting plate a101 and the buckling block A2, inserting rods are respectively used for installing in the corresponding adjusting holes in the penetrating mode, the inserting plate C601, the clamping block C5, the inserting plate B301, the buckling block B4, the buckling block a101 and the buckling block A2 are fixedly installed, and the buckling block A2, and the convenience in using and convenience in fixed-point detection is improved again.

The rotary sensor 7 comprises a gear 701, the gear 701 is correspondingly installed on the upper side of the middle of the rotary sensor 7, any power equipment and power electrical appliance are not installed on the gear 701, the rotation of the gear 701 is realized by means of the engagement of the rack 901, the rotary sensor 7 detects the rotation condition of the gear 701 in real time, when the gear 701 rotates, the rotary sensor 7 synchronously transmits and alarms the rotation information of the gear 701 detected in real time, and the detection sensitivity of the fixed-point detection deformation device is improved again; the vertical rods 8 comprise circular holes 801 and limiting frames 802, the two circular holes 801 are respectively formed in inner end surfaces of the lower sides of the two vertical rods 8, the two screw rods a202 are respectively installed in the two circular holes 801 in a penetrating mode, the circular holes 801 are convenient for the screw rods a202 to be installed on the buckling blocks A2 and the clamping blocks a1 in a penetrating mode, and only the vertical rods 8 are vertically installed on the buckling blocks A2 and the clamping blocks a1, so that the detection accuracy of the fixed-point deformation detection device can be achieved; two sets of spacing frames 802 are fixed mounting respectively on the medial extremity face of two vertical poles 8, and two connecting rods 402 run through respectively and install in two sets of spacing frames 802, spacing frame 802 connects connecting rod 402 and installs, make the circular arc shape of the water conservancy facility water inlet pipeline that connecting rod 402 can detect as required swing and adjust, the water conservancy facility water inlet diameter that detects as required is different, the circular arc shape of the water conservancy facility water inlet that needs to detect is also different, and connecting rod 402 connects fixture block B3 and knot piece B4 and installs on vertical pole 8, fixture block B3 and knot piece B4 will install fixed vertical pole 8's mounted position once more, guarantee the fixed point and detect the installation standard of deformation device.

Wherein, the penetrating rod 9 includes rack 901, two racks 901 are transversely fixed mounting respectively on the upside top of two penetrating rods 9, and the front and back both sides of a gear 701 mesh respectively and install at the inboard between two racks 901, and the removal of two penetrating rods 9 will drive two racks 901 that the upper end installed respectively in step and move, when the water conservancy facility water inlet that needs to detect takes place to warp, the diameter of the water conservancy facility water inlet that fixed point detection deformation device detected will take place to reduce or the shape change that enlarges, and when the diameter of the water conservancy facility water inlet that detects takes place to reduce or the shape change that enlarges, fixture block a1, detain piece A2, vertical rod 8 and penetrating rod 9 will follow the change of the water conservancy facility water inlet that detects and change, when the diameter of the water conservancy facility water inlet that detects reduces, a pair of vertical rod 8 and a pair of penetrating rod 9 follow the water conservancy facility water inlet that detects and correspond the removal to the inboard, penetrating rod 9 will drive 901 rack meshing gear 701 gear meshing gear 701 rotation to drive, when the diameter of the water conservancy facility water inlet that detects, a pair of vertical rod 8 and a pair of penetrating rod 9 follows the water conservancy facility water inlet that detects change that detects and change that the efficiency that the fixed point detection device that follows that detects is improved, the detection efficiency that fixed point detection deformation detection device detects is also can follow the fixed point detection deformation detection device to the fixed point detection.

The specific use mode and function of the embodiment are as follows: according to the invention, a pair of clamping blocks a1 are respectively arranged at the left end and the right end of the inner side of a water conservancy facility water inlet to be detected, a pair of buckling blocks A2 are correspondingly arranged on the clamping blocks a1 in a penetrating manner through a square groove a201 and an inserting plate a101, the clamping blocks a1 and the buckling blocks A2 are telescopically adjusted according to the pipeline thickness of the water conservancy facility water inlet to be detected, adjusting holes formed in the inserting plate a101 and the buckling blocks A2 are corresponding, an inserting rod is arranged in the adjusting holes formed in the inserting plate a101 and the buckling blocks A2 in a penetrating manner, and the buckling blocks A2 and the clamping blocks a1 are respectively arranged at the left end and the right end of the outer side of the water conservancy facility water inlet to be detected in a buckling manner; then, circular holes are formed in the left side and the right side of the fixture block a1, the buckling block A2 and the water conservancy facility water inlet to be detected, the circular hole 801 in the vertical rod 8, the fixture block a1, the buckling block A2 and the circular hole of the water conservancy facility water inlet to be detected correspond to each other, the vertical rod 8 is vertically and closely mounted on the end face of the outer side of the buckling block A2, and two screws a202 penetrate through the circular holes 801 mounted on the pair of vertical rods 8, the pair of fixture blocks a1, the pair of buckling blocks A2 and the circular hole of the water conservancy facility water inlet to be detected respectively;

the fixture block B3 and the buckle block B4 are mounted on the vertical rod 8 in a manner of penetrating through the square groove B401 on the buckle block B4 corresponding to the insertion plate B301 by using the same buckle mounting method of the insertion plate a101 and the buckle block A2, the fixture block B3 and the buckle block B4 are mounted on the inclined edge position of the upper end of the water inlet of the water conservancy facility to be detected, the fixture block B3 and the buckle block B4 are connected and mounted on the limiting frame 802 on the vertical rod 8 through the connecting rod 402, the mounting positions of the fixture block B3 and the buckle block B4 are adjusted in a swinging manner according to the arc shape of the water inlet pipeline of the water conservancy facility to be detected, the fixture block B3 and the buckle block B4 are connected and mounted on the vertical rod 8 through the connecting rod 402, and the fixture block B3 and the buckle block B4 are mounted and fixed on the vertical rod 8 again; then, the fixture block C5 and the buckle block C6 are installed by the same buckle installation method, the square groove C501 is correspondingly installed on the inserting plate C601 and is installed in a penetrating mode, the fixture block C5 and the buckle block C6 are installed on the middle upper end position of the water conservancy facility water inlet needing to be detected in a buckling mode, and the rotary sensor 7 and the gear 701 are installed on the middle upper end position of the water conservancy facility water inlet in a lifting mode through the support 502;

the inserting rod 9 is telescopically installed on the upper side, in the middle, of the vertical rod 8, the two inserting rods 9 are installed together in a corresponding mode, the two racks 901 are respectively installed at the front end and the rear end of the gear 701 in a meshed mode, the rotary sensor 7 is started, the fixture block a1, the buckle block A2, the vertical rod 8 and the inserting rod 9 can change along with the change of a detected water conservancy facility water inlet, when the diameter of the detected water conservancy facility water inlet is reduced, the pair of vertical rods 8 and the pair of inserting rods 9 can move inwards correspondingly along with the detected water conservancy facility water inlet, the inserting rods 9 can drive the racks 901 to be meshed with the gear 701 to rotate, when the gear 701 rotates, the rotary sensor 7 can synchronously transmit and alarm the rotation information of the gear 701 detected in real time.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (10)

1. The utility model provides a device of fixed point detection hydraulic facilities deformation which characterized in that includes: the pair of buckling blocks A (2) are respectively and correspondingly arranged on the pair of clamping blocks a (1); the pair of clamping blocks b (3) are respectively and correspondingly arranged on the pair of clamping blocks a (1) and the pair of buckling blocks A (2); the pair of buckling blocks B (4) are respectively and correspondingly arranged on the pair of clamping blocks B (3); the clamping block c (5), one clamping block c (5) is arranged in the middle of the upper ends of the clamping blocks B (3) and the buckling blocks B (4); the buckling block C (6), the buckling block C (6) is correspondingly installed on the clamping block C (5); the rotation sensor (7) is correspondingly installed on the upper side of the center of the clamping block c (5); the two vertical rods (8) are respectively and vertically arranged on the pair of buckling blocks A (2); and the two inserting rods (9) are vertically arranged in the two vertical rods (8) in a penetrating way respectively, and the two inserting rods (9) are vertically arranged in the two vertical rods (8).

2. The apparatus for fixed-point detection of hydraulic structure deformation according to claim 1, wherein: the clamping block a (1) comprises two insertion plates a (101), and the two insertion plates a (101) are fixedly installed on the outer end faces of the two clamping blocks a (1) respectively.

3. The apparatus for fixed-point detection of hydraulic structure deformation according to claim 2, wherein: the buckling block A (2) comprises a square groove a (201) and a screw a (202), the square grooves a (201) are respectively arranged on the end surfaces of the inner sides of the two buckling blocks A (2), and the two inserting plates a (101) are respectively arranged in the two square grooves a (201) in a penetrating mode; the two screw rods a (202) are respectively transversely installed in the pair of buckling blocks A (2), the pair of clamping blocks a (1) and the pair of vertical rods (8) in a penetrating mode.

4. A device for fixed-point detection of hydraulic structure deformation according to claim 3, characterized in that: the fixture block b (3) comprises two insertion plates b (301), and the two insertion plates b (301) are fixedly installed on the outer end faces of the pair of fixture blocks b (3) respectively.

5. The device of claim 4, wherein the means for detecting the deformation of the hydraulic structure at a fixed point comprises: the buckling block B (4) comprises a square groove B (401) and a connecting rod (402), the two square grooves B (401) are respectively arranged on the end surfaces of the inner sides of the two buckling blocks B (4), and the two inserting plates B (301) are respectively arranged in the two square grooves B (401) in a penetrating mode; the two connecting rods (402) are respectively and fixedly arranged on the outer end faces of the two buckling blocks B (4).

6. The apparatus for fixed-point detection of hydraulic structure deformation according to claim 1, wherein: the fixture block c (5) comprises a square groove c (501) and a bracket (502), and the square groove c (501) is formed in the end face of the inner side of the fixture block c (5); the bracket (502) is fixedly arranged on the upper side in the middle of the clamping block c (5), and the rotation sensor (7) is correspondingly arranged on the inner side in the middle of the bracket (502).

7. The device of claim 6, wherein the means for detecting the deformation of the hydraulic structure at a fixed point comprises: the buckling block C (6) comprises an inserting plate C (601), the inserting plate C (601) is fixedly installed on the end face of the outer side of the buckling block C (6), and the inserting plate C (601) penetrates through the square groove C (501).

8. A device for the fixed-point detection of deformations of a hydraulic structure according to claim 1, characterized in that: the rotary sensor (7) comprises a gear (701), and the gear (701) is correspondingly installed on the upper side of the center of the rotary sensor (7).

9. The apparatus according to claim 5, wherein the apparatus for fixed-point measurement of hydraulic deformation comprises: the vertical rods (8) comprise round holes (801) and limiting frames (802), the round holes (801) at two positions are respectively formed in the inner end faces of the lower sides of the two vertical rods (8), and the two screw rods a (202) are respectively installed in the round holes (801) in a penetrating mode; the two groups of limiting frames (802) are fixedly installed on the inner side end faces of the two vertical rods (8) respectively, and the two connecting rods (402) are installed in the two groups of limiting frames (802) in a penetrating mode respectively.

10. The apparatus according to claim 8, wherein the apparatus for fixed-point measurement of hydraulic deformation comprises: the penetration rods (9) comprise racks (901), the two racks (901) are respectively and transversely fixedly installed at the top ends of the upper sides of the two penetration rods (9), and the front side and the rear side of one gear (701) are respectively installed on the inner sides of the two racks (901) in the middle in a meshed mode.

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