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CN-224230887-U - Wind power generation blade compound die seam detecting system

CN224230887UCN 224230887 UCN224230887 UCN 224230887UCN-224230887-U

Abstract

The utility model provides a wind power generation blade compound die seam detecting system, includes to detect wind power generation blade, measures claw and bears shell, linkage ring, claw gangbar, outside linkage pneumatic cylinder, fluid infusion hole connecting screw, measuring mechanism and bear shell, interior sliding support frame, it has to wait to detect the compound die seam to wait to detect wind power generation blade side, waits to detect wind power generation blade side and is provided with and measures claw and bear the shell, measures claw and bears the inside bottom jaw piece, the top jaw piece that is provided with of shell, top jaw piece is located bottom jaw piece upper portion, and bottom jaw piece suits with measuring claw and bear the shell, and measuring claw bears the shell and connect bottom jaw piece. The side surface of the bearing shell of the measuring mechanism is provided with the support structure formed by the inner sliding support frame, the outer support block and the like, so that an operator can generally support the device on the side surface of the wind power generation blade to be detected when carrying out measuring operation, and the operator does not need to continuously hold the device in the measuring process, thereby further improving the measuring accuracy.

Inventors

  • HOU ZHANWEI
  • XING RONGFEN

Assignees

  • 天津明阳风能叶片技术有限公司

Dates

Publication Date
20260512
Application Date
20250518

Claims (10)

  1. 1. A wind power generation blade mold closing seam detection system is characterized by comprising a wind power generation blade (1) to be detected, a measuring claw bearing shell (3), a linkage ring (4), a first claw linkage rod (6), an outer linkage hydraulic cylinder (9) and a fluid supplementing hole connecting screw (11), wherein a mold closing seam (2) to be detected is arranged on the side face of the wind power generation blade (1) to be detected, the measuring claw bearing shell (3) is arranged on the side face of the wind power generation blade (1) to be detected, a bottom claw block (60) and a top claw block (61) are arranged in the measuring claw bearing shell (3), the top claw block (61) is located on the upper portion of the bottom claw block (60), the bottom claw block (60) is matched with the measuring claw bearing shell (3), the measuring claw bearing shell (3) is connected with the bottom claw block (60), the bottom claw block (60) slides in the measuring claw bearing shell (3), a claw avoiding groove (27) is formed in the bottom claw block (60), the claw avoiding groove (27) is matched with the top claw block (61), the claw groove (27) is connected with the top claw block (61), and the top claw block (61) slides in the inside the claw block (27).
  2. 2. The wind turbine blade mold closing slit detection system of claim 1, wherein the bottom jaw block (60) is provided with a second measuring jaw (23) on the side facing the mold closing slit (2) to be detected, the top jaw block (61) is provided with a first measuring jaw (7) on the side facing the mold closing slit (2) to be detected, the first measuring jaw (7) and the second measuring jaw (23) are both triangular in design formed by a flat surface and an inclined surface, the side of the first measuring jaw (7) facing the second measuring jaw (23) is a flat surface, the side of the first measuring jaw (7) facing the second measuring jaw (23) is an inclined surface, the side of the second measuring jaw (23) facing the first measuring jaw (7) is a flat surface, the side of the second measuring jaw (23) facing the first measuring jaw (23) is an inclined surface, the flat surfaces of the first measuring jaw (7) and the second measuring jaw (23) are parallel to each other, and the flat surfaces of the first measuring jaw (23) and the second measuring jaw (23) are connected with the inner wall surface to be detected, and the upper surface of the second measuring jaw (2) to be detected is a flat surface, and the upper surface of the lower jaw (2) to be detected is connected with the upper surface of the lower jaw (2) to be detected, and the upper seam is detected.
  3. 3. The wind turbine blade mold closing slit detection system of claim 2, wherein a linkage ring positioning groove (41) is formed in one side of the measurement claw bearing shell (3) facing the wind turbine blade (1) to be detected, a linkage ring (4) is arranged on one side of the measurement claw bearing shell (3) facing the wind turbine blade (1) to be detected, a linkage ring positioning rod (40) is arranged on one side of the linkage ring (4) facing the measurement claw bearing shell (3), the linkage ring positioning rod (40) is adaptive to the linkage ring positioning groove (41), the linkage ring positioning rod (40) is connected with the linkage ring positioning groove (41), the linkage ring positioning rod (40) slides in the linkage ring positioning groove (41), the linkage ring (4) is connected with the measurement claw bearing shell (3) through a spring, an inner first rod connecting table (5) is arranged at the top of the linkage ring (4), an outer first rod connecting table (8) is arranged on one side of the first measurement claw (7) far away from the second measurement claw (23), a first claw rod connecting table (8) is connected with the top of the outer first rod connecting table (8), a second claw connecting table (24) is arranged on one side of the first measurement claw (7) far away from the inner claw connecting table (24), the top of the second claw connecting rod (25) is rotationally connected with the inner second rod connecting table (26).
  4. 4. The wind turbine blade clamping seam detection system of claim 3, wherein the bottom of the second claw connecting rod (25) is rotationally connected with the outer second rod connecting table (24), the bottom of the measuring claw bearing shell (3) is provided with a side rod outer connecting groove (32) and a middle rod outer connecting groove (33), the middle rod outer connecting groove (33) is positioned on the side surface of the side rod outer connecting groove (32), the bottom claw block (60) is provided with a hydraulic rod connecting table (30), the bottom of the hydraulic rod connecting table (30) is provided with a side hydraulic rod (59), the bottom of the side hydraulic rod (59) is provided with a top hydraulic plug (29), the position of the side hydraulic rod (59) corresponds to the position of the side rod outer connecting groove (32), the bottom of the top claw block (61) is provided with a middle hydraulic rod (31), the bottom of the middle hydraulic rod (31) is provided with a bottom hydraulic plug (28), the position of the middle hydraulic rod outer connecting groove (33), and the bottom of the measuring claw bearing shell (3) is connected with an outer linkage hydraulic cylinder (9).
  5. 5. The wind turbine blade clamping seam detection system of claim 1, wherein the top of the outer linkage hydraulic cylinder (9) is provided with a side rod inner connecting groove (34) and a middle rod inner connecting groove (35), the position of the side rod inner connecting groove (34) corresponds to the position of the side rod outer connecting groove (32), the position of the middle rod inner connecting groove (35) corresponds to the position of the middle rod outer connecting groove (33), the middle part of the top hydraulic plug (29) is provided with a hydraulic rod avoiding groove (36), the side hydraulic rod (59) is matched with the side rod outer connecting groove (32) and the side rod inner connecting groove (34), the side hydraulic rod (59) is sequentially connected with the side rod outer connecting groove (32) and the side rod inner connecting groove (34), the side hydraulic rod (59) slides in the side rod outer connecting groove (32) and the side rod inner connecting groove (34), the middle hydraulic rod (31) is sequentially connected with the middle rod outer connecting groove (33), the middle rod inner connecting groove (35) and the middle rod inner connecting groove (36), the middle rod (31) is sequentially connected with the middle rod outer connecting groove (33), the middle rod inner connecting groove (35) and the middle rod inner connecting groove (36) is sequentially connected with the middle rod inner connecting groove (33), the top hydraulic plug (29) is connected with the outer linkage hydraulic cylinder (9), the top hydraulic plug (29) slides in the outer linkage hydraulic cylinder (9), the bottom hydraulic plug (28) is suitable for the outer linkage hydraulic cylinder (9), the bottom hydraulic plug (28) is connected with the outer linkage hydraulic cylinder (9), the bottom hydraulic plug (28) slides in the outer linkage hydraulic cylinder (9), one side of the outer linkage hydraulic cylinder (9) is provided with a fluid supplementing hole (10), the fluid supplementing hole (10) is in a centering position, the fluid supplementing hole (10) is in threaded connection with a fluid supplementing hole connecting screw (11), the other side of the outer linkage hydraulic cylinder (9) is provided with an upper hydraulic pipe connecting table (37), the upper hydraulic pipe connecting table (37) is in a centering position, one side, close to a wind power generation blade (1) to be detected, of the outer linkage hydraulic cylinder (9) is provided with a measuring mechanism bearing shell (12), the top of the measuring mechanism bearing shell (12) is provided with a bearing shell connector (58), the top of the bearing shell connector (58) is connected with a measuring claw bearing shell (3), the inside of the measuring mechanism bearing shell (12) is provided with an inner linkage (42), a gear shaft (46), a gear rack (49), and a driven pipe (39) is connected with the top hydraulic mechanism (52).
  6. 6. The wind turbine blade mold closing seam detection system of claim 5, wherein the lower hydraulic pipe connecting table (39) is located on one side, far away from the wind turbine blade (1) to be detected, of the bearing shell connector (58), the top of the hydraulic communication pipe (38) is connected with the upper hydraulic pipe connecting table (37), the bottom of the hydraulic communication pipe (38) is connected with the lower hydraulic pipe connecting table (39), one side, far away from the wind turbine blade (1) to be detected, of the inner linkage hydraulic cylinder (42) is provided with an inner first linkage cylinder (43), one side, close to the wind turbine blade (1) to be detected, of the inner linkage hydraulic cylinder (42) is provided with an inner second linkage cylinder (44), the position of the inner first linkage cylinder (43) corresponds to the position of the lower hydraulic pipe connecting table (39), the top of the inner first linkage cylinder (43) is connected with the top of the inner wall of the measuring mechanism bearing shell (12), the bottom of the inner first linkage cylinder (43), the inner second linkage cylinder (44), the hydraulic communication pipe (38) and the inner space of the outer hydraulic cylinder (9) are provided with inner hydraulic oil, and the inner second linkage cylinder (44) is communicated with each other, and a driving rack (46) is arranged on the top.
  7. 7. The wind turbine blade mold closing seam detection system of claim 6, wherein a rack driving hydraulic rod (45) and a driving rack (47) are arranged at the bottom of the rack driving block (46), the rack driving hydraulic rod (45) and the driving rack (47) are respectively positioned at two sides of the rack driving block (46), the rack driving hydraulic rod (45) is matched with an inner second linkage cylinder (44), the rack driving hydraulic rod (45) is connected with the inner second linkage cylinder (44), the rack driving hydraulic rod (45) slides in the inner second linkage cylinder (44), the driving rack (47) is pressed on the inner wall of a measuring mechanism bearing shell (12), the driving rack (47) slides on the inner wall of the measuring mechanism bearing shell (12), a gear shaft connecting table (48) is arranged on the side face of the measuring mechanism bearing shell (12), the gear shaft connecting table (48) is rotationally connected with a gear shaft (49), one side, facing the inner part of the measuring mechanism bearing shell (12), of the gear shaft (49) is fixedly connected with a first gear (50) and a second gear (51), the radius of the second gear (51) is larger than that of the first gear (50), the first gear (50) is meshed with the inner gear (47) of the measuring mechanism bearing shell (12), and the measuring mechanism bearing shell (53) is provided.
  8. 8. The wind turbine blade seam inspection system of claim 7, wherein the driven rack (52) is adapted to the rack mounting groove (53), the driven rack (52) is connected to the rack mounting groove (53), the driven rack (52) slides inside the rack mounting groove (53), the driven rack (52) is meshed with the second gear (51), a size scale pointer (55) is provided on the side of the driven rack (52), a size scale groove (54) is provided on the side of the measuring mechanism bearing shell (12), the size scale groove (54) corresponds to the size scale pointer (55), the size scale groove (54) is adapted to the size scale pointer (55), the size scale pointer (55) is connected to the size scale pointer (55), the size scale pointer (55) slides inside the size scale groove (54), a lifting slide (13) is provided on the side of the measuring mechanism bearing shell (12) close to the wind turbine blade (1) to be inspected, a sliding support frame (14) is provided on the side of the lifting slide (13) close to the wind turbine blade (1), a lifting slide (15) is provided on the side of the sliding support frame (14) close to the measuring mechanism bearing shell (12), the lifting slide (15) is connected to the lifting slide (13) and the lifting slide (13) is connected to the lifting slide (15), the lifting slide connecting block (15) slides outside the lifting slide (13), a slide positioning table (56) is arranged on the side face of the lifting slide connecting block (15), the slide positioning table (56) is in threaded connection with a slide positioning screw (57), the slide positioning screw (57) is tightly pressed on the side face of the lifting slide (13), and an outer supporting block (16) is arranged on one side, close to the wind power generation blade (1) to be detected, of the inner sliding supporting frame (14).
  9. 9. The wind power generation blade mold closing seam detection system according to claim 8, wherein an outer sliding support frame (17) is arranged on one side, facing the inner sliding support frame (14), of the outer supporting block (16), the outer sliding support frame (17) is matched with the inner sliding support frame (14), the outer sliding support frame (17) is connected with the inner sliding support frame (14), the inner sliding support frame (14) slides in the inner sliding support frame (17), the inner sliding support frame (14) is connected with the inner sliding support frame (17) through a spring, an outer supporting seat connecting block (19) is arranged on one side, close to the wind power generation blade (1) to be detected, of the outer supporting block (16), a supporting base (18) is arranged on one side, close to the outer supporting seat connecting block (19), of the outer supporting block (16), and an inner supporting seat connecting block (20) is arranged on one side, close to the outer supporting seat connecting block (19).
  10. 10. The wind turbine blade clamping seam detection system of claim 9, wherein the inner support seat connecting block (20) is rotatably connected with the outer support seat connecting block (19), a support seat fastening table (21) is arranged on the side surface of the outer support seat connecting block (19), the support seat fastening table (21) is in threaded connection with a support seat fastening screw (22), the support seat fastening screw (22) is tightly pressed on the side surface of the inner support seat connecting block (20), a sucker (63) is arranged on one side, facing the wind turbine blade (1) to be detected, of the support base (18), and the sucker (63) is sucked on the surface of the wind turbine blade (1) to be detected.

Description

Wind power generation blade compound die seam detecting system Technical Field The utility model relates to the field of wind power generation blades, in particular to a detection system for a mold closing seam of a wind power generation blade. Background The prior patent (bulletin number: CN 119268537A) proposes a wind power blade mold closing seam thickness detection device and a method thereof, the wind power blade mold closing seam thickness detection device comprises a pressed body, a detection assembly, a power supply and a signal processor, wherein the pressed body comprises a contact plate I and a contact plate II, one end revolute pair of the contact plate I and one end revolute pair of the contact plate II are connected, the relative rotation axis of the contact plate I and the contact plate II is A, an included angle between the contact plate I and the contact plate II is an acute angle, the point on the contact plate I farthest from the axis A is B, however, each conductive contact of the device is respectively connected with one wire, 10 wires are all mutually not contacted or mutually insulated, the wires and a power supply device are needed in the measurement process of the device, and various devices are needed to be carried in the measurement process, so that the measurement convenience is affected. Disclosure of Invention The utility model aims at the defects in the prior art, and provides the wind power generation blade mold closing seam detection system which can support the device on the side surface of the wind power generation blade to be detected when an operator performs measurement operation, is not required to be held continuously in the measurement process, avoids errors caused by vibration of the hand in the measurement process in the hand-held measurement process, further increases the measurement accuracy and ensures that the measurement operation is more convenient and quicker. The utility model aims at realizing the following technical scheme: The utility model provides a wind power generation blade compound die seam detecting system, including waiting to detect wind power generation blade, measurement claw bears the shell, the linkage ring, first claw gangbar, outside linkage pneumatic cylinder, fluid infusion hole connecting screw, measurement mechanism bears the shell, interior sliding support frame, outside supporting shoe, the support base, supporting seat fastening screw, no. two claw connecting rods, hydraulic pressure communicating pipe, interior linkage pneumatic cylinder, rack driving piece, gear shaft, no. one gear, no. two gears, driven rack, slide set screw, bottom jaw piece, top jaw piece, wait to detect wind power generation blade side and have and wait to detect the compound die seam, wait to detect wind power generation blade side and be provided with the measurement claw and bear the shell, measurement claw bears the inside bottom jaw piece, top jaw piece that is provided with of shell, top jaw piece is located bottom jaw piece upper portion, bottom jaw piece suits with measurement claw bears the shell, measurement claw bears the shell and connects bottom jaw piece, bottom jaw piece slides in measurement claw bears the shell inside. The bottom jaw piece is inside to have the jack catch and dodge the groove, the jack catch dodges the groove and suits with the jack catch piece, the jack catch piece dodges the groove and slides in jack catch dodge the inslot portion, the bottom jaw piece has No. two measurement jaws towards the one side of waiting to detect the die joint, the jack catch piece has No. one measurement jaw towards the one side of waiting to detect the die joint, no. one measurement jaw is the triangle-shaped design that constitutes by plane and inclined plane with No. two measurement jaws, no. one measurement jaw is the plane towards one side of No. two measurement jaws, no. one measurement jaw is kept away from one side of No. two measurement jaws and is the inclined plane, no. two measurement jaws are kept away from one side of No. one measurement jaw and are the inclined plane, and No. one measurement jaw, no. two measurement jaw's plane is parallel to each other, no. one measurement jaw, no. two measurement jaw's plane is connected with the lower inner wall face of waiting to detect the die joint with waiting to detect the upper inner wall surface of die joint, no. two measurement jaw's inclined plane is connected with waiting to detect the lower die joint with waiting to detect the die joint respectively. The measuring claw bearing shell is provided with a linkage ring positioning groove towards one side of the wind power generation blade to be detected, the measuring claw bearing shell is provided with a linkage ring towards one side of the wind power generation blade to be detected, the linkage ring is provided with a linkage ring positioning rod towards one side of the measuring claw bearing shell, the linkage ring positioning rod is matc