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CN-224209811-U - Bearing equipment detects ring flange

CN224209811UCN 224209811 UCN224209811 UCN 224209811UCN-224209811-U

Abstract

The utility model relates to the technical field of detection and positioning of bearing equipment, and discloses a detection flange of the bearing equipment, which comprises a flange base, a positioning assembly and a flange base, wherein the flange base is of a hollow cylindrical structure and is used for supporting and placing a bearing piece to be detected, the positioning assembly is arranged in the bottom end of the flange base, the whole positioning assembly is of an axisymmetric structure, and the positioning assembly core driving piece is an electric push rod, the top of the electric push rod is correspondingly welded with the center of the inner top end of the flange plate base, and the bearing equipment detects the flange plate, so that the detection efficiency and the suitability are obviously improved, the detection precision and the reliability of the bearing detection result are ensured, and a powerful guarantee is provided for bearing production quality control.

Inventors

  • XU LI

Assignees

  • 嵊州市鑫斯捷机械有限公司

Dates

Publication Date
20260508
Application Date
20250609

Claims (9)

  1. 1. The utility model provides a bearing equipment detects ring flange which characterized in that includes: The flange base (1) is of a hollow cylindrical structure and is used for supporting and placing a bearing piece to be detected; The positioning assembly is arranged inside the bottom end of the flange plate base (1), the whole positioning assembly is of an axisymmetric structure, and the core driving piece of the positioning assembly is an electric push rod (2), and the top of the electric push rod (2) is correspondingly welded with the center of the top end inside the flange plate base (1).
  2. 2. The flange for detecting the bearing equipment according to claim 1, wherein the top of the flange base (1) is provided with five groups of sliding grooves (6) distributed in an annular array, the outer edge of the top of the flange base (1) is provided with a circle of guard rings (7), the bottom of the flange base (1) is provided with a connecting ring (8), and the end face of the connecting ring (8) is provided with a group of fixing holes (9) distributed in an annular array.
  3. 3. The bearing equipment detection flange plate according to claim 1, wherein the positioning assembly comprises an electric push rod (2), a connecting piece (3), a driving rod (4) and a positioning piece (5), the connecting piece (3) is arranged at the shaft end of the output push rod at the bottom of the electric push rod (2), five positioning pieces (5) distributed in an annular array are arranged at the top of the positioning assembly, the positioning pieces (5) are correspondingly connected with the top of the sliding groove (6) in a sliding fit manner, and the driving rod (4) is arranged between the positioning pieces (5) and the connecting piece (3).
  4. 4. A bearing equipment detection flange plate according to claim 3 is characterized in that a matching column (10) is arranged at the bottom output push rod end of the electric push rod (2).
  5. 5. The flange for detecting bearing equipment according to claim 3, wherein the center of the end face of the connecting piece (3) is provided with a matching hole (11), the matching hole (11) is correspondingly matched and sleeved with the matching column (10), and the side wall of the connecting piece (3) is provided with five connecting rods (12) which are in axisymmetric distribution.
  6. 6. The flange plate for detecting bearing equipment according to claim 3, wherein the positioning piece (5) is composed of three parts, namely a positioning block (13), a sliding block (14) and a connecting block (15), the middle component of the positioning piece (5) is the sliding block (14), the sliding block (14) is correspondingly connected with the inside of the sliding groove (6) in a sliding fit mode, the positioning block (13) is welded at the top of the sliding block (14), the connecting block (15) is welded at the bottom of the sliding block (14), and the connecting rod II (20) is arranged inside the bottom end of the connecting block (15).
  7. 7. The flange for detecting the bearing equipment according to claim 6, wherein the side wall of the positioning block (13) faces the axis side of the flange base (1) and is provided with an arc-shaped rubber block (16), the side wall of the arc-shaped rubber block (16) is provided with an anti-skid convex layer (17), the bottom of the positioning block (13) is provided with an inner cavity (18), and the inner part of the inner cavity (18) is correspondingly welded with the top of the sliding block (14).
  8. 8. The flange for detecting the bearing equipment according to claim 6, wherein two rollers (19) which are axisymmetrically distributed are arranged on two opposite side walls of the top of the sliding block (14), the rollers (19) roll correspondingly to the top end face of the flange base (1), and the four rollers (19) are all arranged in the inner cavity (18).
  9. 9. A bearing equipment detection flange according to claim 3 is characterized in that the two shaft ends of the driving rod (4) are respectively connected with the first connecting rod (12) and the second connecting rod (20) in a rotating fit manner.

Description

Bearing equipment detects ring flange Technical Field The utility model relates to the technical field of detection and positioning of bearing equipment, in particular to a detection flange plate of bearing equipment. Background In the field of bearing production and manufacturing, high-efficiency and accurate detection of the dimensional accuracy, form and position tolerance and dynamic performance of a bearing is a key link for ensuring the quality of a product. The traditional bearing detection equipment generally relies on a special detection flange to fix and position the bearing, however, the existing detection flange exposes remarkable limitations in practical application, and currently, the market demand of the bearing shows diversified trends, the same production line needs to be frequently switched to produce bearings with different specifications, so that higher requirements are put forward on the compatibility of the detection equipment, the traditional detection flange is generally designed in a single specification, and parameters such as the diameter of a positioning hole, the diameter of a bolt hole distribution circle (P.C.D) and the like are fixed, so that the traditional detection flange can only be suitable for bearings with specific types. When the bearings with different specifications are required to be detected, the whole flange plate assembly is required to be stopped and replaced, the calibration is carried out again, the production efficiency is low, and positioning errors are easy to introduce due to frequent disassembly and assembly, so that the detection flange plate of the bearing equipment is provided. Disclosure of utility model (One) solving the technical problems Aiming at the defects of the prior art, the utility model provides a bearing equipment detection flange plate, which solves the problems. (II) technical scheme In order to achieve the purpose, the utility model provides the following technical scheme that the bearing equipment detection flange comprises: the flange base is of a hollow cylindrical structure and is used for supporting and placing a bearing piece to be detected; The positioning assembly is arranged inside the bottom end of the flange plate base, the whole positioning assembly is of an axisymmetric structure, and the core driving piece of the positioning assembly is an electric push rod, and the top of the electric push rod is correspondingly welded with the center of the top end inside the flange plate base. Preferably, the top of the flange plate base is provided with five groups of sliding grooves distributed in an annular array, the outer edge of the top of the flange plate base is provided with a ring of guard ring, the bottom of the flange plate base is provided with a connecting ring, and the end face of the connecting ring is provided with a group of fixing holes distributed in an annular array. Preferably, the locating component includes electric putter, connecting piece, actuating lever and setting element, and electric putter bottom output push rod axle head is equipped with the connecting piece, and the locating component top is equipped with five setting elements that are annular array and distribute, and the setting element corresponds to be connected with spout top sliding fit, and is equipped with the actuating lever between setting element and the connecting piece. Preferably, the output push rod end at the bottom of the electric push rod is provided with a matching column. Preferably, the center of the end face of the connecting piece is provided with a matching hole, the matching hole is correspondingly matched and sleeved with the matching column, and the side wall of the connecting piece is provided with five connecting rods I which are in axisymmetric distribution. Preferably, the locating piece comprises three parts, namely a locating block, a sliding block and a connecting block, wherein the middle component of the locating piece is the sliding block, the sliding block is correspondingly connected with the inside of the sliding groove in a sliding fit manner, the locating block is welded at the top of the sliding block, the connecting block is welded at the bottom of the sliding block, and a connecting rod II is arranged at the bottom end of the connecting block. Preferably, the side wall of the positioning block faces the axis side of the flange plate base and is provided with an arc-shaped rubber block, the side wall of the arc-shaped rubber block is provided with an anti-slip convex layer, the bottom of the positioning block is provided with an inner cavity, and the inner cavity is correspondingly welded with the top of the sliding block. Preferably, two rollers which are axisymmetrically distributed are arranged on two opposite side walls of the top of the sliding block, the rollers roll corresponding to the top end face of the flange plate base, and the four rollers are arranged in the inner cavity. Preferably, the two sha