CN109590230B - Bearing ring turning contour detection device - Google Patents

Abstract

The invention relates to a bearing ring turning contour detection device, comprises a main box body; the front of the installation panel is provided with: the device comprises an inlet material channel and a station to be detected, wherein a first opening is formed in an installation panel, a notch for screening unqualified workpieces is formed in the middle of the outlet material channel and corresponds to the first opening, and a suspicious product material channel which is obliquely arranged is arranged right below the outlet material channel; the mounting panel is also provided with a second opening, the second opening extends out of the outer clamping plate and the inner clamping plate; the back of the mounting panel is provided with: the device comprises a first driving assembly, a left-right moving assembly and a suspicious piece shunting assembly, wherein the up-down moving assembly drives an outer clamping plate and an inner clamping plate to move up and down along the radial direction of a workpiece, and the left-right moving assembly is fixedly connected with the first driving assembly and drives the first driving assembly to move left and right along the radial direction. The invention realizes the automatic detection of the workpiece to be detected, namely the bearing ring sleeve, and simultaneously detects the inner size, the outer size and the height of the bearing ring sleeve, thereby realizing the distribution of qualified workpieces and suspicious workpieces.

Description

Bearing ring turning contour detection device

Technical Field

The invention relates to the technical field of bearing production, in particular to a bearing ring turning contour detection device.

Background

The bearing ring turning production process comprises a plurality of working procedures (rough turning, flat end surface turning, outer chamfering, outer groove turning, channel digging, sealing groove turning, step turning, inner chamfering turning and inner hole turning). There are many drawbacks in that one process and oversized product flows out to the customer, which can have serious consequences, such as damage to the customer's machine. The existing control means mostly depend on experienced workers to detect the size and appearance, more manpower and material resources are needed to be input due to the continuous improvement of the yield, but due to uneven horizontal parameter of the workers, a large number of conditions of missed detection or substandard exist.

Disclosure of Invention

The invention aims to solve the problems of high manpower detection cost and easy missed detection or substandard detection in the prior art, and provides a hardware device capable of simultaneously realizing the detection of the outer contour, the inner contour and the height of the bearing ring in the machining process.

The invention realizes the above purpose through the following technical scheme: the utility model provides a bearing ring car processing profile detection device, includes the installation panel, the installation panel openly is provided with: the tail end of the inlet material channel is provided with a station to be detected; the left upper part of the station to be detected is provided with a baffle plate, the left side of the station to be detected is provided with a detection positioning block for placing a detection workpiece, the position right above the detection positioning block is the detection station, the right side of the station to be detected is provided with a boosting component for pushing the workpiece to be detected into the detection station, and the left side of the detection station is provided with an outlet material channel which is obliquely arranged; the mounting panel is provided with a first opening, the first opening is positioned at the detection station, and the outer shape clamping plate and the inner shape clamping plate extend out of the first opening and are respectively used for detecting the outer contour and the inner contour of the workpiece; the boosting assembly comprises a pushing cylinder, a connecting rod of the pushing cylinder is fixedly connected with a pushing rod, the pushing rod is positioned right below the station to be tested, and the end part of the pushing rod is right opposite to the detection station; the inlet material channel, the baffle plate, the detection positioning block, the outlet material channel and the pushing cylinder are all fixed on the mounting panel.

Further, a height detection assembly is arranged outside the detection station and comprises a micrometer, a micrometer head of the micrometer is abutted against one side of a spring pressing piece, and the other side of the spring pressing piece is abutted against the front end face of a workpiece to be detected; the micrometer and the spring pressing sheet are both fixed on the mounting panel.

Further, the device also comprises a driving assembly, wherein the driving assembly is arranged on the back surface of the mounting panel and is used for driving the shape clamping plate and the inner shape clamping plate to move up and down and back and forth; the driving assembly comprises an external carriage, an internal carriage, a first carriage, a second carriage, a first cylinder and a second cylinder; the second carriage is fixed on the back of the mounting panel and is in ┤ -shaped connection with the mounting panel, and the first carriage is fixed on the second carriage and is in sliding connection with the second carriage along the axial direction; the appearance planker is connected with the first planker in a sliding way along the radial direction, an appearance clamping plate is arranged on the appearance planker, and the appearance clamping plate is connected with the appearance clamping plate in a sliding way along the axial direction; the inner-shaped carriage is in sliding connection with the first carriage along the radial direction, an inner-shaped clamping seat plate is arranged on the inner-shaped carriage, and the inner-shaped clamping plate is in sliding connection with the inner-shaped clamping seat plate along the axial direction; the inner-shaped carriage is shaped like a L, the outer-shaped carriage is arranged at a notch of the inner-shaped carriage, the inner-shaped carriage is fixedly connected with a first cylinder connecting rod, and the first cylinder drives the inner-shaped carriage to slide on the first carriage along the radial direction; the second cylinder connecting rod is fixedly connected with the first carriage and drives the first carriage to slide on the second carriage along the axial direction.

Further, the suspicious piece distribution assembly is arranged on the back surface of the installation panel and comprises a third cylinder and an NG door, and the end part of a connecting rod of the third cylinder is fixedly connected with the NG door; the outlet material channel is provided with a notch which is adaptive to the size of the NG door, a second opening is arranged at the position of the mounting panel corresponding to the notch, and the NG door is positioned at the second opening; the third cylinder drives the NG door to penetrate into or out of the second opening.

Further, the device also comprises a material pressing assembly, wherein the material pressing assembly comprises a fourth air cylinder, and the fourth air cylinder is fixed on the front surface of the mounting panel and above the detection station; the fourth cylinder connecting rod is fixedly connected with a pressure head, the pressure head is driven by the fourth cylinder connecting rod to move along the radial direction, and when the workpiece is detected, the pressure head is propped against the upper end face of the workpiece to be detected.

Further, an elastic device is sleeved on each of the first cylinder connecting rod and the second cylinder connecting rod.

Compared with the prior art, the invention has the following substantial effects: the device capable of simultaneously detecting the inner outline size, the outer outline size and the height of the workpiece to be detected, namely the bearing ring sleeve, is provided, and provides a diversion channel for qualified workpieces and suspicious workpieces, thereby being beneficial to replacing manpower, realizing mechanical detection and being simpler and more convenient to operate.

Drawings

FIG. 1 is a schematic view of a workpiece to be measured according to the present invention.

Fig. 2 is a layout of the mounting panel backside apparatus of the present invention.

Figure 3 is a diagram of the exterior card and interior card of the present invention.

Fig. 4 is an aperture diagram of a mounting panel of the present invention.

Fig. 5 is a front side device layout of the mounting panel of the present invention.

FIG. 6 is a schematic view of a inspection station according to the present invention.

FIG. 7 is a schematic view of an outlet channel of the present invention.

Fig. 8 is a NG gate schematic of the present invention.

The reference numerals are explained as follows:

200. the workpiece to be tested, 201, a second opening, 202, a first opening, 102, a detection positioning block, 121, an inlet material channel, 122-1, a baffle plate, 122-2, a pushing rod, 122-3, a limit baffle plate, 122-4, a pushing cylinder, 123, an outlet material channel, 123-1, a notch, 124, a suspected material channel, 131, a micrometer, 132, a spring pressing sheet, 114, a fourth cylinder, 115 and a pressure head; 210. An outer shape clamp plate, 220, an inner shape clamp plate; 301. the device comprises a first carriage, 322, an inner carriage, 324, a first cylinder, 324-1, a first elastic device, 325, an inner clamping seat plate, 330, a radial cylinder seat, 342, an outer carriage, 344, a guide rod, 344-1, a second elastic device, 345, an outer clamping seat plate, 351, a second carriage, 355, a second cylinder, 355-1, a third elastic device, 382, a third cylinder, 383 and a NG door.

Detailed Description

The axial direction and the radial direction of the present invention are based on a workpiece 200 to be measured placed on a station to be measured, the workpiece 200 to be measured is shown in fig. 1, and the present invention is further described below with reference to the accompanying drawings:

examples:

the utility model provides a bearing ring car processing contour detection device, including the main tank body, as shown in fig. 2-8, the installation panel the place ahead is provided with the import material way 121 that the slope set up, the end of import material way 121 is equipped with the station of waiting to examine, wait to examine the upper left side of station and be equipped with striker plate 122-1, wait to examine the station below and be equipped with the boosting subassembly that pushes the work piece of waiting to examine into the detection station, boosting subassembly includes pushing cylinder 122-4, pushing cylinder connecting rod and a pushing rod 122-2 fixed connection, pushing cylinder connecting rod drive pushing rod 122-2 moves about, wait to examine the station the place ahead and be equipped with limit baffle 122-3. The left side of the station to be detected is provided with a detection station, the detection station is positioned above the detection positioning block 102, the left side of the detection station is provided with an outlet material channel 123 and a suspicious material channel 124 which are obliquely arranged, and the suspicious material channel 124 is arranged under the outlet material channel 123; the front of the installation panel is also provided with a material pressing assembly, the material pressing assembly comprises a fourth air cylinder 114, and the fourth air cylinder 114 is fixed on the front of the installation panel and above the detection station. The fourth cylinder 114 is fixedly connected with a pressure head 115, and the pressure head 115 is driven by the fourth cylinder 14 to move along the radial direction, so that the pressure head 115 is abutted against the upper end surface of the workpiece 200 to be detected when the workpiece is detected. The outside of the detection station is provided with a height detection component, the height detection component comprises a micrometer 131, a micrometer head of the micrometer 131 is propped against one side of a spring pressing piece 132, the other side of the spring pressing piece 132 is propped against the front end face of the workpiece 200 to be detected, and the micrometer 131 and the spring pressing piece 132 are both fixed on a mounting panel.

The mounting panel is provided with a first opening 202, and the first opening 202 extends out of the outer clamping plate 210 and the inner clamping plate 220. The back of the installation panel is provided with a driving component for driving the outer shape clamping plate 210 and the inner shape clamping plate 220 to move up and down and back and forth. The driving assembly comprises an outer clamping plate 210, an inner carriage 322, a first carriage 301, a second carriage 351, a first cylinder and a second cylinder 355; the second carriage 351 is fixed on the back of the mounting panel and is ┤ -shaped connected with the mounting panel, and the first carriage 301 is fixed on the second carriage 351 and is in sliding connection with the second carriage 351 along the axial direction; the profile clamping plate 210 is in sliding connection with the first carriage 301 along the radial direction, the profile clamping plate 210 is provided with a profile clamping plate 345, and the profile clamping plate 210 is in sliding connection with the profile clamping plate 345 along the axial direction; the inner carriage 322 is slidably connected with the first carriage 301 along the radial direction, an inner clamping plate 325 is disposed on the inner carriage 322, and the inner clamping plate 220 is slidably connected with the inner clamping plate 220 seat along the axial direction; the inner-shaped carriage 322 is shaped like a #, the outer-shaped clamping plate 210 is arranged at a notch of the inner-shaped carriage 322, the inner-shaped carriage 322 is fixedly connected with a first cylinder connecting rod, and the first cylinder drives the inner-shaped carriage 322 to slide on the first carriage 301 along the radial direction; the second cylinder 355 is fixedly connected with the first carriage 301, and drives the first carriage 301 to slide on the second carriage 351 along the axial direction. Specifically, a first radial guide rail and a second radial guide rail are provided on the first carriage 301; the first radial guide rail is provided with a first sliding block which moves in a matched manner, the back surface of the first sliding block is fixedly connected with the inner-shaped carriage 322, the connecting rod of the first cylinder 324 at the upper part of the inner-shaped carriage 322 is fixedly connected, and the connecting rod of the first cylinder 324 is sleeved with a first elastic device 324-1. The first cylinder 324 is disposed on a radial cylinder block 330, and the radial cylinder block 330 is fixed to the top end of the first carriage 301; an inner-shaped clamping plate 325 is horizontally fixed at the lower part of the inner-shaped carriage 322, the inner-shaped clamping plate 325 is in a shape of a '[', and the inner-shaped clamping plate 220 is arranged in the inner-shaped clamping plate 325 and is connected with the inner-shaped clamping plate 325 in a sliding manner; the second radial guide rail is provided with a second sliding block which moves in a matched manner, the back surface of the second sliding block is fixedly connected with an outline carriage 342, and the bottom end of the outline carriage 342 is propped against the upper end of the inner-shaped carriage 322; the bottom of the profile saddle 342 is horizontally fixed with a profile clamping plate 345, the profile clamping plate 345 is in a shape of a [ ", and the profile clamping plate 210 is arranged in the profile clamping plate 345 and is in sliding connection with the profile clamping plate 345; the outer clamping plate 210 and the inner clamping plate 220 are arranged in parallel up and down and extend out of the first opening 202. An upward guide bar 344 is mounted on the upper portion of the outer carriage 342, and an opening is formed in the radial cylinder block 330 at a position corresponding to the guide bar 344, and the guide bar 344 passes through the opening. The guide bar 344 is sleeved with a second elastic device 344-1.

When the first cylinder 324 drives the inner carriage 322 to slide upwards along the first radial guide rail, the outer carriage 342 slides upwards along the second radial guide rail, and when the first cylinder 324 drives the inner carriage 322 to slide downwards along the first radial guide rail, the outer carriage 342 slides downwards due to gravity and finally falls on the inner carriage 322. .

The suspicious piece reposition of redundant personnel subassembly still is equipped with on the mounting panel back, including third cylinder 382 and NG door, third cylinder 382 connecting rod tip and NG door 383 fixed connection. The outlet material channel 123 is provided with a notch which is in a direction adapting to the size of the NG door 383, a second opening 201 is arranged at the corresponding position of the installation panel and the notch, and the NG door is positioned at the second opening 201; the third cylinder 382 drives the NG gate 383 in and out of the second opening 201.

When the workpiece to be detected enters from the inlet material channel 121 and is limited to the position above the pushing rod 122-2 through the limiting action of the baffle plate 122-1 and the limiting baffle plate 122-3, namely the station to be detected. At the moment, if the workpiece at the detection station is being detected, waiting; if the workpiece at the detection station is detected, the pushing cylinder drives the pushing rod 122-2 to shrink and stretch out, the workpiece to be detected is pushed into the detection station and falls on the detection positioning block 102, and meanwhile, the detected workpiece is pushed into the outlet material channel 123 in a proper state. At this time, the fourth cylinder 114 drives the ram 115 to move downwards to prop against the upper part of the workpiece, the second cylinder 355 drives the external carriage 342 and the internal carriage 322 to slide along the axial direction and fall on the corresponding axial position of the workpiece to be detected, the first cylinder 324 drives the external carriage 342 and the internal carriage 322 to slide down along the radial direction and stop at the radial position corresponding to the workpiece to be detected, at this time, the external clamping plate completely contacts the outer ring of the workpiece to be detected 200, the internal clamping plate completely contacts the inner ring of the workpiece to be detected 200, and whether the inner ring procedure and the outer ring procedure of the workpiece to be detected reach the standard is detected; the spring pressing sheet 132 abuts against the end face of the workpiece to be detected to generate certain deformation, and the micrometer 131 judges whether the height dimension of the workpiece to be detected reaches the standard according to the deformation of the spring pressing sheet 132. When the inner ring process, the outer ring process and the height of the workpiece to be detected reach the standard, the workpiece is judged to be a qualified workpiece, after detection, the fourth cylinder 114 drives the pressing head 115 to move upwards, and the detected workpiece waits for the next workpiece to be detected to push out and flow out along the outlet material channel 123. When the inner ring process, the outer ring process or the height dimension of the workpiece to be detected does not reach the standard, the workpiece to be detected is judged to be suspicious, at the moment, the NG door 383 is opened, the workpiece to be detected falls into the suspicious material channel 124 from the starting notch 123-1 when passing through the outlet material channel 123, and flows out along the suspicious material channel 124.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (4)

1. The utility model provides a bearing ring car processing profile detection device, includes the installation panel, its characterized in that, the installation panel openly is provided with: the tail end of the inlet material channel is provided with a station to be detected; the left upper part of the station to be detected is provided with a baffle plate, the left side of the station to be detected is provided with a detection positioning block for placing a detection workpiece, the position right above the detection positioning block is the detection station, the right side of the station to be detected is provided with a boosting component for pushing the workpiece to be detected into the detection station, and the left side of the detection station is provided with an outlet material channel which is obliquely arranged; the mounting panel is provided with a first opening, the first opening is positioned at the detection station, and the outer shape clamping plate and the inner shape clamping plate extend out of the first opening and are respectively used for detecting the outer contour and the inner contour of the workpiece; the boosting assembly comprises a pushing cylinder, a connecting rod of the pushing cylinder is fixedly connected with a pushing rod, the pushing rod is positioned right below the station to be tested, and the end part of the pushing rod is right opposite to the detection station; the inlet material channel, the material baffle, the detection positioning block, the outlet material channel and the pushing cylinder are all fixed on the mounting panel;

the outer side of the detection station is provided with a height detection assembly which comprises a micrometer, a micrometer head of the micrometer is propped against one side of a spring pressing piece, and the other side of the spring pressing piece is propped against the front end face of a workpiece to be detected; the micrometer and the spring pressing sheet are both fixed on the mounting panel;

the device also comprises a material pressing assembly, wherein the material pressing assembly comprises a fourth air cylinder, and the fourth air cylinder is fixed on the front surface of the mounting panel and above the detection station; the fourth cylinder connecting rod is fixedly connected with a pressure head, the pressure head is driven by the fourth cylinder connecting rod to move along the radial direction, and when the workpiece is detected, the pressure head is propped against the upper end face of the workpiece to be detected.

2. The bearing ring turning contour detection device as defined in claim 1, further comprising a driving assembly, wherein the driving assembly is arranged on the back surface of the mounting panel and is used for driving the outer-shape clamping plate and the inner-shape clamping plate to move up and down and back and forth; the driving assembly comprises an external carriage, an internal carriage, a first carriage, a second carriage, a first cylinder and a second cylinder; the second carriage is fixed on the back of the mounting panel and is in ┤ -shaped connection with the mounting panel, and the first carriage is fixed on the second carriage and is in sliding connection with the second carriage along the axial direction; the appearance planker is connected with the first planker in a sliding way along the radial direction, an appearance clamping plate is arranged on the appearance planker, and the appearance clamping plate is connected with the appearance clamping plate in a sliding way along the axial direction; the inner-shaped carriage is in sliding connection with the first carriage along the radial direction, an inner-shaped clamping seat plate is arranged on the inner-shaped carriage, and the inner-shaped clamping plate is in sliding connection with the inner-shaped clamping seat plate along the axial direction; the inner-shaped carriage is shaped like a L, the outer-shaped carriage is arranged at a notch of the inner-shaped carriage, the inner-shaped carriage is fixedly connected with a first cylinder connecting rod, and the first cylinder drives the inner-shaped carriage to slide on the first carriage along the radial direction; the second cylinder connecting rod is fixedly connected with the first carriage and drives the first carriage to slide on the second carriage along the axial direction.

3. The bearing ring turning contour detection device according to claim 1, further comprising a suspicious piece diversion assembly arranged on the back surface of the installation panel, wherein the suspicious piece diversion assembly comprises a third cylinder and an NG door, and the end part of a connecting rod of the third cylinder is fixedly connected with the NG door; the outlet material channel is provided with a notch which is adaptive to the size of the NG door, a second opening is arranged at the position of the mounting panel corresponding to the notch, and the NG door is positioned at the second opening; the third cylinder drives the NG door to penetrate into or out of the second opening.

4. The bearing ring turning contour detection device as defined in claim 2, wherein an elastic device is sleeved on each of the first cylinder connecting rod and the second cylinder connecting rod.