CN211437058U - Thickness detection equipment for post-processing tile of neodymium iron boron product - Google Patents

Abstract

The utility model discloses a thickness check out test set of neodymium iron boron product post processing tile, it includes: a first conveying mechanism; two second transport mechanisms; the three-fork flow distributing seat is used for communicating the tail end of the first conveying mechanism with the starting ends of the two second conveying mechanisms; the movable plate is positioned inside the three-fork shunt seat; two thickness detectors, one thickness detector is arranged on one second conveying mechanism; one second conveying mechanism is correspondingly provided with one guide plate; and a controller. The utility model discloses can realize the on-line measuring to the thickness of neodymium iron boron product post-processing tile to can reject the unqualified product of thickness.

Description

Thickness detection equipment for post-processing tile of neodymium iron boron product

Technical Field

The utility model relates to a detection technology field of neodymium iron boron product. More specifically speaking, the utility model relates to a thickness check out test set of neodymium iron boron product post processing tile.

Background

The neodymium iron boron product needs to be measured whether the size of a machined part is qualified or not during post-machining operation, and after the grinding machine finishes machining each time, the workpiece needs to be manually taken out, and the size of the product is measured off-line. This manual method presents several problems: 1. the workload of manual measurement is too much, and a large amount of human resources are wasted; 2. the misoperation risk caused by manual measurement is increased; 3. intermittent production, low production efficiency; 4. the manual measurement data is not recorded, and the data cannot be filed.

Therefore, it is highly desirable to design a detection apparatus capable of detecting the thickness of the post-processed tile of the ndfeb product on line.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to solve at least the above problems and to provide at least the advantages which will be described later.

The utility model discloses a thickness detection equipment of neodymium iron boron product post-processing tile, it can realize the on-line measuring to the thickness of neodymium iron boron product post-processing tile to can reject the unqualified product of thickness.

In order to realize the basis of these objects and other advantages of the utility model discloses a thickness check out test set of neodymium iron boron product post processing tile is provided, it includes:

a first conveying mechanism;

the two second conveying mechanisms are positioned at the same end of the first conveying mechanism, and the conveying directions of the two second conveying mechanisms are consistent with the conveying direction of the first conveying mechanism;

the three openings of the three-fork flow distributing seat are respectively communicated with the tail end of the first conveying mechanism and the starting ends of the two second conveying mechanisms, so that a feeding channel and two flow distributing channels are formed;

the movable plate is vertically positioned in the trifurcate shunting seat and can rotate relative to the trifurcate shunting seat so as to enable the feeding channel to be selectively communicated with any one shunting channel;

the thickness detection device comprises two thickness detection instruments, wherein one thickness detection instrument is correspondingly arranged on one second conveying mechanism, any one thickness detection instrument comprises a first laser sensor positioned above the corresponding second conveying mechanism and a second laser sensor positioned right below the first laser sensor, and the first laser sensor can move in the vertical direction relative to the second conveying mechanism; an annular gap is formed in any one of the second conveying mechanisms, the width of the gap is smaller than that of the tile, and the second laser sensor is located in the middle of the gap and is flush with the upper surface of the corresponding second conveying mechanism;

the tail end of a second conveying mechanism is correspondingly provided with a guide plate, one end of any guide plate is communicated with the tail end of the corresponding second conveying mechanism, the other end of the two guide plates is communicated with the starting end of a third conveying mechanism, any guide plate is obliquely and downwards arranged from one end to the other end of the guide plate, the edge of one end of the guide plate is sunken towards the direction close to the other end of the guide plate to form a groove, a material leaking plate is connected in the groove, the other end of the material leaking plate close to the third conveying mechanism is hinged with the bottom of the groove, so that the material leaking plate can rotate up and down relative to the guide plate, when the material leaking plate rotates upwards to an upper stop position, the edge of one end of the material leaking plate far away from the third conveying mechanism is flush and communicated with the edge of one end of the guide plate, and when the material leaking plate rotates downwards to a lower stop position, the end of the material leaking plate far away from the third conveying mechanism is positioned below the second conveying mechanism, the size of the material leaking plate is larger than that of one tile and smaller than that of two tiles, and the upper surface of the material leaking plate is provided with an induction piece; the material leaking plate rotates up and down and is driven by a first rotating mechanism;

and the controller is in signal connection with the two first laser sensors, the two second laser sensors, the two sensing parts and the two first rotating mechanisms.

Preferably, neodymium iron boron products post-processing tile's thickness check out test set, first transport mechanism includes first band conveyer and the second band conveyer that arranges in proper order and communicate along direction of delivery, the transport speed of first band conveyer's conveyer belt is less than the transport speed of second band conveyer's conveyer belt.

Preferably, one side of the movable plate is hinged to the inner wall of the intersection of the two shunting channels, the other side of the movable plate can rotate relative to the three-fork shunting seat, when the other side of the movable plate rotates to a first limit position, one shunting channel is blocked by the movable plate, and when the other shunting channel rotates to a second limit position, the other shunting channel is blocked by the movable plate; the rotation of the movable plate is driven by a second rotating mechanism.

Preferably, the thickness check out test set of neodymium iron boron product post processing tile, two first slewing mechanism are first swing cylinder, second slewing mechanism is second swing cylinder.

Preferably, the thickness check out test set of neodymium iron boron product post-processing tile be equipped with the open collection box in top under arbitrary flitch that leaks.

Preferably, neodymium iron boron products post-processing tile's thickness check out test set, third transport mechanism's end and storage case intercommunication.

Preferably, the thickness check out test set of neodymium iron boron product post-processing tile still include the alarm, its and controller signal connection.

Preferably, neodymium iron boron products post-processing tile's thickness check out test set, first band conveyer's the top that is close to its initiating terminal is equipped with sprays the mechanism, and its shower nozzle sets up down, first band conveyer's the top that is close to its end is equipped with the mechanism of blowing, and its shower nozzle that blows sets up down.

Preferably, neodymium iron boron products postprocessing tile's thickness check out test set, the trident shunts being close to of seat the one end of second belt conveyor is higher than it and keeps away from the other end of second belt conveyor.

Preferably, the thickness check out test set of neodymium iron boron products post-processing tile, the other end of two stock guides with the initiating terminal of third transport mechanism communicates through trident guide mechanism.

The utility model discloses at least, include following beneficial effect:

the utility model can carry out on-line detection on the tiles after the neodymium iron boron products are processed, thereby ensuring the qualification of the products, avoiding manual measurement and greatly saving human resources; the continuity of the detection line is realized by arranging a plurality of conveying mechanisms, so that the production efficiency is improved; the laser thickness detector has high detection accuracy and reduces the risk of misoperation.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural view of a front view of an embodiment of the present invention;

fig. 2 is a schematic structural view of a front view of another embodiment of the present invention;

fig. 3 is a schematic structural diagram of a top view of another embodiment of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials are commercially available unless otherwise specified.

In the description of the present invention, the terms "lateral", "longitudinal", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1-3, the utility model provides a thickness check out test set of neodymium iron boron product post processing tile, it includes:

a first conveying mechanism;

the two second conveying mechanisms 2 are positioned at the same end of the first conveying mechanism, and the conveying directions of the two second conveying mechanisms are consistent with the conveying direction of the first conveying mechanism;

the three-fork flow distributing seat 3 is positioned between the first conveying mechanism and the two second conveying mechanisms 2, and three openings of the three-fork flow distributing seat 3 are respectively communicated with the tail end of the first conveying mechanism and the starting ends of the two second conveying mechanisms 2 so as to form a feeding channel and two flow distributing channels;

the movable plate 31 is vertically positioned inside the three-fork flow dividing seat, and the movable plate 31 can rotate around one side of the movable plate relative to the three-fork flow dividing seat so that the feeding channel is selectively communicated with any one flow dividing channel;

one thickness detector is correspondingly arranged on one second conveying mechanism 2, any one thickness detector comprises a first laser sensor 41 positioned above the corresponding second conveying mechanism 2 and a second laser sensor 42 positioned right below the first laser sensor 41, and the first laser sensor 41 can move in the vertical direction relative to the second conveying mechanism 2; an annular gap is formed in any one second conveying mechanism 2, the width of the gap is smaller than that of the tile, and the second laser sensor 42 is located in the middle of the gap and is flush with the upper surface of the corresponding second conveying mechanism 2;

the tail end of one second conveying mechanism 2 is correspondingly provided with one guide plate 5, one end of any guide plate 5 is communicated with the tail end of the corresponding second conveying mechanism 2, the other end of the two guide plates 5 is communicated with the starting end of the third conveying mechanism 6, any guide plate 5 is obliquely and downwards arranged from one end to the other end of the guide plate 5, the edge of one end of the guide plate 5 is sunken towards the direction close to the other end of the guide plate to form a groove, a material leaking plate 51 is connected in the groove, the other end, close to the third conveying mechanism 6, of the material leaking plate 51 is hinged with the bottom of the groove, so that the material leaking plate 51 can vertically rotate relative to the guide plate 5, when the material leaking plate 51 upwards rotates to the upper stop position, the edge of one end, far away from the third conveying mechanism 6, of the material leaking plate 51 is flush with the edge of one end of the guide plate 5 and is in contact and communication with the tail end of, when the material leaking plate 51 rotates downwards to the lower stop position, one end of the material leaking plate 51, which is far away from the third conveying mechanism 6, is located below the second conveying mechanism 2, the size of the material leaking plate 51 is larger than one tile size and smaller than two tile sizes, and an induction part is arranged on the upper surface of the material leaking plate 51; the material leaking plate 51 is driven by a first rotating mechanism to rotate up and down;

and the controller is in signal connection with the two first laser sensors 41, the two second laser sensors 42, the two sensing pieces and the two first rotating mechanisms.

In the above technical solution, in the initial position, the movable plate 31 is located at the inlet of one of the diversion channels, the two material leaking plates 51 are located at the first limit position, the ends of the two second conveying mechanisms 2 are both in contact with the material leaking plate 51 corresponding thereto, and the second conveying mechanisms 2 are communicated with the material guiding plates 5 corresponding thereto; any thickness detector is fixedly arranged on one side of the corresponding second conveying mechanism 2 through a first support 43, a first laser sensor 41 is fixedly arranged at the lower end of an expansion link 44, the upper end of the expansion link 44 is fixedly arranged with the first support 43, and the expansion of the expansion link 44 is driven by a hydraulic oil cylinder or an air cylinder; the oil cylinder or the air cylinder is in signal connection with the controller;

after the tile grinding machine finishes processing, products are sequentially laid at the starting end of the first conveying mechanism and conveyed to one end of the three-fork shunting seat 3 by the first conveying mechanism, the products to be detected are shunted to the two second conveying mechanisms 2 under the back-and-forth rotation of the movable plate 31, then tiles are conveyed to the thickness detector, the tiles are sensed by the second laser sensors 42 and conveyed to the controller, the controller controls the hydraulic oil cylinders or the air cylinders corresponding to the second laser sensors 42 to drive the tiles, the telescopic rods 44 corresponding to the second laser sensors 44 move downwards to drive the first laser sensors 41 corresponding to the second laser sensors 42 to vertically move downwards to be in contact with the upper surfaces of the tiles, the first laser sensors 41 and the second laser sensors 42 clamp and detect the thicknesses of the tiles and send the detected results to the hydraulic oil cylinders controller, the controller controls the telescopic rods 44 to contract upwards, the first laser sensor 41 is driven to vertically move upwards, meanwhile, the controller compares the detected result with a preset tile thickness value, if the thickness value of the tile is inconsistent with the preset tile thickness value, and when the sensing piece on the material leaking plate 51 senses that the tile is on the upper surface of the material leaking plate, the controller controls the material leaking plate 51 to rotate downwards, so that the tile is removed through a gap between the material leaking plate 51 and the tail end of the second conveying mechanism 2 (as shown in fig. 2), and when the detected result is consistent with the preset thickness value, the material leaking plate 51 does not rotate (as shown in fig. 1), namely, the tile is a qualified product, and the tile is moved to the third conveying mechanism 6; finally, the thickness of the product is detected on line, and unqualified products are removed.

In another kind of technical scheme, neodymium iron boron product postprocessing tile's thickness check out test set, first conveying mechanism includes first band conveyer 11 and second band conveyer 12 that arrange and communicate in proper order along direction of delivery, the transport speed of first band conveyer 11's conveyer belt is less than the transport speed of second band conveyer 12's conveyer belt. The processed tile products are sequentially arranged on the first belt conveyor 11 and conveyed to the second belt conveyor 12, and the conveying speed of the second belt conveyor 12 is high, so that the distance between two adjacent tiles can be pulled apart, and the problem that the two tiles are not easy to shunt or inconvenient to detect due to the fact that the two tiles are close to each other or the distance is too close to each other is solved.

In another technical scheme, according to the thickness detection device for post-processing tiles of neodymium iron boron products, one side of the movable plate 31 is hinged to the inner wall of the intersection of the two diversion channels, the other side of the movable plate 31 can rotate relative to the three-fork diversion seat 3, when the other side of the movable plate 31 rotates to a first limit position, the movable plate 31 blocks the inlet of one diversion channel, and when the movable plate 31 rotates to a second limit position, the movable plate 31 blocks the inlet of the other diversion channel; the rotation of the movable plate 31 is driven by a second rotating mechanism. The movable plate 31 moves back and forth at the first limit position and the second limit position, so that the feeding channel is communicated with one of the two diversion channels at a previous time point (when being at the first limit position) and is communicated with the other diversion channel at a next time point (when being at the second limit position), the feeding channel is selectively communicated with one of the two diversion channels, the tile products to be detected are shunted to the two detection lines, the two detection lines work simultaneously, and the detection efficiency is improved.

In another technical scheme, the thickness check out test set of neodymium iron boron product post processing tile, arbitrary first slewing mechanism is first swing cylinder, second slewing mechanism is second swing cylinder. Two first swing cylinders all are connected with controller signal, the tile thickness value that the thickness detector that arbitrary first swing cylinder corresponds detected is inconsistent with predetermined tile thickness value, and when the response piece on leaking the flitch 51 detected this tile and removed to leaking on the flitch 51, this first swing cylinder of controller control drove this and leaks flitch 51 and rotate to ending position down, make the one end of this hourglass flitch 51 remove to the below of second transport mechanism 2, unqualified tile passes through the gap between one end of leaking flitch 51 and the second transport mechanism 2 and removes to leaking the flitch 51 below under self action of gravity, and then rejects unqualified tile product. The second swing cylinder is in an intermittent working mode moving back and forth between a first limit position and a second limit position. The swing cylinder has a simple design structure, is convenient to operate and has higher rotation precision.

In another technical scheme, according to the thickness detection device for the post-processing tile of the neodymium iron boron product, a recovery box 511 with an open top is arranged under any material leaking plate 51. Unqualified products are guided into the recovery box 511 through the material leaking plate 51, so that recovery and centralized inspection of workers are facilitated.

In another technical scheme, neodymium iron boron products post-processing tile's thickness check out test set, third transport mechanism 6's end and storage case 61 intercommunication. The storage box 61 is positioned below the tail end of the third conveying mechanism 6, so that products can be collected conveniently; the detected and qualified tile products are collected into a storage bin 61 for later use.

In another technical scheme, neodymium iron boron product postprocessing tile's thickness check out test set still include the alarm, its and controller signal connection. When the thickness value of the product detected by any thickness detector exceeds or is lower than the preset product thickness value (namely the product is an unqualified product), the controller starts an alarm to warn a worker; and if the product thickness values detected by the two thickness detectors are consistent with the preset product thickness value, the controller does not start the alarm.

In another technical scheme, in the thickness detection device for post-processing tiles of neodymium iron boron products, a spraying mechanism 13 is arranged above the first belt conveyor 11 close to the starting end of the first belt conveyor, a water spraying nozzle of the spraying mechanism is arranged downwards, and the spraying mechanism 13 is fixedly arranged on one side of the first belt conveyor 11 through a second support 131; an air blowing mechanism 14 is arranged above the first belt conveyor 11 close to the tail end of the first belt conveyor, and an air blowing nozzle of the air blowing mechanism is arranged downwards; the air blowing mechanism 14 is fixedly arranged at one side of the first belt conveyor 11 through a third bracket 141. The processed tiles are cleaned in advance, so that the requirements of a measuring sensor are met, and the measuring precision is ensured.

In another kind of technical scheme, neodymium iron boron product postprocessing tile's thickness check out test set, three forks reposition of redundant personnel seat 3 is close to the one end of second belt conveyor 12 is higher than it and keeps away from the other end of second belt conveyor 12. The inclined three-fork shunting seat 3 is beneficial to the automatic sliding movement of the product to be detected to the two second conveying mechanisms 2. And the product detection efficiency is improved.

In another technical scheme, the thickness check out test set of neodymium iron boron product post processing tile, the other end of two stock guides 5 with the initiating terminal of third transport mechanism 6 communicates through trident guide mechanism 7. The other ends of the two material guide plates 5 are communicated with the third conveying mechanism 6, the two detection lines are detected, qualified products are collected to the third conveying mechanism 6 through the three-fork material guide mechanism 7 and collected to the material storage box 61 for later use.

The number of apparatuses and the scale of the process described here are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be apparent to those skilled in the art.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (10)

1. Thickness check out test set of neodymium iron boron product post processing tile, its characterized in that, it includes:

a first conveying mechanism;

the two second conveying mechanisms are positioned at the same end of the first conveying mechanism, and the conveying directions of the two second conveying mechanisms are consistent with the conveying direction of the first conveying mechanism;

the three openings of the three-fork flow distributing seat are respectively communicated with the tail end of the first conveying mechanism and the starting ends of the two second conveying mechanisms, so that a feeding channel and two flow distributing channels are formed;

the movable plate is vertically positioned in the trifurcate shunting seat and can rotate relative to the trifurcate shunting seat so as to enable the feeding channel to be selectively communicated with any one shunting channel;

the thickness detection device comprises two thickness detection instruments, wherein one thickness detection instrument is correspondingly arranged on one second conveying mechanism, any one thickness detection instrument comprises a first laser sensor positioned above the corresponding second conveying mechanism and a second laser sensor positioned right below the first laser sensor, and the first laser sensor can move in the vertical direction relative to the second conveying mechanism; an annular gap is formed in any one of the second conveying mechanisms, the width of the gap is smaller than that of the tile, and the second laser sensor is located in the middle of the gap and is flush with the upper surface of the corresponding second conveying mechanism;

the tail end of a second conveying mechanism is correspondingly provided with a guide plate, one end of any guide plate is communicated with the tail end of the corresponding second conveying mechanism, the other end of the two guide plates is communicated with the starting end of a third conveying mechanism, any guide plate is obliquely and downwards arranged from one end to the other end of the guide plate, the edge of one end of the guide plate is sunken towards the direction close to the other end of the guide plate to form a groove, a material leaking plate is connected in the groove, the other end of the material leaking plate close to the third conveying mechanism is hinged with the bottom of the groove, so that the material leaking plate can rotate up and down relative to the guide plate, when the material leaking plate rotates upwards to an upper stop position, the edge of one end of the material leaking plate far away from the third conveying mechanism is flush and communicated with the edge of one end of the guide plate, and when the material leaking plate rotates downwards to a lower stop position, the end of the material leaking plate far away from the third conveying mechanism is positioned below the second conveying mechanism, the size of the material leaking plate is larger than that of one tile and smaller than that of two tiles, and the upper surface of the material leaking plate is provided with an induction piece; the material leaking plate rotates up and down and is driven by a first rotating mechanism;

and the controller is in signal connection with the two first laser sensors, the two second laser sensors, the two sensing parts and the two first rotating mechanisms.

2. The apparatus for detecting the thickness of the tile after-processed with neodymium-iron-boron products as claimed in claim 1, wherein the first conveying mechanism comprises a first belt conveyor and a second belt conveyor which are sequentially arranged and communicated along the conveying direction, and the conveying speed of the conveying belt of the first belt conveyor is less than that of the conveying belt of the second belt conveyor.

3. The apparatus for detecting thickness of tile after-processed with ndfeb product according to claim 2, wherein one side of the movable plate is hinged to the inner wall at the intersection of two diversion channels, and the other side of the movable plate can rotate relative to the three-fork diversion seat, and when the other side of the movable plate rotates to the first limit position, the movable plate blocks one of the diversion channels, and when the other side of the movable plate rotates to the second limit position, the movable plate blocks the other diversion channel; the rotation of the movable plate is driven by a second rotating mechanism.

4. The apparatus for detecting thickness of tile after-processed with neodymium-iron-boron product of claim 3, wherein the two first rotating mechanisms are both first oscillating cylinders, and the second rotating mechanism is a second oscillating cylinder.

5. The thickness detection equipment for post-processed tiles of neodymium-iron-boron products as claimed in claim 4, characterized in that a recovery box with an open top is arranged right below any material leaking plate.

6. The apparatus for detecting thickness of tile after-processed with neodymium-iron-boron product of claim 5, wherein the end of the third conveying mechanism is connected to the storage box.

7. The apparatus for detecting thickness of tile after-processed with ndfeb product as claimed in claim 6, further comprising an alarm in signal connection with the controller.

8. The apparatus for detecting the thickness of the tile after-processed with neodymium-iron-boron products according to claim 7, wherein a spraying mechanism is disposed above the first belt conveyor near the start end of the first belt conveyor, a water spraying nozzle of the spraying mechanism is disposed downward, and an air blowing mechanism is disposed above the first belt conveyor near the end of the first belt conveyor, and an air blowing nozzle of the air blowing mechanism is disposed downward.

9. The apparatus for detecting thickness of tile after-processed with ndfeb product of claim 8, wherein the end of the three-fork shunt base close to the second belt conveyor is higher than the other end of the three-fork shunt base far from the second belt conveyor.

10. The apparatus for detecting thickness of tile after-processed with ndfeb product as claimed in claim 9, wherein the other ends of the two material guiding plates are connected to the start end of the third conveying mechanism through a three-fork material guiding mechanism.

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