CN220810962U - Divide silo subassembly that stator thickness detected usefulness - Google Patents

Abstract

The utility model discloses a distributing groove component for detecting the thickness of a stator, which relates to the technical field of auxiliary equipment for motor manufacturing, and comprises a base 1, a distributing frame component and more than one group of distributing components; the material distributing frame part comprises more than two slide rail support plates 2, slide rails 3, a slide rail left baffle 6 and a material distributing groove right end support plate 18, and the material distributing part comprises a material distributing pushing mechanism and a material distributing groove 16; the material distributing pushing mechanism comprises a material distributing pushing plate 7, a material distributing pushing rod 12, a material distributing door plate 14, a material distributing cylinder 15 and a material distributing incoming sensor 5. The automatic feeding device has the characteristics of accurate material distribution, stable material returning pushing, capability of being used for detecting the thickness of the motor stator and the like, and can be used for real-time material distribution in the thickness detection process of various miniature motor stator components.

Description

Divide silo subassembly that stator thickness detected usefulness

Technical Field

The utility model relates to the technical field of auxiliary equipment for motor manufacturing, in particular to a distributing groove assembly for detecting the thickness of a stator.

Background

It is known that in the manufacturing process of the motor, the stator and the rotor of the motor are affected by the thickness tolerance of the silicon steel sheets and the number of laminations in the punching process, so that the thicknesses of the stator and the rotor are inconsistent, and the motor can generate a gap in the axial direction, so that when the motor works, the axial movement is caused by the change of the rotating speed.

In recent years, there have been some stator thickness detection methods and detection apparatuses in which the stator is subjected to real-time material-dividing transfer in different manners and structures in accordance with the range of thickness during detection.

The utility model provides a "feed divider spare of stator T type piece" that chinese patent (patent application number 202221401734.7) discloses, include the mounting panel, set up the sliding seat on the mounting panel, install on the sliding seat can follow the gliding fender piece of sliding seat, locate on the sliding seat can follow the gliding sliding plate of sliding seat, the stacked setting of sliding plate be in the upside of fender piece, the sliding plate on seted up first feed opening that runs through from top to bottom the fender piece on set up the second feed opening that runs through from top to bottom, the mounting panel on set up the third feed opening that runs through from top to bottom, feed divider spare still include first drive arrangement and second drive arrangement, first drive arrangement be used for driving the sliding plate slide along the sliding seat, second drive arrangement be used for driving fender piece slide along the sliding seat.

Another chinese patent (patent application number 202223538871.8) discloses an automatic stator feed divider, comprising: a material distributing and guiding assembly; an X-axis driving assembly; a Y-axis drive assembly; a Z-axis drive assembly; the material taking assembly is used for clamping the stator for feeding at one end of the material distributing and guiding assembly, releasing the stator to a set blanking position at the other end of the material distributing and guiding assembly, and driving the stator to rotate to a correct shape when the stator is in positive and negative errors; and a feeding judging component.

Still "a motor stator rotor production line feed divider" that chinese patent (patent application number 201921183694.1) disclosed, including the ejection of compact track, both ends all weld about the orbital discharge gate position department of ejection of compact have the parting bead board, parallel welding has a plurality of round steel pole between horizontal steel sheet and the orbital discharge gate of ejection of compact, the space between the round steel pole is the branch material space, there is the branch material iron sheet that is located ejection of compact track discharge gate below at the both ends of horizontal steel sheet through wire rope system, the left side of dividing the material iron sheet is equipped with first material receiving box and second material receiving box. When stator, rotor and disk follow ejection of compact track and go on the ejection of compact, fall two less objects in the branch material space, big object falls from the branch material space, falls through the branch material iron sheet of ejection of compact track export below, carries out preliminary letter sorting to the material, and other two kinds of objects are along the branch flitch of slope setting, through second branch material round hole and first branch material round hole landing to second receiver and first receiver respectively in.

The motor stator magnetic sheet distributing mechanism disclosed in China patent (patent application number 202020091213.0) comprises a machine base, a conveying motor, a conveying driving wheel, a conveying driven wheel, a feeding belt, a rotary cylinder, a magnetic sheet sucker, a sliding table cylinder, a discharging rail and a lifting cylinder; the conveying motor drives a feeding belt; the top of the rotary cylinder is provided with a magnetic sheet sucker; the magnetic sheet separation rail is arranged on the sliding table, the sliding table is vertically arranged at the inner side end of the feeding belt, and the gap of the magnetic sheet separation rail faces the feeding belt; when the sliding table cylinder acts, pushing the single magnetic sheet at the notch of the magnetic sheet separation track to the inner side end of the magnetic sheet separation track; the outer side of the sliding table cylinder is provided with a magnetic sheet discharging rail and a lifting cylinder, the middle part of the discharging rail is provided with a workpiece inserting hole, and the inner side surface of the workpiece inserting hole is provided with a magnetic sheet discharging rail; the telescopic end of the lifting cylinder is positioned below the workpiece inserting hole, and can jack up the workpiece upwards when the magnetic sheet sucker sucks the magnetic sheet and is placed in the magnetic sheet discharging track, and the magnetic sheet which is orderly arranged can be assembled after being separated in a single piece and rotated for a certain angle.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a material distributing device which is accurate in material distribution, stable in material returning pushing and capable of being used for detecting the thickness of a motor stator.

In order to solve the technical problems, the technical scheme adopted by the utility model is to design a distributing groove component for detecting the thickness of a stator: the device comprises a base 1, a material distributing frame part and more than one group of material distributing parts;

The material distributing frame part comprises more than two slide rail support plates 2, slide rails 3, a slide rail left baffle 6 and a material distributing groove right end support plate 18, wherein the slide rail support plates 2 are uniformly arranged on the base 1 in the front-back direction, and the slide rails 3 are arranged on the slide rail support plates; the left baffle 6 of the sliding rail is arranged on the left side of the upper surface of the sliding rail 3; the right end supporting plate 18 of the dividing chute is arranged on the right side of the base 1 which expands rightward; the right side surface of the left baffle 6 of the sliding rail is also provided with more than one material distributing push plate groove 9;

The material distributing component comprises a material distributing pushing mechanism and a material distributing groove 16; the material distributing and pushing mechanism comprises a material distributing push plate 7, a material distributing push rod 12, a material distributing door plate 14, a material distributing cylinder 15 and a material distributing incoming sensor 5, wherein the material distributing door plate 14 is arranged on the right side above the sliding rail 3, and the lower part of the material distributing door plate is provided with a discharge hole 11; the material distributing cylinder 15 is arranged at the upper part of the right surface of the material distributing door plate 14, and a material distributing push rod 12 which stretches out leftwards penetrates out of the material distributing door plate 14 to be connected with the upper part of the material distributing push plate 7 arranged in the material distributing push plate groove 9; the left end of the material dividing groove 16 is connected with a discharge hole 11 at the lower part of the material dividing door plate 14, and the right end of the material dividing groove is arranged on a material dividing groove right end supporting plate 18; the material distributing and feeding inductor 5 is arranged in the induction through holes in the front part and the left-right direction of the material distributing push plate groove 9 on the left baffle 6 of the sliding rail in a penetrating way.

The device also comprises a distributing push plate guide rod 13; the right part of the material distributing push plate guide rod 13 is inserted into a guide hole at the middle lower part of the material distributing door plate 14, and the left end of the material distributing push plate guide rod is connected with the middle lower part of the material distributing push plate 7.

The rear end of the sliding rail 3 is also provided with a sliding rail tail end baffle 8, the sliding rail tail end baffle 8 is provided with a through hole in the front-back direction, and a tail end incoming material sensor 10 is arranged in the through hole.

A full alarm sensor 17 is also arranged at the front side or the rear side of the right end of the material dividing groove 16.

The material distributing cylinder 15 may be an oil cylinder or an electric cylinder.

According to the distributing groove component for detecting the thickness of the stator, the distributing incoming material sensors are arranged on the left baffle plate of the sliding rail corresponding to each distributing door plate, and can transmit sensed information to the control part, so that the thickness size range of the material block can be accurately judged; meanwhile, the cylinder is adopted for fixing Cheng Tuisong, and the guide rod is arranged for guiding, so that the material distribution is accurate, the material returning pushing is stable, and the device is suitable for the material distribution transferring pushing in the stator thickness detection process.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

Fig. 3 is an enlarged schematic view of a portion K of the present utility model.

In the figure:

1 is the base, 2 is the slide rail backup pad, 3 is the slide rail, and 4 is the material piece (i.e.: stator), 5 is the feed inductor of dividing, 6 is slide rail left side baffle, 7 is the feed push pedal, 8 is slide rail tail end baffle, 9 is the feed push pedal recess, 10 is the feed inductor of tail end, 11 is the discharge gate, 12 is the feed push rod, 13 is the feed push pedal guide bar, 14 is the feed door plant, 15 is the feed cylinder, 16 is the feed chute, 17 is full warning inductor, 18 is the feed chute right-hand member backup pad.

Detailed Description

The utility model is further described below with reference to the drawings and examples. The following description is by way of example only, and the scope of the utility model should not be limited thereto.

The directions in the present specification and the drawings are described as follows:

FIG. 1 is a perspective view, with up and down, left and right, and front and back, generally conforming to reality;

The front surface of fig. 2 and 3 is actually upper, the back surface is actually lower, the left and right are the same as the actual, the upper is actually rear, and the lower is actually front.

The distributing groove component for detecting the thickness of the stator in the embodiment is composed of a base 1, a distributing frame component, three components and a control component.

The base 1 is a rectangular plate.

The material distributing frame part is composed of more than two (two are adopted in the example) slide rail support plates 2, slide rails 3, a slide rail left baffle 6, a slide rail tail baffle 8 and a material distributing groove right end support plate 18. The front and back directions of the slide rail supporting plate 2 are uniformly arranged on the base 1, and the slide rail 3 is arranged on the slide rail supporting plate. The left baffle 6 of the sliding rail is arranged on the left side of the upper surface of the sliding rail 3, the middle front part, the middle rear part and the rear part of the right side surface of the left baffle 6 of the sliding rail are respectively provided with a material distributing push plate groove 9, and the front parts of the material distributing push plate grooves 9 are respectively provided with through holes in the left-right direction for inserting the material distributing incoming inductor 5. The slide rail tail end baffle 8 is arranged on the rear end of the slide rail 3, and is also provided with a through hole in the front-rear direction for inserting the tail end feeding sensor 10. The right end supporting plate 18 of the distributing groove is arranged on the right upper side of the base 1 which expands rightward (can also be arranged on a workbench matched with the base).

The material distributing part consists of a material distributing pushing mechanism, a material distributing groove 16 and a material full alarm sensor 17.

The material distributing and pushing mechanism consists of a material distributing push plate 7, a material distributing push rod 12, a material distributing push plate guide rod 13, a material distributing door plate 14, a material distributing cylinder 15 and a material distributing incoming material sensor 5. The material distributing push plate 7 is arranged in a material distributing push plate groove 9 on the sliding rail 3; the material distributing door plate 14 is arranged on the right side of the upper surface of the sliding rail 3 opposite to the material distributing push plate groove 9, and three material distributing door plates 14 form a sliding rail right baffle similar to the sliding rail left baffle 6, and form a transfer channel of the material block 4 (namely, a stator) together with the sliding rail left baffle 6 and the sliding rail 3. A discharge hole 11 is arranged at the lower part of the distributing door plate 14 and is used for a distributing outlet of the material block 4. A material distributing cylinder 15 (which can be replaced by an oil cylinder or an electric cylinder) is arranged at the upper part of the right surface of the material distributing door plate 14, and a material distributing push rod 12 (namely a cylinder shaft) which stretches out leftwards penetrates out of the material distributing door plate 14 to be connected with the upper part of the material distributing push plate 7; a left-right direction guide through hole is further formed in a material distribution door plate 14 (a middle-lower part) at the lower part of the material distribution cylinder 15, the right part of the material distribution push plate guide rod 13 is inserted into the guide through hole, and the left end of the material distribution push plate guide rod 13 is connected with the middle-lower part of the material distribution push plate 7. The left end of the material distributing groove 16 is connected with the discharge hole 11 at the lower part of the material distributing door plate 14, and the material full alarm sensor 17 is arranged at the front side or the rear side of the right end of the material full alarm sensor.

The control component (not shown in the drawing) is basically the same as the electrical control component of the common electromechanical equipment, and contains components such as a PLC (programmable logic controller) and the like, and is mainly used for storing control parameters of the components, receiving, comparing and sending out action signals.

Before use, firstly placing the material block 4 on the sliding rail 3 between the material distributing push plate 7 and the material distributing door plate 14, and then setting the position as the end point of the material distributing push rod 12 of the material distributing cylinder 15 extending and the beginning point of retraction (stored in the control part), namely the beginning point of the material distributing pushing action and the end point of the restoring action; then, the distributing cylinder 15 is started, the distributing push rod 12 carries the distributing push plate 7 to carry out distributing pushing rightwards, the lower part of the distributing push plate 7 pushes the material block 4 rightwards to the discharging hole 11 at the lower part of the distributing door plate 14 and enters the left end of the distributing groove 16, at the moment, the position of the sliding rail 3 is set to be a starting point of extending and retracting the distributing push rod 12 of the distributing cylinder 15 (stored in the control part), namely, the distributing pushing action and the restoring action. And the other two components are set and stored with control parameters. So far, normal material separating and pushing work can be started.

When the material block 4 is pushed onto the sliding rail 3 between the material distributing push plate 7 and the material distributing door plate 14 of the first component material distributing component by the sliding rail pushing component, the material distributing incoming material sensor 5 immediately sends sensed information to the control component, the control component compares the sensed information with the stored detection information to judge whether the material block 4 belongs to a material distributing object of the current material distributing groove 16, if the material block 4 belongs to the material distributing object of the material distributing groove 16, at the moment, the control component starts the material distributing cylinder 15, so that the material distributing push rod 12 drives the material distributing push plate 7 to push the material block 4 into the material outlet 11 at the lower part of the material distributing door plate 14 and into the left end of the material distributing groove 16; if not, the material block 4 is kept still until the next material block 4 is pushed, and the material block 4 is pushed back to the sliding rail 3 between the material distributing push plate 7 and the material distributing door plate 14 of the material distributing part of the next group, and the above process is repeated.

When the tail feed sensor 10 senses that the material block 4 at the rear end of the slide rail 3 stays for a certain period of time, an alarm is started (this should be the case if the last component material part fails, resulting in that the material block 4 is not pushed out in time through the discharge opening 11 at the lower part of the material dispensing door plate 14).

When more material blocks 4 are accumulated in the material distribution groove 16, the material blocks 4 are pushed and arranged at the right end of the material distribution groove 16, and at the moment, the full alarm sensor 17 alarms to remind an operator to take out the material blocks 4 in the material distribution groove 16 as soon as possible and put the material blocks into corresponding turnover boxes in a classified mode.

The distributing groove component for detecting the thickness of the stator can be used for real-time distribution in the thickness detection process of various miniature motor stator components.

Claims (5)

1. The utility model provides a divide silo subassembly that stator thickness detected usefulness, includes base (1), its characterized in that: the device also comprises a material distributing frame component and more than one group of material distributing components;

The material distributing frame part comprises more than two sliding rail supporting plates (2), sliding rails (3), a left baffle plate (6) of the sliding rails and a right end supporting plate (18) of the material distributing groove, wherein the sliding rail supporting plates (2) are uniformly arranged on the base (1) in the front-back direction, and the sliding rails (3) are arranged on the sliding rail supporting plates; the left baffle (6) of the sliding rail is arranged on the left side of the upper surface of the sliding rail (3); the right end supporting plate (18) of the material dividing groove is arranged on the right side of the base (1) which expands rightward; the right side surface of the left baffle (6) of the sliding rail is also provided with more than one material distributing push plate groove (9);

The material distributing component comprises a material distributing pushing mechanism and a material distributing groove (16); the material distributing and pushing mechanism comprises a material distributing push plate (7), a material distributing push rod (12), a material distributing door plate (14), a material distributing cylinder (15) and a material distributing incoming sensor (5), wherein the material distributing door plate (14) is arranged on the right above the sliding rail (3), and the lower part of the material distributing door plate is provided with a material outlet (11); the material distributing cylinder (15) is arranged at the upper part of the right surface of the material distributing door plate (14), and a material distributing push rod (12) which stretches out leftwards penetrates out of the material distributing door plate (14) to be connected with the upper part of a material distributing push plate (7) arranged in a material distributing push plate groove (9); the left end of the material distribution groove (16) is connected with a discharge hole (11) at the lower part of the material distribution door plate (14), and the right end of the material distribution groove is arranged on a material distribution groove right end supporting plate (18); the material distributing and feeding inductor (5) is arranged in the front part of the material distributing push plate groove (9) on the left baffle plate (6) of the sliding rail in a penetrating way and is arranged in the induction through hole in the left-right direction.

2. The stator thickness sensing feed divider assembly of claim 1, wherein: the device also comprises a distributing push plate guide rod (13); the right part of the material distribution push plate guide rod (13) is inserted into a guide hole at the middle lower part of the material distribution door plate (14), and the left end of the material distribution push plate guide rod is connected with the middle lower part of the material distribution push plate (7).

3. A distribution chute assembly for stator thickness detection as claimed in claim 1 or 2, wherein: the rear end of the sliding rail (3) is also provided with a sliding rail tail end baffle (8), the sliding rail tail end baffle (8) is provided with a through hole in the front-back direction, and a tail end incoming material sensor (10) is arranged in the through hole.

4. A distribution chute assembly for stator thickness detection as claimed in claim 3, wherein: a full alarm sensor (17) is arranged at the front side or the rear side of the right end of the material distributing groove (16).

5. The stator thickness sensing feed divider assembly of claim 4, wherein: the material distributing cylinder (15) can be an oil cylinder or an electric cylinder.