CN218909078U - Iron sheet quantitative stacking device for motor iron core processing - Google Patents

Abstract

The utility model discloses an iron sheet quantitative stacking device for motor iron core processing, which relates to the technical field of motor iron core production, and aims at solving the problems that the manual stacking of the existing motor iron cores reduces stacking efficiency, increases the labor capacity of workers, easily causes occupational diseases and causes harm to the health of the workers, and the utility model provides a scheme that a stacking assembly for stacking patches is movably connected in a movable groove, and a quantitative assembly for limiting the number of the iron sheets is arranged on one side of the stacking assembly far away from a feeding plate. The device has not only improved the efficiency that the iron sheet was piled up to improve the efficiency of whole production, and reduced staff's amount of labour, avoided producing occupational disease, can also quantitatively pile up, be applicable to the iron sheet of multiple quantity and pile up, the suitability of device is higher, and improves spacing accuracy.

Description

Iron sheet quantitative stacking device for motor iron core processing

Technical Field

The utility model relates to the technical field of motor core production, in particular to an iron sheet quantitative stacking device for motor core processing.

Background

The motor core comprises a stator and a rotor, which are a core component in the electric machine, and is mainly used for increasing the magnetic flux of the induction coil so as to realize the maximum conversion of electromagnetic power. The motor iron core has a very wide application range and is commonly used for stepping motors, alternating current-direct current motors, speed reduction motors and the like. In the production process of the motor iron core, the motor iron core is stamped through a hardware stamping grinding tool and then stacked together, and part of factories can adopt manual stacking to ensure the work degree of stacking iron sheets and the number of stacking iron sheets.

Through manual mode of stacking, though the degree of the work is higher, the stacking quantity is adjustable, but needs the staff to take repeatedly for the speed of stacking is slower, has reduced the efficiency of stacking, and has increased staff's amount of labour, leads to the staff to produce occupational disease easily, causes harm to its healthy, consequently, we have proposed a motor iron core processing with iron sheet ration stacking device, in order to solve above-mentioned problem.

Disclosure of Invention

The utility model provides an iron sheet quantitative stacking device for motor iron core processing, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a motor iron core processing is with iron sheet ration stack device, includes the workstation, one side of workstation is provided with conveyor, conveyor's one end is provided with the flitch, the flitch is installed on the workstation, the one end of flitch is provided with the movable groove, swing joint has the subassembly that stacks that is used for stacking the paster in the movable groove, the subassembly that stacks is motor control's gear engagement connection movable structure, the one side that stacks the subassembly and keep away from the flitch is provided with the ration subassembly that is used for prescribing a limit to iron sheet quantity, the ration subassembly is spring coupling's regulation location structure, one side between flitch and the movable groove is provided with inductor two.

Preferably, the stacking assembly comprises a stacking plate, limiting plates are arranged on two sides of the stacking plate, sliding blocks are respectively arranged at the upper ends of the two sides, far away from one side, of the limiting plates, the sliding blocks are respectively connected with sliding grooves in a sliding mode, and the sliding grooves are respectively formed in the two fixing plates.

Preferably, the two fixing plates are respectively arranged on one side, far away from the two limiting plates, of the two fixing plates, the lower ends of the two fixing plates are connected with the workbench, and the stacking plate and the two limiting plates movably penetrate through the movable groove.

Preferably, a plurality of tooth blocks are respectively installed on one side, far away from each other, of the limiting plates, a plurality of teeth blocks are connected with gears in a meshed mode at the lower ends of the tooth blocks, a motor is installed on one side of each gear, the motor is installed on an installation frame, and the installation frame is installed at the bottom of the workbench.

Preferably, the movable groove is formed in the workbench, an electric telescopic rod is arranged at one end, far away from the movable groove, of the feeding plate, and a push plate is arranged at the other end of the electric telescopic rod.

Preferably, the quantitative assembly comprises a mounting plate, the mounting plate is mounted on one side of the stacking plate, which is far away from the feeding plate, a movable plate is slidably connected onto the mounting plate, a stop block is mounted below one side of the movable plate, which is close to the mounting plate, a spring pin is movably connected onto one end of the movable plate, which is close to the mounting plate, and a positioning hole is movably connected onto the spring pin.

Preferably, the locating holes are formed in a plurality of positions, the locating holes are formed in one side, away from the feeding plate, of the mounting plate, and the first inductor is mounted on one side, close to the feeding plate, of the mounting plate.

The beneficial effects of the utility model are as follows:

1. the device is through loading board, electric telescopic link, push pedal, pile up the cooperation of subassembly, inductor one and inductor two and use for control pile up the board activity and move down, and pile up the material loading to the iron sheet, avoid the iron sheet to pile up higher, need manual the stacking, improved the efficiency that the iron sheet piled up, thereby improve the efficiency of whole production, and reduced staff's amount of labour, avoid producing occupational disease.

2. The device is through mounting panel, fly leaf, spring pin and the locating hole that set up for to the iron sheet according to required quantity, adjust the position of fly leaf, thereby reach the purpose that the ration was piled up, be applicable to the iron sheet of multiple quantity and pile up, the suitability of device is higher, and through the dog that sets up, can prevent the fly leaf slope, improve spacing accuracy.

To sum up, the device has not only improved the efficiency that the iron sheet was piled up to improve the efficiency of whole production, and reduced staff's amount of labour, avoided producing occupational disease, can also quantitatively pile up, be applicable to the iron sheet of multiple quantity and pile up, the suitability of device is higher, and improves spacing accuracy.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic diagram of a movable trough and a second sensor according to the present utility model.

FIG. 3 is a schematic view of a stacked assembly according to the present utility model.

FIG. 4 is a schematic structural view of a portion of the dosing assembly of the present utility model.

Reference numerals in the drawings: 1. a work table; 2. a conveying device; 3. a loading plate; 4. an electric telescopic rod; 5. a push plate; 6. stacking the components; 601. stacking plates; 602. a limiting plate; 603. a slide block; 604. a chute; 605. a fixing plate; 606. tooth blocks; 607. a gear; 608. a motor; 609. a mounting frame; 7. a dosing assembly; 701. a mounting plate; 702. a movable plate; 703. a stop block; 704. a spring pin; 705. positioning holes; 706. an inductor I; 8. a movable groove; 9. and a second inductor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 and 2, this embodiment provides a motor core processing is with iron sheet ration stack device, including workstation 1, one side of workstation 1 is provided with conveyor 2, one end of conveyor 2 is provided with flitch 3, flitch 3 installs on workstation 1, the one end of flitch 3 is provided with movable groove 8, movable groove 8 is seted up on workstation 1, swing joint has the stack subassembly 6 that is used for piling up the paster in the movable groove 8, stack subassembly 6 is electrically controlled's gear engagement connection movable structure, one side that stack subassembly 6 kept away from flitch 3 is provided with the ration subassembly 7 that is used for prescribing a limit to iron sheet quantity, ration subassembly 7 is spring coupling's regulation location structure, one side between flitch 3 and the movable groove 8 is provided with inductor two 9, electric telescopic handle 4 is installed to flitch 3 one end of keeping away from the movable groove 8, push pedal 5 is installed to electric telescopic handle 4's the other end for control iron sheet carries out the stack material.

As shown in fig. 1, fig. 2 and fig. 3, the stacking assembly 6 includes a stacking plate 601, limiting plates 602 are mounted on two sides of the stacking plate 601 and used for limiting iron sheets, sliding blocks 603 are mounted on upper ends of two sides, which are relatively far away from each other, of the two limiting plates 602, sliding grooves 604 are slidably connected to the two sliding blocks 603, the two sliding grooves 604 are formed in two fixing plates 605, the two fixing plates 605 are mounted on one sides, which are relatively far away from the two limiting plates 602, of the two fixing plates 605, the lower ends of the two fixing plates 605 are connected with the workbench 1, the stacking plate 601 and the two limiting plates 602 movably penetrate through the movable groove 8, a plurality of tooth blocks 606 are mounted on one sides, which are relatively far away from each other, of the two limiting plates 602 are respectively, a plurality of tooth blocks 606 are connected with gears 607 in a meshed manner, a motor 608 is mounted on one side of each of the gear mounting frames 607 and used for driving the gears 607 to rotate, so as to drive the limiting plates 602 and the stacking plate 601 to move up and down, the motor 608 is mounted on the 609, and the bottom of the workbench 1 is mounted on the workbench 1.

As shown in fig. 1, 2 and 4, the dosing assembly 7 comprises a mounting plate 701, wherein the mounting plate 701 is mounted on one side of the stacking plate 601 away from the feeding plate 3, a movable plate 702 is slidably connected to the mounting plate 701, a stop 703 is mounted below one side of the movable plate 702 close to the mounting plate 701, the movable plate 702 is prevented from being inclined, a spring pin 704 is movably connected to one end of the movable plate 702 close to the mounting plate 701, a positioning hole 705 is movably connected to the spring pin 704 and is used for adjusting the position of the movable plate 702 and fixing the position of the movable plate 702, a plurality of positioning holes 705 are formed, and a plurality of positioning holes 705 are formed in one side of the mounting plate 701 away from the feeding plate 3, and an inductor 706 is mounted on one side of the mounting plate 701 close to the feeding plate 3 and used for inducing whether an iron sheet moves onto the stacking plate 601.

The working principle of the utility model is as follows: when the device is used, according to the number of iron sheets required, the spring pin 704 is pulled outwards, one end of the spring pin 704 is separated from the positioning hole 705, then the movable plate 702 is moved to a required position, the spring pin 704 is loosened, the spring pin 704 is clamped into the positioning hole 705, the movable plate 702 is limited, the iron sheets fall onto the conveying device 2 after being punched, the iron sheets are conveyed onto the upper material plate 3 through the conveying device 2, then the electric telescopic rod 4 is controlled to drive the push plate 5 to move, the iron sheets are pushed onto the stacking plate 601, after the inductor one 706 senses the extrusion of the iron sheets, the motor 608 is controlled to drive the gear 607 to rotate, the gear block 606 is meshed and connected with the tooth block 606 outside the limiting plate 602 through the gear 607, the movable plate 602 and the iron sheets placed on the stacking plate 601 are controlled to move downwards in the chute 604, and are flush with the upper material plate 3, when the inductor one 706 senses no iron sheets are arranged between the two limiting plates 602, the push plate 5 is controlled to push the iron sheets onto the stacking plate 601, the iron sheets are repeatedly pushed onto the upper material plate 601, the inductor one more than the uppermost iron sheets are repeatedly pressed onto the stacking plate 706, the upper material plate is stacked, the working table is repeatedly pressed onto the upper material plate 601, and the working table is reversely stacked, and the working table is stacked under the working table is rotated, and the working procedure is stopped, and the working procedure is stacked is finished.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a motor iron core processing is with iron sheet ration stack device, includes workstation (1), its characterized in that, one side of workstation (1) is provided with conveyor (2), one end of conveyor (2) is provided with loading board (3), loading board (3) are installed on workstation (1), one end of loading board (3) is provided with movable groove (8), swing joint has in movable groove (8) to be used for carrying out stacked subassembly (6) to the paster, stacked subassembly (6) are motor control's gear engagement and connect movable structure, one side that stacked subassembly (6) kept away from loading board (3) is provided with quantitative subassembly (7) that are used for prescribing a limit to iron sheet quantity, quantitative subassembly (7) are spring coupling's regulation location structure, one side between loading board (3) and movable groove (8) is provided with inductor two (9).

2. The iron sheet quantitative stacking device for motor core machining according to claim 1, wherein the stacking assembly (6) comprises a stacking plate (601), limiting plates (602) are respectively arranged on two sides of the stacking plate (601), sliding blocks (603) are respectively arranged at the upper ends of the two relatively far away sides of the limiting plates (602), sliding grooves (604) are respectively and slidably connected with the two sliding blocks (603), and the two sliding grooves (604) are respectively arranged on two fixing plates (605).

3. The quantitative stacking device for iron sheets for motor core processing according to claim 2, wherein two fixing plates (605) are respectively installed on one side of two limiting plates (602) relatively far away, the lower ends of the two fixing plates (605) are connected with a workbench (1), and the stacking plate (601) and the two limiting plates (602) movably penetrate through a movable groove (8).

4. The quantitative stacking device for iron sheets for motor core processing according to claim 2, wherein a plurality of tooth blocks (606) are respectively installed on one side, which is relatively far away from the limiting plates (602), of each limiting plate, a plurality of tooth blocks (606) are connected with a gear (607) in a meshed manner at the lower ends of the tooth blocks (606), a motor (608) is installed on one side of each gear (607), the motor (608) is installed on an installation frame (609), and the installation frame (609) is installed at the bottom of the workbench (1).

5. The iron sheet quantitative stacking device for motor core machining according to claim 1, wherein the movable groove (8) is formed in the workbench (1), one end, far away from the movable groove (8), of the feeding plate (3) is provided with an electric telescopic rod (4), and the other end of the electric telescopic rod (4) is provided with a push plate (5).

6. The quantitative stacking device for iron sheets for motor core machining according to claim 1, wherein the quantitative assembly (7) comprises a mounting plate (701), the mounting plate (701) is mounted on one side, far away from the feeding plate (3), of the stacking plate (601), a movable plate (702) is slidably connected to the mounting plate (701), a stop block (703) is mounted below one side, close to the mounting plate (701), of the movable plate (702), a spring pin (704) is movably connected to one end, close to the mounting plate (701), of the movable plate (702), and a positioning hole (705) is movably connected to the spring pin (704).

7. The quantitative stacking device for iron sheets for motor core processing according to claim 6, wherein a plurality of positioning holes (705) are formed, the positioning holes (705) are formed in one side, away from the feeding plate (3), of the mounting plate (701), and an inductor I (706) is mounted on one side, close to the feeding plate (3), of the mounting plate (701).

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