CN112264716B - A data plate information laser equipment of carving for permanent-magnet machine production - Google Patents

Abstract

The invention discloses a nameplate information laser engraving device for permanent magnet motor production, which comprises: the laser engraving machine comprises a laser engraving base, a horizontal transverse moving driving mechanism, a vertical driving mechanism, a laser engraving mechanism and a nameplate clamping and conveying mechanism; the horizontal traversing driving mechanism is arranged on the laser marking base, and the vertical driving mechanism is in driving connection with the horizontal traversing driving mechanism; the laser engraving mechanism is in driving connection with the vertical driving mechanism; the nameplate clamping and conveying mechanism is arranged on the laser engraving base; and the nameplate clamping and conveying mechanism is arranged below the laser engraving mechanism. The nameplate information laser engraving equipment for permanent magnet motor production disclosed by the invention realizes high-efficiency laser engraving of nameplates and also ensures high-precision laser engraving of nameplates.

Description

A data plate information laser equipment of carving for permanent-magnet machine production

Technical Field

The invention relates to the technical field of permanent magnet motor production, in particular to nameplate information laser engraving equipment for permanent magnet motor production.

Background

In the production process of the permanent magnet motor, necessary tracking information needs to be attached to the permanent magnet motor before products are shipped, so that the products can be conveniently tracked in the subsequent application process. In the prior art, a nameplate is generally attached to a permanent magnet motor. Before the nameplate is attached to the permanent magnet motor, important information of a product, such as model number, specification, production lot number and the like, needs to be recorded. Like this, the data plate is equivalent to the ID card of product, tracks the key information of corresponding permanent-magnet machine through reading permanent-magnet machine's data plate.

However, the service life of the permanent magnet motor is relatively long, and the working environment is generally complex and even relatively severe. Therefore, in order to keep the information on the nameplate of the permanent magnet motor for a long time, the existing method for writing the nameplate information usually adopts a laser writing method.

In addition, in general, in order to reduce the space and area occupied by the nameplate, the nameplate needs to be made smaller. However, in general, the number plate has more information to be engraved. Therefore, strict requirements are provided for the engraving precision of the engraving equipment for the nameplate. In addition, the efficiency of the nameplate engraving equipment is also higher.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides the nameplate information laser engraving equipment for permanent magnet motor production, so that the high-efficiency laser engraving of the nameplate is realized, and meanwhile, the high-precision laser engraving of the nameplate is ensured.

The purpose of the invention is realized by the following technical scheme:

a data plate information laser engraving device for permanent magnet motor production, comprising: the laser engraving machine comprises a laser engraving base, a horizontal transverse moving driving mechanism, a vertical driving mechanism, a laser engraving mechanism and a nameplate clamping and conveying mechanism;

the horizontal traversing driving mechanism is arranged on the laser marking base, and the vertical driving mechanism is in driving connection with the horizontal traversing driving mechanism; the laser engraving mechanism is in driving connection with the vertical driving mechanism; the nameplate clamping and conveying mechanism is arranged on the laser engraving base; and the nameplate clamping and conveying mechanism is arranged below the laser engraving mechanism.

In one embodiment, the nameplate holding and conveying mechanism comprises: the clamping and conveying device comprises a clamping and conveying driving assembly, a guide base, a first sliding connecting piece, a second sliding connecting piece and a nameplate supporting seat; the first sliding connecting piece is arranged on the guide base in a sliding mode; the clamping and conveying driving assembly is in driving connection with the first sliding connecting piece;

the second sliding connecting piece is connected with the first sliding connecting piece in a sliding manner; the nameplate supporting seat is connected with the second sliding connecting piece;

the nameplate clamping and conveying mechanism further comprises a clamping assembly and a swing rod; the clamping assembly comprises a first clamping piece, a second clamping piece and a buffering elastic piece; the first clamping piece is connected with the first sliding connecting piece through the buffering elastic piece; the second clamping piece is connected with the nameplate supporting seat, and the first clamping piece and the second clamping piece are oppositely arranged on two sides of the nameplate supporting seat;

the first sliding connecting piece is provided with a first limiting guide block, the first limiting guide block is provided with a movable accommodating groove, and the first limiting guide block is also provided with a first abutting limiting surface; a second limiting guide block is arranged on the guide base, a limiting groove is formed in the second limiting guide block, and a second abutting limiting surface is arranged on the second limiting guide block; one end of the swing rod is rotatably connected with the second sliding connecting piece, and the other end of the swing rod is respectively provided with a first rotating wheel and a second rotating wheel; the first rotating wheel is clamped in the movable accommodating groove or abutted against the first abutting limiting surface, and the second rotating wheel is clamped in the limiting groove or abutted against the second abutting limiting surface.

In one embodiment, the first clamping piece has a first clamping surface, the second clamping piece has a second clamping surface, and the first clamping surface and the second clamping surface are both provided with anti-slip grooves.

In one embodiment, the guide base is provided with a clamping and conveying guide groove, the first sliding connector is provided with a clamping and conveying convex rib, and the clamping and conveying convex rib is clamped in the clamping and conveying guide groove in a sliding mode.

In one embodiment, the number of the second sliding connectors is two, and the two second sliding connectors are respectively arranged at two ends of the nameplate supporting seat.

In one embodiment, the number of the swing rods is two, and the two swing rods are respectively in one-to-one corresponding rotary connection with the two second sliding connection pieces;

the number of the first limiting guide blocks is two, and the number of the second limiting guide blocks is two.

In one embodiment, the buffering elastic member is a spring.

In one embodiment, the number of the springs is multiple, and the springs are arranged at equal intervals along the first clamping piece.

The nameplate information laser engraving equipment for permanent magnet motor production disclosed by the invention realizes high-efficiency laser engraving of nameplates, and simultaneously ensures high-precision laser engraving of nameplates; compared with the existing laser engraving equipment, the nameplate information laser engraving equipment 10 for permanent magnet motor production adopts a nameplate clamping and conveying mechanism to convey nameplates, so that the precision is higher, and the efficiency is higher; moreover, the structure is simpler, and the equipment cost is lower.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of a nameplate information laser engraving apparatus for permanent magnet motor production according to the present invention;

FIG. 2 is a schematic view of the nameplate holding and conveying mechanism of FIG. 1 in cooperation with a nameplate;

FIG. 3 is a schematic view of a portion of the structure of FIG. 2;

FIG. 4 is a schematic view of the arrangement of FIG. 3 in an assembled state;

FIG. 5 is a schematic view of the structure of FIG. 3 in a state of holding a nameplate;

fig. 6 is a schematic structural view of the nameplate conveying state in fig. 3.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, the present invention discloses a nameplate information laser engraving apparatus 10 for permanent magnet motor production, comprising: the laser engraving machine comprises a laser engraving base 20, a horizontal transverse moving driving mechanism 30, a vertical driving mechanism 40, a laser engraving mechanism 50 and a nameplate clamping and conveying mechanism 60. Specifically, the horizontal traversing driving mechanism 30 is arranged on the laser marking base 20, and the vertical driving mechanism 40 is in driving connection with the horizontal traversing driving mechanism 30; the laser engraving mechanism 50 is in driving connection with the vertical driving mechanism 40; the nameplate clamping and conveying mechanism 60 is arranged on the laser engraving base 20; the nameplate holding and conveying mechanism 60 is disposed below the laser engraving mechanism 50.

As shown in fig. 2 and 3, specifically, the nameplate holding and conveying mechanism 60 includes: the clamping driving component 100, the guide base 200, the first sliding connector 300, the second sliding connector 400 and the nameplate support seat 500; the first sliding connector 300 is slidably disposed on the guide base 200; pinch drive assembly 100 is drivingly connected to first sliding connection 300. The second sliding connector 400 is slidably connected with the first sliding connector 300; the nameplate support base 500 is connected to the second sliding connector 400.

As shown in fig. 2 and 3, in particular, the nameplate holding and conveying mechanism 60 further includes a holding assembly 600 and a swing link 700. The clamping assembly 600 comprises a first clamping member 610, a second clamping member 620 and a buffering elastic member 630; the first clamping member 610 is connected to the first sliding connector 300 by the buffering elastic member 630; the second clamping member 620 is connected to the nameplate support 500, and the first clamping member 610 and the second clamping member 620 are disposed at two opposite sides of the nameplate support 500 (as shown in fig. 5).

As shown in fig. 4, 5 and 6, in detail, the first sliding connector 300 is provided with a first limiting guiding block 310, the first limiting guiding block 310 is provided with a moving accommodating groove 311, and the first limiting guiding block 310 is further provided with a first abutting limiting surface 312. The guide base 200 is provided with a second limit guide block 210, the second limit guide block 210 is provided with a limit groove 211, and the second limit guide block 210 is provided with a second abutting limit surface 212. One end of the swing rod 700 is rotatably connected with the second sliding connection member 400, and the other end is provided with a first rotating wheel 710 and a second rotating wheel 720 respectively; the first wheel 710 is engaged in the movable receiving slot 311 or abuts against the first abutting surface 312, and the second wheel 720 is engaged in the retaining slot 211 or abuts against the second abutting surface 212.

As shown in fig. 3 and 4, in detail, the first clamping member 610 has a first clamping surface 611, the second clamping member 620 has a second clamping surface 621, and the first clamping surface 611 and the second clamping surface 621 are both provided with anti-slip grooves 631. The nameplate 800 is clamped by the first clamping surface 611 and the second clamping surface 621, so that the clamping mode is more stable, and the nameplate 800 is prevented from shifting or dislocating; in addition, the anti-slip grooves 631 are formed in the first clamping surface 611 and the second clamping surface 621, so that the friction force between the first clamping surface 611 and the side surface of the nameplate 800 and the friction force between the second clamping surface 621 and the side surface of the nameplate 800 are increased, the nameplate 800 is clamped more stably, the laser engraving precision of the nameplate 800 is improved, and defective products are effectively prevented;

as shown in fig. 3, in detail, the guide base 200 is provided with a pinch guide slot 220, and the first sliding connector 300 is provided with a pinch clamping rib (not shown) which is slidably clamped in the pinch guide slot 220.

As shown in fig. 3 and 5, specifically, the number of the second sliding connectors 400 is two, and the two second sliding connectors 400 are respectively disposed at two ends of the nameplate supporting seat 500.

As shown in fig. 3, specifically, the number of the swing rods 700 is two, and the two swing rods 700 are respectively and correspondingly and rotatably connected with the two second sliding connectors 400 one by one; accordingly, the number of the first limit guide blocks 310 is two, and the number of the second limit guide blocks 210 is two.

As shown in fig. 4, the buffering elastic member 630 is a spring. In a preferred embodiment, the number of the springs is plural, and the plural springs are disposed at equal intervals along the first clamping member 610.

The nameplate information laser engraving device 10 for permanent magnet motor production disclosed by the invention realizes high-efficiency laser engraving of the nameplate 800 and also ensures high-precision laser engraving of the nameplate 800; compared with the existing laser engraving equipment, the nameplate information laser engraving equipment 10 for permanent magnet motor production adopts the nameplate clamping and conveying mechanism 60 to convey the nameplate 800, so that the precision is higher, and the efficiency is higher; moreover, the structure is simpler, and the equipment cost is lower.

The working principle of the nameplate information laser engraving apparatus 10 for permanent magnet motor production is explained below (please refer to fig. 1 to 6 together):

the laser engraving process for the nameplate 800 is generally:

firstly, loading the nameplate 800, namely placing the nameplate 800 on the nameplate support seat 500;

then, conveying the nameplate 800 to the laser engraving mechanism 50 for laser engraving, namely, a feeding process;

after the nameplate 800 is subjected to laser engraving, resetting the nameplate 800 in a direction away from the laser engraving mechanism 50, namely a resetting process;

finally, blanking the nameplate 800, namely taking the nameplate 800 down from the nameplate support seat 500;

in the initial loading state, the first clamping piece 610 is separated from the nameplate supporting seat 500, and the distance between the first clamping piece 610 and the second clamping piece 620 is greater than the width of the nameplate 800; the design is that the staff can quickly and conveniently place the nameplate 800 on the nameplate support seat 500 or take the nameplate 800 off the nameplate support seat 500, so that the laser engraving efficiency of the nameplate 800 is improved, and the production efficiency of the permanent magnet motor is improved;

when the nameplate 800 to be laser engraved is placed on the nameplate support seat 500, the pinch driving assembly 100 drives the first sliding connector 300 to move along the guide base 200; the first sliding connector 300 drives the first clamping member 610 and the buffering elastic member 630 to move together in a direction close to the nameplate 800 until the first clamping surface 611 of the first clamping member 610 abuts against the side surface of the nameplate 800, and the nameplate 800 is firmly clamped between the first clamping member 610 and the second clamping member 620;

it should be noted that, in the process that the first holding member 610 and the side of the nameplate 800 just contact the first holding member 610 and the second holding member 620 to firmly hold the nameplate 800, the buffering elastic member 630 is continuously compressed and finally reaches a state of relative balance with the first holding member 610, the second holding member 620 and the nameplate 800; here, on one hand, the buffering elastic member 630 plays a role in buffering the holding of the nameplate 800, so as to prevent the nameplate 800 from being damaged due to instantaneous rigid holding; on the other hand, the buffering elastic member 630 makes the first clamping member 610 and the second clamping member 620 more stably clamp the nameplate 800, so that the reliability is higher; this is because, if the rigid clamping is performed, if the clamping is not tight enough, the nameplate 800 is likely to be displaced, and the laser-engraved position of the nameplate 800 is shifted, which may result in a situation where the laser engraving is not satisfactory; if the clamping is too tight, the nameplate 800 is easily deformed or damaged; on the other hand, the flexible clamping mode also plays a role in protecting the first clamping piece 610 and the second clamping piece 620, reduces the damage to the first clamping piece 610 and the second clamping piece 620, and prolongs the service life;

it should be further noted that, in the initial feeding state, the second rotating wheel 720 is clamped in the limiting groove 211, and the first rotating wheel 710 abuts against the first abutting limiting surface 312, so as to limit the swing rod 700; therefore, in the process from the initial loading state to the first clamping piece 610 and the second clamping piece 620 for firmly clamping the name plate 800, the swing link 700, the second sliding connector 400, the name plate support seat 500 and the name plate 800 are all kept still;

after the first clamping member 610 and the second clamping member 620 clamp the nameplate 800, the pinch driving assembly 100 continues to drive the first sliding connector 300 to move; at this time, the movable accommodating slot 311 reaches the first rotating wheel 710 and gradually hooks up the nameplate 800, so that the first rotating wheel 710 is gradually clamped into the movable accommodating slot 311; meanwhile, the second rotating wheel 720 gradually disengages from the limiting groove 211 and finally abuts against the second abutting limiting surface 212; then, under the continuous driving of the pinch driving assembly 100, the first sliding connector 300, the second sliding connector 400, the nameplate supporting seat 500, the nameplate 800, the clamping assembly 600 and the swing rod 700 move together in the direction close to the laser engraving mechanism 50 until the nameplate 800 moves to the preset position and stops;

it should be noted that the process from the initial loading state to the process of moving the nameplate 800 to the preset position is a feeding process;

it should be noted that, when the second rotating wheel 720 is clamped in the limiting groove 211 and the first rotating wheel 710 abuts against the first abutting limiting surface 312, the first abutting limiting surface 312 has a stable abutting force against the first rotating wheel 710, so that the second rotating wheel 720 is firmly clamped in the limiting groove 211, and finally the high stability of the swing rod 700 is ensured; in addition, when the second rotating wheel 720 abuts against the second abutting limiting surface 212 and the first rotating wheel 710 is clamped in the accommodating groove 311, the second abutting limiting surface 212 has a stable abutting force on the second rotating wheel 720, so that the first rotating wheel 710 is firmly clamped in the accommodating groove 311, and the height stability of the swing rod 700 is finally ensured;

when the nameplate 800 moves to a preset position, laser engraving is carried out on the nameplate 800; in the process of laser engraving the nameplate 800, the horizontal translation driving mechanism 30 indirectly drives the laser engraving mechanism 50 to horizontally and transversely translate in the horizontal direction by driving the vertical driving mechanism 40; the pinch driving component 100 drives the nameplate 800 to horizontally and longitudinally translate in the horizontal direction; the vertical driving mechanism 40 drives the laser engraving mechanism 50 to move in the vertical direction; therefore, movement control in the three-dimensional direction is provided for laser engraving of the nameplate 800, and smooth laser engraving processing of the nameplate 800 is guaranteed;

after the laser engraving of the nameplate 800 is finished, the pinch driving assembly 100 drives the first sliding connection piece 300, the second sliding connection piece 400, the nameplate supporting seat 500, the clamping assembly 600 and the swing rod 700 to reset to a blanking state in a direction away from the laser engraving mechanism 50, wherein the blanking state is the same as the initial feeding state; it should be noted that the reset process of the nameplate clamping and conveying mechanism 60 is the same as the principle of the feeding process and the direction is opposite, so the details are not described herein;

it should be further noted that, when the pinch driving assembly 100 provides the power for the laser engraving of the nameplate 800 to horizontally and longitudinally translate, the swing rod 700 keeps the state that the first rotating wheel 710 is clamped in the receiving groove 311, and the second rotating wheel 720 abuts against the second abutting limiting surface 212; in this state, the pinch driving assembly 100 makes the first sliding connection member 300, the second sliding connection member 400, the nameplate support base 500, the nameplate 800, the clamping assembly 600 and the swing link 700 move reciprocally along the guide base 200 in a direction approaching or departing from the laser engraving mechanism 50;

it should be further noted that the clamping and conveying driving assembly 100 not only provides driving force for feeding and resetting of the nameplate clamping and conveying mechanism, but also provides power for horizontal and longitudinal translation for laser engraving of the nameplate 800; the invention utilizes the power source of feeding to provide power for laser engraving at the same time, thus realizing the full utilization of the power source, and the mechanisms are closely matched; therefore, the nameplate information laser engraving equipment 10 for permanent magnet motor production is simpler and more compact in structure and lower in equipment cost.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. A data plate information laser equipment of carving for permanent-magnet machine production includes: the laser engraving machine comprises a laser engraving base, a horizontal transverse moving driving mechanism, a vertical driving mechanism, a laser engraving mechanism and a nameplate clamping and conveying mechanism;

the horizontal traversing driving mechanism is arranged on the laser marking base, and the vertical driving mechanism is in driving connection with the horizontal traversing driving mechanism; the laser engraving mechanism is in driving connection with the vertical driving mechanism; the nameplate clamping and conveying mechanism is arranged on the laser engraving base; the nameplate clamping and conveying mechanism is arranged below the laser engraving mechanism;

its characterized in that, data plate centre gripping conveying mechanism includes: the clamping and conveying device comprises a clamping and conveying driving assembly, a guide base, a first sliding connecting piece, a second sliding connecting piece and a nameplate supporting seat; the first sliding connecting piece is arranged on the guide base in a sliding mode; the clamping and conveying driving assembly is in driving connection with the first sliding connecting piece;

the second sliding connecting piece is connected with the first sliding connecting piece in a sliding manner; the nameplate supporting seat is connected with the second sliding connecting piece;

the nameplate clamping and conveying mechanism further comprises a clamping assembly and a swing rod; the clamping assembly comprises a first clamping piece, a second clamping piece and a buffering elastic piece; the first clamping piece is connected with the first sliding connecting piece through the buffering elastic piece; the second clamping piece is connected with the nameplate supporting seat, and the first clamping piece and the second clamping piece are oppositely arranged on two sides of the nameplate supporting seat;

the first sliding connecting piece is provided with a first limiting guide block, the first limiting guide block is provided with a movable accommodating groove, and the first limiting guide block is also provided with a first abutting limiting surface; the guide base is provided with a second limit guide block, the second limit guide block is provided with a limit groove, and the second limit guide block is provided with a second abutting limit surface; one end of the swing rod is rotatably connected with the second sliding connecting piece, and the other end of the swing rod is respectively provided with a first rotating wheel and a second rotating wheel; the first rotating wheel is clamped in the movable accommodating groove or abutted against the first abutting limiting surface, and the second rotating wheel is clamped in the limiting groove or abutted against the second abutting limiting surface.

2. A nameplate information laser engraving apparatus for permanent magnet motor production according to claim 1, wherein the first clamping piece has a first clamping face, the second clamping piece has a second clamping face, and both the first clamping face and the second clamping face are provided with anti-slip grooves.

3. The nameplate information laser engraving device for permanent magnet motor production according to claim 2, wherein the guide base is provided with a clamping and conveying guide groove, the first sliding connector is provided with a clamping and conveying convex rib, and the clamping and conveying convex rib is slidably clamped in the clamping and conveying guide groove.

4. A nameplate information laser engraving apparatus for permanent magnet motor production according to claim 3, wherein the number of the second sliding connection pieces is two, and the two second sliding connection pieces are respectively arranged at two ends of the nameplate supporting seat.

5. The nameplate information laser engraving apparatus for permanent magnet motor production according to claim 4, wherein the number of the swing rods is two, and the two swing rods are respectively in one-to-one corresponding rotary connection with the two second sliding connection pieces;

the number of the first limiting guide blocks is two, and the number of the second limiting guide blocks is two.

6. A nameplate information laser engraving apparatus for permanent magnet motor production according to claim 5, wherein the buffer elastic member is a spring.

7. A nameplate information laser engraving apparatus for permanent magnet motor production according to claim 6, wherein the number of the springs is plural, and the plural springs are arranged at equal intervals along the first clamping piece.

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