CN217345461U - Marking mechanism for magnet - Google Patents

Abstract

The utility model relates to a marking mechanism for magnet, which comprises a bottom plate, a marker and a positioning table, wherein the marker and the positioning table are arranged on the bottom plate and are matched with each other, the marker comprises a door-shaped frame fixed on the top of the bottom plate, a first electric sliding table transversely fixed on the top of the door-shaped frame, a first traction plate vertically fixed on the moving end of the first electric sliding table and capable of horizontally moving left and right by means of the first electric sliding table, a second electric sliding table longitudinally fixed on the first traction plate, a second traction plate vertically fixed on the moving end of the second electric sliding table and capable of vertically moving up and down by means of the second electric sliding table, and a main body arranged on the second traction plate; the utility model provides high work efficiency has reduced intensity of labour, has effectively reduced the marking off error moreover in order to guarantee cutting accuracy conscientiously, in addition still can adjust the inclination of the former feed block of stylus and magnet as required so that use.

Description

Marking mechanism for magnet

Technical Field

The utility model relates to a marking mechanism for magnet.

Background

With the continuous deepening of modern processing technology, the artificial magnet can be quickly prepared by only putting steel or magnetic alloy materials into a magnetizer, and the prepared artificial magnet has stable magnetic field and strong magnetism, so that people do not need to rely on natural magnets in mass production activities; the artificial magnet can be cut into blocks, sheets, strips and the like according to the requirements, and in order to ensure the accurate cutting size, the line is drawn before cutting; the existing magnet raw material blocks are manually marked, so that the working efficiency is low, the labor intensity is high, the marking error is large, the cutting precision is influenced, and the magnet raw material blocks are to be further improved.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that an improve work efficiency and reduced intensity of labour, and effectively reduced the marking off error in order to guarantee cutting accuracy conscientiously, in addition the convenient to use be used for the marking off mechanism of magnet.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a marking mechanism for magnet, its characterized in that includes the bottom plate and locates on the bottom plate and mutually support's scriber and locating platform, the scriber is including fixing the door type frame at bottom plate top, transversely put the first electronic slip table of fixing at door type frame top, vertically fix on the removal end of first electronic slip table and can control the first traction plate of translation with the help of first electronic slip table, indulge and fix the electronic slip table of second on first traction plate, vertically fix on the removal end of electronic slip table of second and can be with the help of the electronic slip table of second vertical movement's of second traction plate, and locate the main part on the second traction plate, the locating platform includes that transversely put the platen that fixes on the bottom plate and be located door type frame bottom and perpendicular to first electronic slip table distribution, transversely fix on the removal end of electronic slip table of third and can be with the help of the electronic slip table of third platen fore-and-aft translation, The support frame is arranged above the bedplate, and the substrate is transversely embedded in the support frame; the main body comprises a first servo motor fixed on the rear side of the second traction plate, a first belt wheel sleeved and fixed on a rotating shaft of the first servo motor, two side plates vertically fixed on the front side of the second traction plate and arranged in bilateral symmetry, an adjusting shaft transversely and rotatably inserted and fixed between the two side plates, a second belt wheel sleeved and fixed at the right end of the adjusting shaft, a synchronous belt sleeved between the first belt wheel and the second belt wheel, a U-shaped frame fixed on the adjusting shaft and between the two side plates, and a detachable engraving needle inserted and fixed in the U-shaped frame; the top of the bedplate is further fixed with two seat boards which are symmetrically arranged in the front-back direction, the rear side of the rear seat board is further fixed with a second servo motor, the support frame is arranged between the two seat boards, the rotating shaft of the second servo motor transversely penetrates through the rear seat board forwards and is fixed on the rear side of the support frame, and the front side of the support frame is rotatably fixed on the front seat board.

Preferably, still be fixed with the fixed strip of horizontal setting on the rear side inner wall of support frame, the inside front side of holding in the palm the frame still is equipped with the strip that moves of horizontal distribution, the fixed strip all locates the top of base plate with moving the strip, the front side of holding in the palm the frame still alternates the spiro union at least has two first knob screws of horizontal setting, every the screw thread end of first knob screw all passes the front side of holding in the palm the frame and all rotatable fixes on moving the strip.

Preferably, a plurality of notch grooves are formed in the inner walls of the left side and the right side of the support frame, correspondingly, a second knob screw transversely arranged is further inserted and screwed between the outer walls of the left side and the right side of the support frame and the bottom of each notch groove, and the threaded end of each second knob screw extends into one corresponding notch groove.

Preferably, each notch groove is further provided with a pressing block, and the threaded end of each second knob screw is rotatably fixed on a corresponding pressing block.

Preferably, the rear side of second traction plate still is fixed with the first end plate of vertical setting, first end plate is passed and stretches out to the right side of first end plate transversely to the right to the axis of rotation of first servo motor, the right side of first end plate is located to first band pulley.

Preferably, the front side of second traction plate still is fixed with the second end plate of vertical setting, the right side of two curb plates is located to the second end plate, the right-hand member of regulating spindle transversely passes the second end plate right and stretches out the right side of second end plate, the right side of second end plate is located to the second band pulley.

Preferably, a dust cover is further fixed between the first end plate and the second end plate, and the dust cover is arranged outside the first belt wheel, the second belt wheel and the synchronous belt.

Preferably, a cavity hole is formed in the base plate, the third electric sliding table is embedded into the cavity hole, frame plates which are transversely distributed are further arranged below the base plate, the bottom of the third electric sliding table is fixed to the top of each frame plate, and four hanging plates which are symmetrically arranged in pairs are further fixed between each frame plate and the base plate.

Compared with the prior art, the utility model has the advantages of: the utility model discloses can carry out the automation to the former feed block of magnet and rule, and then improve work efficiency and reduced intensity of labour, effectively reduced moreover and rule the error in order to guarantee cutting accuracy conscientiously, in addition still can adjust the inclination of burin and the former feed block of magnet as required so that use.

Drawings

FIG. 1 is a right front side plan view structural diagram of the present invention;

fig. 2 is a right front elevation view structural diagram of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and the like in the description of the invention does not denote any order, quantity, or importance, but rather the terms "first," "second," and the like are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted.

As shown in figures 1-2, the scribing mechanism for the magnet comprises a bottom plate 1, and a scriber and a positioning table which are arranged on the bottom plate 1 and are matched with each other, wherein the scriber comprises a door-shaped frame 2 fixed on the top of the bottom plate 1, a first electric sliding table 3 transversely fixed on the top of the door-shaped frame 2, a first traction plate 4 vertically fixed on the moving end of the first electric sliding table 3 and capable of horizontally moving left and right by means of the first electric sliding table 3, a second electric sliding table 5 longitudinally fixed on the first traction plate 4, a second traction plate 6 vertically fixed on the moving end of the second electric sliding table 5 and capable of vertically moving up and down by means of the second electric sliding table 5, and a main body arranged on the second traction plate 6, the positioning table comprises a third electric sliding table 8 transversely fixed on the bottom plate 1 and positioned at the bottom of the door-shaped frame 2 and distributed perpendicularly to the first electric sliding table 3, a platen 9 transversely fixed on the moving end of the third electric sliding table 8 and capable of horizontally moving back and forth by means of the third electric sliding table 8, A support frame 11 arranged above the bedplate 9 and a substrate 13 transversely embedded in the support frame 11; the main body comprises a first servo motor 20 fixed on the rear side of the second traction plate 6, a first belt wheel 21 sleeved and fixed on a rotating shaft of the first servo motor 20, two side plates 22 vertically fixed on the front side of the second traction plate 6 and arranged in bilateral symmetry, an adjusting shaft 24 transversely and rotatably inserted and fixed between the two side plates 22, a second belt wheel 25 sleeved and fixed at the right end of the adjusting shaft 24, a synchronous belt 26 sleeved between the first belt wheel 21 and the second belt wheel 25, a U-shaped frame 27 fixed on the adjusting shaft 24 and arranged between the two side plates 22, and a detachable engraving needle 28 inserted and fixed in the U-shaped frame 27; the top of the bedplate 9 is further fixed with two seat boards 10 which are symmetrically arranged front and back, the rear side of one seat board 10 at the rear is further fixed with a second servo motor 12, a support frame 11 is arranged between the two seat boards 10, the rotating shaft of the second servo motor 12 transversely penetrates through one seat board 10 at the rear forwards and is fixed at the rear side of the support frame 11, and the front side of the support frame 11 is rotatably fixed on one seat board 10 at the front.

The inner wall of the rear side of the support frame 11 is further fixed with a transversely-arranged fixed strip 14, the front side of the interior of the support frame 11 is further provided with a transversely-distributed movable strip 15, the fixed strip 14 and the movable strip 15 are both arranged above the substrate 13, the front side of the support frame 11 is further at least threaded with two transversely-arranged first knob screws 16, and the threaded end of each first knob screw 16 penetrates through the front side of the support frame 11 and is rotatably fixed on the movable strip 15.

All seted up a plurality of breach groove 111 on the left and right sides inner wall of support frame 11, correspondingly, still all alternate the spiro union between the left and right sides outer wall of support frame 11 and the bottom in every breach groove 111 and have a horizontal second knob screw 18 that sets up, and the screw thread end of every second knob screw 18 all stretches into in a corresponding breach groove 111.

Each notch groove 111 is also provided with a pressing block 17, and the threaded end of each second knob screw 18 is rotatably fixed on a corresponding pressing block 17.

The rear side of the second traction plate 6 is also fixed with a first end plate 19 which is vertically arranged, a rotating shaft of a first servo motor 20 transversely penetrates the first end plate 19 rightwards and extends out of the right side of the first end plate 19, and a first belt wheel 21 is arranged on the right side of the first end plate 19.

The front side of second traction plate 6 is still fixed with the second end plate 23 of vertical setting, and the right side of two curb plates 22 is located to second end plate 23, and the right-hand member of regulating shaft 24 transversely passes second end plate 23 right and stretches out the right side of second end plate 23, and the right side of second end plate 23 is located to second band pulley 25.

A dust cover 29 is further fixed between the first end plate 19 and the second end plate 23, and the dust cover 29 covers the first pulley 21, the second pulley 25 and the timing belt 26.

A cavity hole 101 is formed in the bottom plate 1, the third electric sliding table 8 is embedded into the cavity hole 101, the frame plates 30 which are transversely distributed are further arranged below the bottom plate 1, the bottom of the third electric sliding table 8 is fixed to the top of the frame plates 30, and four hanging plates 31 which are symmetrically arranged in pairs are further fixed between the frame plates 30 and the bottom plate 1.

Two connecting plates 7 which are symmetrically arranged left and right are further fixed between the second traction plate 6 and the moving end of the second electric sliding table 5.

The working principle is as follows:

transversely placing a plurality of magnet raw material blocks on a base plate 13 and in a support frame 11, sequentially screwing each first knob screw 16 to drive the threaded end of each first knob screw 16 to move backwards according to the principle of threaded connection, further driving a movable strip 15 to move backwards until the movable strip is pressed on the outer wall of the front side of each magnet raw material block, and further pushing the magnet raw material blocks to move backwards until the outer wall of the rear side of each magnet raw material block is attached to a fixed strip 14, so that the magnet raw material blocks are prevented from loosening forwards and backwards; then, sequentially screwing each second knob screw 18 to drive the threaded end of each second knob screw 18 to move backwards according to the principle of threaded connection, and further driving each pressing block 17 to move towards the outer wall of the left side or the right side of the magnet raw material block until each pressing block 17 is pressed on the outer wall of the left side or the right side of the magnet raw material block, so that the magnet raw material block is prevented from loosening left and right, and the positioning of the magnet raw material block is completed; driving the moving end of the third electric sliding table 8 to drive the support frame 11 and the base plate 13 to move back and forth by means of the bedplate 9 and the two base plates 10 so as to move the magnet raw material blocks to the initial position; the second servo motor 12 is started to rotate the rotating shaft, so as to drive the support frame 11 and the base plate 13 to swing left and right, and accordingly, the magnet raw material blocks are leveled.

The moving end of the first electric sliding table 3 is driven to move left and right to drive the second electric sliding table 5 to move left and right by virtue of the first traction plate 4, and meanwhile, the moving end of the second electric sliding table 5 is driven to move up and down to drive the main body to move up and down by virtue of the second traction plate 6, so that the tip of the scribing needle 28 is moved to the scribing starting position and is pressed on the outer wall of the top of the magnet raw material block; the first servomotor 20 is actuated to rotate its rotary shaft, and the first pulley 21, the second pulley 25 and the timing belt 26 are used to rotate the adjusting shaft 24 between the two side plates 22, so that the inclination angle of the scribing needle 28 is adjusted by the U-shaped frame 27 to facilitate scribing.

Then, driving the moving end of the third electric sliding table 8 to move forwards or backwards to mark a first vertical line on the outer wall of the top of the magnet raw material block by means of the tip of the scribing needle 28; then the moving end of the second electric sliding table 5 is driven to move upwards to lift the tip end of the scribing needle 28 away from the top outer wall of the magnet raw material block, then the moving end of the first electric sliding table 3 is driven to move leftwards or rightwards to move the scribing needle 28 to the starting position of the second vertical line, meanwhile, the moving end of the second electric sliding table 5 is driven to move downwards to press the tip end of the scribing needle 28 against the top outer wall of the magnet raw material block again, and finally the moving end of the third electric sliding table 8 is driven to move forwards or backwards to scribe the second vertical line on the top outer wall of the magnet raw material block by means of the tip end of the scribing needle 28, so as to form a cycle.

After the vertical lines are scribed, driving the moving end of the second electric sliding table 5 to move upwards to enable the tip end of the scribing needle 28 to lift away from the outer wall of the top of the magnet raw material block, driving the moving end of the third electric sliding table 8 to move forwards or backwards to drive the scribing needle 28 to the initial position of the first transverse line, simultaneously driving the moving end of the second electric sliding table 5 to move downwards to enable the tip end of the scribing needle 28 to press the outer wall of the top of the magnet raw material block again, and then driving the moving end of the first electric sliding table 3 to move leftwards or rightwards to scribe a first transverse line on the outer wall of the top of the magnet raw material block by means of the tip end of the scribing needle 28; the moving end of the second electric sliding table 5 is driven to move upwards to lift the tip end of the scribing needle 28 away from the top outer wall of the magnet raw material block, then the moving end of the third electric sliding table 8 is driven to move forwards or backwards to drive the scribing needle 28 to the starting position of the second transverse line, meanwhile, the moving end of the second electric sliding table 5 is driven to move downwards to enable the tip end of the scribing needle 28 to press the top outer wall of the magnet raw material block again, and finally, the moving end of the first electric sliding table 3 is driven to move leftwards or rightwards to scribe the second transverse line on the top outer wall of the magnet raw material block by means of the tip end of the scribing needle 28, so that a cycle is formed.

When the plurality of horizontal and vertical lines are scribed, each of the first knob screws 16 and each of the second knob screws 18 are loosened to remove the magnet material block, which is then placed in a cutting apparatus for cutting.

The utility model discloses can carry out the automation to the former feed block of magnet and rule, and then improve work efficiency and reduced intensity of labour, effectively reduced moreover and rule the error in order to guarantee cutting accuracy conscientiously, in addition still can adjust the inclination of burin 28 and the former feed block of magnet as required so that use.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (8)

1. The utility model provides a marking mechanism for magnet, its characterized in that includes the bottom plate and locates on the bottom plate and mutually support's scriber and locating platform, the scriber is including fixing the door type frame at bottom plate top, transversely put the first electronic slip table of fixing at door type frame top, vertically fix on the removal end of first electronic slip table and can control the first traction plate of translation with the help of first electronic slip table, indulge and fix the electronic slip table of second on first traction plate, vertically fix on the removal end of electronic slip table of second and can be with the help of the electronic slip table of second vertical movement's of second traction plate, and locate the main part on the second traction plate, the locating platform includes that transversely put the platen that fixes on the bottom plate and be located door type frame bottom and perpendicular to first electronic slip table distribution, transversely fix on the removal end of electronic slip table of third and can be with the help of the electronic slip table of third platen fore-and-aft translation, The support frame is arranged above the bedplate, and the substrate is transversely embedded in the support frame; the main body comprises a first servo motor fixed on the rear side of the second traction plate, a first belt wheel sleeved and fixed on a rotating shaft of the first servo motor, two side plates vertically fixed on the front side of the second traction plate and arranged in bilateral symmetry, an adjusting shaft transversely and rotatably inserted and fixed between the two side plates, a second belt wheel sleeved and fixed at the right end of the adjusting shaft, a synchronous belt sleeved between the first belt wheel and the second belt wheel, a U-shaped frame fixed on the adjusting shaft and between the two side plates, and a detachable engraving needle inserted and fixed in the U-shaped frame; the top of the bedplate is further fixed with two bedplate symmetrically arranged in front and back, the rear side of the bedplate at the rear is further fixed with a second servo motor, the support frame is arranged between the two bedplate, a rotating shaft of the second servo motor transversely forwards penetrates through the bedplate at the rear and is fixed at the rear side of the support frame, and the front side of the support frame is rotatably fixed on the bedplate at the front.

2. The magnet marking mechanism as claimed in claim 1, wherein a transversely disposed fixed bar is further fixed on an inner wall of a rear side of the support frame, a transversely disposed movable bar is further disposed on a front side of an inside of the support frame, the fixed bar and the movable bar are both disposed above the substrate, at least two transversely disposed first knob screws are further inserted and screwed into a front side of the support frame, and a threaded end of each first knob screw penetrates through a front side of the support frame and is rotatably fixed on the movable bar.

3. The magnet marking mechanism according to claim 2, wherein a plurality of notch grooves are formed in the inner walls of the left and right sides of the support frame, correspondingly, a second transversely-arranged knob screw is inserted and screwed between the outer walls of the left and right sides of the support frame and the bottom of each notch groove, and the threaded end of each second knob screw extends into a corresponding notch groove.

4. A line marking mechanism for a magnet as claimed in claim 3 wherein each said cutaway slot further includes a press block therein, and the threaded end of each said second knob screw is rotatably secured to a respective one of said press blocks.

5. The magnet marking mechanism as claimed in claim 4, wherein a vertically disposed first end plate is further fixed to a rear side of the second traction plate, a rotation shaft of the first servo motor transversely passes through the first end plate to the right and extends to a right side of the first end plate, and the first pulley is disposed on a right side of the first end plate.

6. The line marking mechanism for the magnet according to claim 5, wherein a vertically arranged second end plate is further fixed to the front side of the second traction plate, the second end plate is arranged on the right side of the two side plates, the right end of the adjusting shaft transversely penetrates through the second end plate to the right and extends out to the right side of the second end plate, and the second pulley is arranged on the right side of the second end plate.

7. The line marking mechanism for the magnet according to claim 6, wherein a dust cap is further fixed between the first end plate and the second end plate, and the dust cap is arranged outside the first pulley, the second pulley and the synchronous belt.

8. The magnet marking mechanism according to claim 7, wherein a cavity is formed in the bottom plate, the third electric sliding table is embedded in the cavity, a transversely-distributed frame plate is further arranged below the bottom plate, the bottom of the third electric sliding table is fixed to the top of the frame plate, and four hanging plates are further fixed between the frame plate and the bottom plate, and the four hanging plates are symmetrically arranged in pairs.

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