CN211942661U - Automatic character pressing machine - Google Patents

Abstract

An automatic character press comprises a main frame, a character press mechanism, a die selection mechanism, a die pushing mechanism and a plate feeding mechanism; the character pressing mechanism and the mold pushing mechanism are arranged on the main frame; the plate feeding mechanism is connected with the character pressing mechanism; the die selecting mechanism is arranged on the side part of the character pressing mechanism; the matrix selecting mechanism comprises a matrix library main frame, a matrix library frame and a matrix library driving assembly; the character die library main frame is arranged on the main frame; one side of the font library main frame is provided with a font library guide rail along the Z-axis direction; the matrix library frame is connected to the matrix library guide rail; the mold outlet end of the character library frame is opposite to the mold inlet end of the character pressing mechanism; the matrix library driving component is arranged on the matrix library main frame; the matrix library driving component is connected with the matrix library frame; the mould pushing mechanism is arranged on one side, away from the character pressing mechanism, of the mould selecting mechanism and used for pushing the selected mould to the character pressing mechanism.

Description

Automatic character pressing machine

Technical Field

The utility model relates to a word tablet suppression technical field, especially an automatic word machine presses.

Background

With the development of the automobile industry, the demand of license plates is increasing day by day; among the prior art, all adopt the mode processing that the number plate type matrix suppressed the number plate blank to the preparation of car number plate, this number plate type matrix includes mould and lower mould, when suppressing a car number plate, need the manual work to select multiunit type matrix and place these type matrices in the press after arranging in order, then arrange the number plate blank in between mould and the lower mould through the staff, start the press and carry out the suppression of number plate, this kind of mode suppression efficiency is not high and can have certain potential safety hazard through the last unloading that the staff carries out the number plate blank.

SUMMERY OF THE UTILITY MODEL

To the above defect, the utility model aims to provide an automatic press word machine solves current press word machine degree of automation low and need carry out the problem of retooling through the staff.

To achieve the purpose, the utility model adopts the following technical proposal:

an automatic character press comprises a main frame, a character press mechanism, a die selection mechanism, a die pushing mechanism and a plate feeding mechanism;

the character pressing mechanism and the mold pushing mechanism are arranged on the main rack; the plate feeding mechanism is connected to the character pressing mechanism;

the die selecting mechanism is arranged on the side part of the character pressing mechanism; the die selecting mechanism comprises a matrix library main frame, a matrix library frame and a matrix library driving assembly;

the character die library main frame is arranged on the main frame; one side of the matrix library main frame is provided with a matrix library guide rail along the Z-axis direction;

the matrix library frame is connected to the matrix library guide rail; the mold outlet end of the character library frame is opposite to the mold inlet end of the character pressing mechanism;

the matrix library driving component is arranged on the matrix library main frame; the matrix library driving assembly is connected with the matrix library frame;

the mold pushing mechanism is arranged on one side, away from the character pressing mechanism, of the mold selecting mechanism; the mould pushing end of the mould pushing mechanism is aligned with the mould inlet end of the character pressing mechanism, and the mould pushing mechanism is used for pushing the selected mould to the character pressing mechanism.

Preferably, the matrix library driving assembly comprises a chain wheel, a chain and a lifting driving mechanism;

the lifting driving mechanism is arranged at the top of the character die library frame;

the output end of the lifting driving mechanism is in transmission connection with the chain wheel;

the chain is meshed with the chain wheel, one end of the chain is connected with the matrix library frame, and the other end of the chain is connected with a counterweight arranged in the matrix library main frame; the lifting driving mechanism drives the chain to further drive the matrix library frame to lift up and down along the direction of the matrix library guide rail.

Preferably, the font library frame is a rectangular frame, and a plurality of font storage lattices for storing the font modules are arranged on the font library frame along the Z-axis direction;

the character die group comprises a concave character die and a convex character die which are arranged in a separated mode; the concave character dies and the convex character dies of different groups are alternately arranged on the die storage grids.

Preferably, the character pressing mechanism comprises a character pressing frame, an upper oil cylinder and a lower oil cylinder;

the fixed end of the upper oil cylinder is connected to the top of the character pressing frame, and the fixed end of the lower oil cylinder is connected to the bottom of the character pressing frame; the output ends of the upper oil cylinder and the lower oil cylinder respectively penetrate through the character pressing frame and then are respectively connected with a die frame;

the two die frames are oppositely arranged; and when the character pressing mechanism is in a static state, the distance between the two mold frames is the same as the distance between the concave character dies and the convex character dies in the same group.

Preferably, the mold frame is provided with a mold clamping position, and the mold clamping position is matched with the concave character mold and the convex character mold;

and a stop plate is arranged at one end of the mold frame, which is far away from the character mold library frame.

Preferably, the mold pushing mechanism comprises a mold pushing bottom plate, a push rod table, a guide rail, a rack and a motor;

the mould pushing bottom plate is connected with the main frame; the guide rail is arranged on the die pushing bottom plate and is arranged along the X-axis direction; the rack is arranged on the pushing die bottom plate and is arranged on one side of the guide rail in the same direction; the push rod table is arranged on the push mould bottom plate along the guide of the guide rail;

the motor is arranged on one side of the push rod platform close to the rack; the output end of the motor is provided with a gear, and the gear is meshed with the rack.

Preferably, a mold push rod is arranged at the front end of the push rod platform; the mold push rod comprises an upper push rod and a lower push rod which are arranged in a separated mode;

the ends of the upper push rod and the lower push rod are provided with magnets;

the distance between the upper push rod and the lower push rod is the same as the distance between the concave character dies and the convex character dies in the same group.

Preferably, the plate feeding mechanism comprises a plate feeding frame, a material feeding frame and a driving mechanism;

the plate feeding frame is connected to the character pressing frame;

the transverse frames of the plate feeding frame are arranged on two sides of the die frame along the Y-axis direction; the transverse frame is provided with a feeding plate guide rail along the length direction;

a driving wheel and a driven wheel are respectively arranged at two ends of the same transverse frame; the driving wheel and the driven wheel are positioned on the inner side of the transverse frame, and a synchronous belt is connected between the driving wheel and the driven wheel;

the feeding frame can be horizontally movably connected with the feeding plate guide rail and the synchronous belt;

the driving mechanism is connected to any end of the transverse frame, and the output end of the driving mechanism is in transmission connection with the driving wheel.

The utility model discloses a deposit a pair mould in matrix storehouse frame, matrix storehouse frame is driven by matrix storehouse drive assembly for matrix storehouse frame can be followed the direction of matrix storehouse guided way and is made the oscilaltion at matrix storehouse body frame, moves the matrix of selecting in the matrix storehouse frame to the matrix entry end of pressing the word mechanism, through pushing away the mould mechanism at last with the matrix of selecting in pressing the word mechanism, has realized the automatic function of mode selection of word machine, thereby has improved the machining efficiency of pressing the word machine; in addition, the push mechanism enables the push rod table to move on the push mold bottom plate along the guide of the guide rail through the matching of the gear and the rack arranged at the output end of the motor, so that the push rod table 42 can accurately move to a specified position, and the accurate push of the push rod is ensured.

Drawings

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

fig. 2 is a schematic structural diagram of the mold selection mechanism of the present invention;

FIG. 3 is a schematic structural diagram of the font library frame of the present invention;

FIG. 4 is a schematic structural view of the character pressing mechanism of the present invention;

fig. 5 is a schematic structural view of the mold frame of the present invention;

fig. 6 is a schematic structural diagram of a mold pushing mechanism of the present invention;

fig. 7 is a schematic structural view of the plate feeding mechanism of the present invention.

Wherein: 1. a main frame; 2. a character pressing mechanism; 3. a mould selecting mechanism; 4. a mold pushing mechanism; 5. a plate feeding mechanism; 21. a character pressing frame; 22. feeding an oil cylinder; 23. a lower oil cylinder; 24. a mold frame; 241. clamping the mold; 242. a stopper plate; 31. a font library main frame; 32. a matrix library framework; 33. a matrix library guide rail; 34. a matrix library drive component; 35. a sprocket; 36. a chain; 37. a lifting drive mechanism; 38. a word module; 321. a mould storage grid; 381. concave character dies; 382. a raised matrix; 41. pushing the mold bottom plate; 42. a push rod table; 43. a guide rail; 44. a rack; 45. a motor; 46. a mold push rod; 47. a magnet; 461. a push rod is arranged; 462. a lower push rod; 51. a plate conveying frame; 52. a feeding frame; 53. a drive mechanism; 511. a transverse frame; 54. a feed plate guide rail; 55. a driving wheel; 56. a driven wheel; 57. and (4) a synchronous belt.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-2, an automatic character press comprises a main frame 1, a character pressing mechanism 2, a mould selecting mechanism 3, a mould pushing mechanism 4 and a plate feeding mechanism 5;

the character pressing mechanism 2 and the die pushing mechanism 4 are arranged on the main rack 1; the plate feeding mechanism 5 is connected to the character pressing mechanism 2;

the die selecting mechanism 3 is arranged on the side part of the character pressing mechanism 2; the die selecting mechanism 3 comprises a matrix library main frame 31, a matrix library frame 32 and a matrix library driving component 34;

the matrix library main frame 31 is installed on the main frame 1; a matrix library guide rail 33 is arranged on one side of the matrix library main frame along the Z-axis direction;

the matrix library frame 32 is connected to the matrix library guide rail 33; the mold outlet end of the character library frame 32 is arranged opposite to the mold inlet end of the character pressing mechanism 2;

the matrix library driving component 34 is mounted on the matrix library main frame 31; the matrix library drive assembly 34 is connected to the matrix library frame 32;

the mold pushing mechanism 4 is arranged on one side of the mold selecting mechanism 3 far away from the character pressing mechanism 2; the mould pushing end of the mould pushing mechanism 4 is aligned with the mould inlet end of the character pressing mechanism 2, and the mould pushing mechanism 4 is used for pushing the selected mould to the character pressing mechanism 2.

A pair of dies is stored in the matrix library frame 32, the matrix library frame 32 is driven by the matrix library driving assembly 34, so that the matrix library frame 32 can be lifted up and down on the matrix library main frame 31 along the guide of the matrix library guide rail 33, a selected matrix in the matrix library frame 32 is moved to a matrix inlet end of the character pressing mechanism 2, and finally the selected matrix is pushed into the character pressing mechanism 2 through the character pushing mechanism 4, so that the automatic matrix selecting function of the character pressing machine is realized, and the processing efficiency of the character pressing machine is improved; in addition, the mould exit end of the character library frame 32 is arranged opposite to the mould entry end of the character pressing mechanism 2, so that the conveying distance between the mould and the mould entry end of the character pressing mechanism 2 is effectively shortened, and the mould changing efficiency of the mould is improved.

The matrix library driving assembly 34 comprises a chain wheel 35, a chain 36 and a lifting driving mechanism 37;

the lifting driving mechanism 37 is installed on the top of the font library frame 32;

the output end of the lifting driving mechanism 37 is in transmission connection with the chain wheel 35;

the chain 36 is meshed with the chain wheel 35, one end of the chain 36 is connected with the matrix library frame 32, and the other end of the chain 36 is connected with a counterweight arranged in the matrix library main frame 31; the lifting driving mechanism 37 drives the chain 36, and further drives the matrix library frame 32 to lift up and down along the direction of the matrix library guide rail 33.

The lifting driving mechanism 37 is a servo motor; through the number of the positive rotation and the reverse rotation of the control server motor, the selected character dies in the character die library frame 32 are moved to the position corresponding to the inlet end of the die of the character pressing mechanism 2, so that the accurate die selection of the die selecting mechanism 3 is realized, and the processing efficiency of the character pressing machine is improved.

As shown in fig. 3, the matrix library frame 32 is a rectangular frame, and the matrix library frame 32 is provided with a plurality of matrix storage cells 321 for storing the character modules 38 along the Z-axis direction;

the character module 38 comprises a concave character die 381 and a convex character die 382 which are separately arranged; different sets of the female matrices 381 and the male matrices 382 are alternately disposed on the mold storage lattice 322.

The female character dies 381 and the male character dies 382 are separately arranged in the character die storage grid 321, so that the female character dies 381 and the male character dies 382 can be pushed into the character pressing mechanism 2 at one time; in addition, the same group of concave dies 381 and convex dies 382 are arranged in a separated manner, so that the concave dies 381 and the convex dies 382 in different groups are alternately arranged in the die library frame 32, the moving distance of the die library frame 32 during die selection is reduced, and the die selection efficiency of the die selection mechanism 3 is improved.

As shown in fig. 4, the character pressing mechanism 2 includes a character pressing frame 21, an upper oil cylinder 22 and a lower oil cylinder 23;

the fixed end of the upper oil cylinder 22 is connected to the top of the character pressing frame 21, and the fixed end of the lower oil cylinder 23 is connected to the bottom of the character pressing frame 21; the output ends of the upper oil cylinder 22 and the lower oil cylinder 23 respectively penetrate through the character pressing frame 21 and then are respectively connected with a mold frame 24;

the two die frames 24 are oppositely arranged; and when the character pressing mechanism 2 is in a static state, the distance between the two mold frames 24 is the same as the distance between the concave character dies 381 and the convex character dies 382 in the same group.

When the character pressing mechanism 2 is in a static state, the distance between the two mold frames 24 is the same as the distance between the same group of concave character dies 381 and convex character dies 382, so that the two mold frames 24 are quickly butted with the corresponding selected concave character dies 381 and convex character dies 382, and the position adjustment of the character die group 38 in the butting process with the mold frames 24 is omitted, thereby improving the die changing efficiency of the character pressing machine.

As shown in fig. 5, the mold frame 24 is provided with a mold detent 241, and the mold detent 241 is adapted to the female matrix 381 and the male matrix 382;

the mold frame 24 is provided with a stop plate 242 at an end thereof remote from the font library frame 32.

The arrangement of the stop plate 242 solves the problem that the female dies 381 and the male dies 382 fall off from the other end of the die frame 24 when moving to the corresponding die frame 24 through the die pushing mechanism 4, and effectively improves the reliability during die replacement.

As shown in fig. 6, the mold pushing mechanism 4 includes a mold pushing base plate 41, a mold pushing table 42, a guide rail 43, a rack 44 and a motor 45;

the mold pushing bottom plate 41 is connected to the main frame 1; the guide rail 43 is mounted on the mold pushing bottom plate 41 and arranged along the X-axis direction; the rack 44 is mounted on the pushing mold bottom plate 41 and arranged on one side of the guide rail 43 in the same direction; the push rod table 42 is mounted on the push mold bottom plate 41 along the guide of the guide rail 43;

the motor 45 is arranged on one side of the push rod table 42 close to the rack 44; the output end of the motor 45 is provided with a gear, and the gear is meshed with the rack 44.

The output end of the motor 45 is provided with a gear which is matched with the rack 44 to ensure that the push rod platform 42 moves on the push mould bottom plate 41 along the guide of the guide rail 43, so that the push rod platform 42 can accurately move to a specified position, and the accurate push mould of the push rod is ensured; in addition, the arrangement of the gear and the rack 44 can also effectively prevent the push rod table from shaking when moving, and further improve the mold pushing precision of the mold pushing mechanism 4.

A mold push rod 46 is arranged at the front end of the push rod table 42; the mold pusher 46 includes an upper pusher 461 and a lower pusher 462 which are separately provided;

the ends of the upper push rod 461 and the lower push rod 462 are provided with magnets 47;

the distance between the upper push rod 461 and the lower push rod 462 is the same as the distance between the same set of the female matrices 381 and the male matrices 382.

By providing the magnet 47 at the end of the upper push rod 461 and the lower push rod 462, when the mold-pushing mechanism 4 performs mold-releasing, the magnet 47 can suck the character module 38 located in the character module frame 24 to pull all the selected character modules pushed out back to the character module library frame 32.

As shown in fig. 7, the plate feeding mechanism 5 includes a plate feeding frame 51, a plate feeding frame 52 and a driving mechanism 53;

the plate feeding frame 51 is connected to the character pressing frame 21;

the transverse frames 511 of the plate conveying frame 51 are arranged on two sides of the die frame 24 along the Y-axis direction; the transverse frame 511 is provided with a feeding plate guide rail 54 along the length direction thereof;

a driving wheel 55 and a driven wheel 56 are respectively arranged at two ends of the same transverse frame 511; the driving wheel 55 and the driven wheel 56 are positioned on the inner side of the transverse frame 511, and a synchronous belt 57 is connected between the driving wheel 55 and the driven wheel 56;

the feeding frame 52 is horizontally movably connected with the feeding plate guide rail 54 and the synchronous belt 57;

the driving mechanism 53 is connected to either end of the transverse frame 511, and the output end of the driving mechanism 53 is in transmission connection with the driving wheel 55.

The plate feeding frame 51 is arranged, so that the plate feeding frame 52 can directly convey the processed plate to a pressing area between the two die frames 24, the conveying distance of the processed plate is effectively shortened, and the problem that the plate needs to be transferred in the plate conveying process is solved; in addition, the driving mechanism 53 is composed of a servo motor and a speed reducer, and can accurately convey the material conveying frame 52 to a specified position, so that the conveying precision of the plate conveying mechanism 5 is effectively improved.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (8)

1. An automatic word pressing machine is characterized in that: the device comprises a main frame, a character pressing mechanism, a die selecting mechanism, a die pushing mechanism and a plate feeding mechanism;

the character pressing mechanism and the mold pushing mechanism are arranged on the main rack; the plate feeding mechanism is connected to the character pressing mechanism;

the die selecting mechanism is arranged on the side part of the character pressing mechanism; the die selecting mechanism comprises a matrix library main frame, a matrix library frame and a matrix library driving assembly;

the character die library main frame is arranged on the main frame; one side of the matrix library main frame is provided with a matrix library guide rail along the Z-axis direction;

the matrix library frame is connected to the matrix library guide rail; the mold outlet end of the character library frame is opposite to the mold inlet end of the character pressing mechanism;

the matrix library driving component is arranged on the matrix library main frame; the matrix library driving assembly is connected with the matrix library frame;

the mold pushing mechanism is arranged on one side, away from the character pressing mechanism, of the mold selecting mechanism; the mould pushing end of the mould pushing mechanism is aligned with the mould inlet end of the character pressing mechanism, and the mould pushing mechanism is used for pushing the selected mould to the character pressing mechanism.

2. The automatic character press according to claim 1, wherein: the matrix library driving assembly comprises a chain wheel, a chain and a lifting driving mechanism;

the lifting driving mechanism is arranged at the top of the character die library frame;

the output end of the lifting driving mechanism is in transmission connection with the chain wheel;

the chain is meshed with the chain wheel, one end of the chain is connected with the matrix library frame, and the other end of the chain is connected with a counterweight arranged in the matrix library main frame; the lifting driving mechanism drives the chain to further drive the matrix library frame to lift up and down along the direction of the matrix library guide rail.

3. The automatic character press according to claim 1, wherein: the character die library frame is a rectangular frame, and a plurality of character die storage grids for storing character die sets are arranged along the Z-axis direction of the character die library frame;

the character die group comprises a concave character die and a convex character die which are arranged in a separated mode; the concave character dies and the convex character dies of different groups are alternately arranged on the die storage grids.

4. The automatic character press according to claim 3, wherein: the character pressing mechanism comprises a character pressing frame, an upper oil cylinder and a lower oil cylinder;

the fixed end of the upper oil cylinder is connected to the top of the character pressing frame, and the fixed end of the lower oil cylinder is connected to the bottom of the character pressing frame; the output ends of the upper oil cylinder and the lower oil cylinder respectively penetrate through the character pressing frame and then are respectively connected with a die frame;

the two die frames are oppositely arranged; and when the character pressing mechanism is in a static state, the distance between the two mold frames is the same as the distance between the concave character dies and the convex character dies in the same group.

5. The automatic character press according to claim 4, wherein: the mould frame is provided with a mould clamping position which is matched with the concave character mould and the convex character mould;

and a stop plate is arranged at one end of the mold frame, which is far away from the character mold library frame.

6. The automatic character press according to claim 4, wherein: the mold pushing mechanism comprises a mold pushing bottom plate, a push rod table, a guide rail, a rack and a motor;

the mould pushing bottom plate is connected with the main frame; the guide rail is arranged on the die pushing bottom plate and is arranged along the X-axis direction; the rack is arranged on the pushing die bottom plate and is arranged on one side of the guide rail in the same direction; the push rod table is arranged on the push mould bottom plate along the guide of the guide rail;

the motor is arranged on one side of the push rod platform close to the rack; the output end of the motor is provided with a gear, and the gear is meshed with the rack.

7. The automatic character press according to claim 6, wherein: a mold push rod is arranged at the front end of the push rod platform; the mold push rod comprises an upper push rod and a lower push rod which are arranged in a separated mode;

the ends of the upper push rod and the lower push rod are provided with magnets;

the distance between the upper push rod and the lower push rod is the same as the distance between the concave character dies and the convex character dies in the same group.

8. The automatic character press according to claim 6, wherein: the plate feeding mechanism comprises a plate feeding frame, a material feeding frame and a driving mechanism;

the plate feeding frame is connected to the character pressing frame;

the transverse frames of the plate feeding frame are arranged on two sides of the die frame along the Y-axis direction; the transverse frame is provided with a feeding plate guide rail along the length direction;

a driving wheel and a driven wheel are respectively arranged at two ends of the same transverse frame; the driving wheel and the driven wheel are positioned on the inner side of the transverse frame, and a synchronous belt is connected between the driving wheel and the driven wheel;

the feeding frame can be horizontally movably connected with the feeding plate guide rail and the synchronous belt;

the driving mechanism is connected to any end of the transverse frame, and the output end of the driving mechanism is in transmission connection with the driving wheel.

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