CN214867983U - Cutter processing machine tool - Google Patents

Abstract

The utility model discloses a cutter processing machine tool, cutter processing machine tool includes: the feeding device comprises a first pushing mechanism and a material tray, a plurality of cutters are mounted on the material tray, and the cutters are arranged in the material tray at intervals; the processing device comprises a processing mechanism and a second driving mechanism, wherein the processing mechanism is used for processing a cutter; the processing device is arranged between the feeding device and the discharging device, the first material pushing mechanism is used for driving the material tray to enter the processing device from the feeding device, and the second driving mechanism is used for driving the material tray to enter the discharging device from the processing device. The utility model discloses a cutter processing machine passes through the automatic unloading of going up of loading attachment and unloader, need not the manual work and goes up the unloading, has greatly reduced the cost of labor, and is provided with a plurality of cutters in a charging tray for cutter processing machine can once process a plurality of cutters, greatly promoted cutter processing's efficiency.

Description

Cutter processing machine tool

Technical Field

The utility model relates to a cutter processing technology field, in particular to cutter processing machine tool.

Background

At present, the industry generally adopts laser processing to the cutter of the numerical control lathe, and in the course of working, the mode of monolithic processing is basically adopted, namely a slice of cutter is loaded in the cutter processing machine tool manually, then the cutter processing machine tool is started to process the monolithic cutter, and the mode can only process a slice of cutter at every turn, and machining efficiency is lower, and adopts the manual work to load the cutter, and the cost of labor is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cutter processing machine tool aims at solving among the prior art lower problem of efficiency in the cutter course of working.

In order to achieve the above object, the utility model provides a cutter processing machine tool, cutter processing machine tool includes:

the feeding device comprises a first pushing mechanism and a material tray, a plurality of cutters are mounted on the material tray, and the cutters are arranged in the material tray at intervals;

the machining device comprises a machining mechanism and a second driving mechanism, and the machining mechanism is used for machining the cutter;

the blanking device, the processingequipment sets up loading attachment with between the unloader, first pushing equipment is used for the drive the charging tray is followed get into in the loading attachment in the processingequipment, second actuating mechanism is used for the drive the charging tray is followed processingequipment gets into in the unloader.

Preferably, the feeding device and the discharging device are provided with material racks, the material racks are multiple, the multiple material racks are sequentially arranged in the material racks from top to bottom, the first material pushing mechanism comprises a first material pushing cylinder and a feeding servo motor, the first material pushing cylinder drives the material racks to translate from the material racks to the processing device, and the feeding servo motor drives the material racks to lift; the blanking device comprises a blanking servo motor, and the blanking servo motor is used for driving the material rack to lift.

Preferably, the rack is internally provided with a plurality of layers of shelf plates at even intervals from top to bottom, and the shelf plates are adjacent at will to form an accommodating space for accommodating the material tray.

Preferably, the feeding device is provided with a plurality of material racks, and the material racks are sequentially arranged from top to bottom; the blanking device is provided with a plurality of material racks, a plurality of material racks are sequentially arranged from top to bottom.

Preferably, the processing device further comprises a processing platform, the processing platform is right opposite to the processing mechanism, the processing platform is used for fixing the material tray, a lifting cylinder is further arranged below the processing platform, and the lifting cylinder drives the processing platform to lift.

Preferably, the processing device further comprises an adjusting mechanism, a transition plate is mounted on the adjusting mechanism, the second driving mechanism is mounted on the transition plate, the lifting cylinder is mounted on the transition plate, and the adjusting mechanism is used for adjusting the position of the processing platform in the processing device.

Preferably, the processing platform top is provided with a plurality of sucking discs that pass the charging tray, the sucking disc with the quantity of cutter is unanimous and the one-to-one will the cutter adsorbs fixedly.

Preferably, the second actuating mechanism includes the mounting panel that two intervals set up, two the conveyer belt is all installed to the relative one side of mounting panel, the mounting panel is installed on the cab apron, processing platform sets up two between the conveyer belt.

Preferably, be provided with the slide rail on the cab apron, the slide rail is followed the extension of conveyer belt spaced direction sets up, two the mounting panel slidable mounting is in on the slide rail, second actuating mechanism still includes the conveyer belt moving axis, conveyer belt moving axis drive the mounting panel is followed the slide rail slides in order to adjust two distance between the conveyer belt.

Preferably, the adjusting mechanism includes an X-direction module, a Y-direction module and a Z-direction module, the X-direction module is mounted on the Y-direction module, the Z-direction module is mounted on the X-direction module, the transition plate is mounted on the Z-direction module, the X-direction module is used for adjusting the movement of the processing platform along the X-direction, the Y-direction module is used for adjusting the movement of the processing platform along the Y-direction, and the Z-direction module is used for adjusting the movement of the processing platform along the Z-direction.

The utility model discloses a cutter processing machine tool is in the use, at first through the cutter that sets up a plurality of interval arrangements in the charging tray, then the charging tray that is provided with a plurality of cutters through first pushing equipment drive gets into processingequipment in from loading attachment, in processingequipment, reach through second actuating mechanism drive charging tray and predetermine the position, processing agency processes the cutter, after accomplishing tool machining, in second actuating mechanism drive charging tray gets into unloader from processingequipment, withdraw by the finished product cutter after unloader is accomplished to processing. The utility model discloses a cutter processing machine passes through the automatic unloading of going up of loading attachment and unloader, need not the manual work and goes up the unloading, has greatly reduced the cost of labor, and is provided with a plurality of cutters in a charging tray for cutter processing machine can once process a plurality of cutters, greatly promoted cutter processing's efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic perspective view of a tool machining tool according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a feeding device of a tool machining tool according to an embodiment of the present invention;

fig. 3 is a schematic side view illustrating an assembly of a blanking device of a tool machining apparatus according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a material rack of a tool machining tool according to an embodiment of the present invention;

fig. 5 is a schematic view of a second driving mechanism of a tool machining apparatus according to an embodiment of the present invention;

fig. 6 is a schematic view illustrating a descending state of a processing platform of the tool processing machine according to an embodiment of the present invention;

fig. 7 is a schematic view illustrating a lifting state of a processing platform of a tool processing machine according to an embodiment of the present invention;

fig. 8 is a schematic view of an overall structure of a tool machining tool according to an embodiment of the present invention.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The description of the orientations of "up", "down", "left", "right", etc. in the present invention is based on the orientation shown in fig. 1, and is only used to explain the relative positional relationship between the components in the posture shown in fig. 1, and if the specific posture is changed, the directional indication is also changed accordingly.

The utility model provides a cutter processing machine tool.

As shown in fig. 1 to 8, in the present embodiment, the tool processing machine 100 includes a feeding device 1, a processing device 2, and a discharging device 3, where the feeding device 1 includes a first pushing mechanism 11 and a tray 12, the tray 12 is mounted with a plurality of tools 200, and the plurality of tools 200 are arranged in the tray 12 at intervals; the machining device 2 comprises a machining mechanism 21 and a second driving mechanism 22, wherein the machining mechanism 21 is used for machining the cutter 200; the processing device 2 is arranged between the feeding device 1 and the discharging device 3, the first material pushing mechanism 11 is used for driving the material tray 12 to enter the processing device 2 from the feeding device 1, and the second driving mechanism 22 is used for driving the material tray 12 to enter the discharging device 3 from the processing device 2.

Specifically, in the use process of the tool processing machine 100 of the embodiment, firstly, a plurality of tools 200 arranged at intervals are arranged in a tray 12, then the tray 12 provided with the plurality of tools 200 is driven by a first material pushing mechanism 11 to enter a processing device 2 from a feeding device 1, in the processing device 2, the tray 12 is driven by a second driving mechanism 22 to reach a preset position, the processing mechanism 21 processes the tools 200, after the processing of the tools 200 is completed, the second driving mechanism drives the tray 12 to enter a discharging device 3 from the processing device 2, and the finished tools 200 after the processing are retracted by the discharging device 3. The cutter processing machine tool 100 of this embodiment goes up the unloading through loading attachment 1 and 3 automation of unloader, need not the manual work and goes up the unloading, has greatly reduced the cost of labor, and is provided with a plurality of cutters 200 in a charging tray 12 for cutter processing machine tool 100 can once process a plurality of cutters 200, has greatly promoted the efficiency of cutter 200 processing.

In an embodiment of the present invention, the cutting tools 200 are arranged in an array in the tray 12, which facilitates the processing mechanism 21 to process the cutting tools 200.

Further, as shown in fig. 1, fig. 2, and fig. 4, in this embodiment, the material racks 4 are disposed in the feeding device 1 and the discharging device 3, the material trays 12 are multiple, the multiple material trays 12 are sequentially disposed in the material racks 4 from top to bottom, the first material pushing mechanism 11 includes a first material pushing cylinder 111 and a feeding servo motor 112, the first material pushing cylinder 111 drives the material tray 12 to translate from the material rack 4 to the processing device 2, the feeding servo motor 112 drives the material rack 4 to move up and down, the discharging device 3 includes a discharging servo motor 31, and the discharging servo motor 31 is used for driving the material rack 4 to move up and down. The first material pushing cylinder 111 is arranged at one side of the material rack 4, the feeding device 1 is also internally provided with a feeding up-down moving shaft 13 and a feeding platform 14, the feeding platform 14 is slidably arranged on the feeding up-down moving shaft 13, the material rack 4 is detachably arranged on the feeding platform 14, the feeding servo motor 112 drives the feeding platform 14 to move up and down along the extending direction of the feeding up-down moving shaft 13 so as to enable the material rack 4 to move up and down, during feeding, the left side of the first material pushing cylinder 111 is hidden to push out the material tray 12 from the material rack 4 to the right side (one side of the processing device 2) so that the material tray 12 enters the processing device 2, after feeding of one material tray 12 is completed, the feeding servo motor 112 drives the feeding platform 14 to ascend, and simultaneously the material rack 4 ascends to enable the next material tray 12 in the material rack 4 to be aligned with the first material pushing cylinder 111, when the processing device 2 completes processing of the material tray 12, the first material pushing cylinder 111 then feeds the next material tray 12 into the processing device 2 for processing, until all the material trays 12 in the material rack 4 are processed, new material trays 12 are loaded into the material rack 4 again; a blanking up-and-down motion shaft 32 and a blanking platform 33 are arranged in the blanking device 3, the blanking platform 33 is slidably arranged on the lower two shafts, the material frame 4 is detachably arranged on the blanking platform 33, the blanking servo motor 31 drives the blanking platform 33 to move up and down along the extending direction of the blanking up-and-down motion shaft 32, so that the material rack 4 moves up and down, when discharging, the second driving mechanism 22 drives the material tray 12 provided with the processed rear cutter 200 to move from the processing device 2 to the discharging device 3, the material tray 12 is loaded into the material rack 4, after the material tray 12 is loaded in the material rack 4, the blanking servo motor 31 drives the blanking platform 33 to descend by the thickness of the material tray 12, then the second driving mechanism 22 continues to drive the next finished charging tray 12 to be loaded into the material rack 4 until the material rack 4 is full, and then a new empty material rack 4 is loaded into the discharging device 3, so that the automatic discharging level of the cutter 200 is improved; the automation level of cutter 200 material loading has further been improved, and more cutters 200 can once only be stored to work or material rest 4, have further improved machining efficiency.

In this embodiment, as shown in fig. 4, multiple layers of shelving plates 41 are uniformly arranged in the rack 4 from top to bottom at intervals, and an accommodating space 42 for accommodating the tray 12 is formed between any two adjacent layers of shelving plates. The shelf plate 41 plays a certain supporting role for the tray 12, and the shelf plate 41 separates the tray 12 to protect the tray 12.

As shown in fig. 1 to 3, in the feeding device 1 of the present embodiment, a plurality of material racks 4 are provided, the plurality of material racks 4 are sequentially arranged from top to bottom, the plurality of material racks 4 are provided in the discharging device 3, and the plurality of material racks 4 are sequentially arranged from top to bottom. Correspondingly, a plurality of feeding platforms 14 are arranged in the feeding device 1 and used for installing the material rest 4, a plurality of discharging platforms 33 are arranged in the discharging device 3 and used for installing the material rest 4, the cutter 200 reserve capacity of the feeding device 1 is further enlarged by the plurality of material rests 4, the frequency of replacing the material rest 4 is reduced, the time for replacing the material rest 4 is saved, and the processing efficiency is further improved.

In this embodiment, as shown in fig. 1, 6, and 7, the processing apparatus 2 further includes a processing platform 23, the processing platform 23 is disposed opposite to the processing mechanism 21, the processing platform 23 is used for fixing the tray 12, a lifting cylinder 24 is further disposed below the processing platform 23, and the lifting cylinder 24 drives the processing platform 23 to lift. When the second driving mechanism 22 conveys the material tray 12 to the processing position, namely, directly above the processing platform 23, the lifting cylinder 24 drives the processing platform 23 to ascend to fix the material tray 12, and after the cutter 200 is processed, the lifting cylinder 24 puts down the processing platform 23, so that the material tray 12 is prevented from shaking when the processing mechanism 21 processes the cutter 200, and the stability of the processing process is improved.

In this embodiment, as shown in fig. 1, the processing apparatus 2 further includes an adjusting mechanism 25, the adjusting mechanism 25 is provided with a transition plate 254, the second driving mechanism 22 is provided on the transition plate 254, the lifting cylinder 24 is provided on the transition plate 254, and the adjusting mechanism 25 is used for adjusting the position of the processing platform 23 in the processing apparatus 2. The adjusting mechanism 25 can adjust the position of the tool 200 by finely adjusting the position of the machining platform 23, so as to ensure the machining precision of the tool 200 and avoid the machining failure of the tool 200 caused by the deviation of the tool 200.

In this embodiment, as shown in fig. 7, a plurality of suction cups 231 penetrating through the tray 12 are disposed above the processing platform 23, and the number of the suction cups 231 is the same as that of the tools 200, and the tools 200 are sucked and fixed in a one-to-one correspondence. The sucking disc 231 is communicated with an external air source, and after the lifting cylinder 24 drives the processing platform 23 to ascend, the sucking disc 231 is ventilated to adsorb the cutter 200, so that the cutter 200 is fixed, the deviation of the cutter 200 is avoided, and the stability of the processing process of the cutter 200 and the processing precision of the cutter 200 are further ensured.

As shown in fig. 1 and 5, the second driving mechanism 22 in this embodiment includes two mounting plates 222 disposed at intervals, the two mounting plates 222 are mounted on the conveyor belts 221 on opposite sides, the mounting plates are mounted on the transition plate 254, and the processing platform 23 is disposed between the two conveyor belts 221. When the charging tray 12 is conveyed by the conveying belts 221, the charging tray 12 is erected on the two conveying belts 221, the stability of the charging tray 12 in the conveying process is ensured, the processing platform 23 is arranged between the two conveying belts 221, the processing platform 23 is ensured to perform lifting motion between the conveying belts 221, and the structural design is reasonable.

In this embodiment, as shown in fig. 5, the transition plate 254 is provided with a slide rail 255, the slide rail 255 extends along the direction of the interval between the two conveyor belts 221, the two mounting plates 222 are slidably mounted on the slide rail 255, the second driving mechanism 22 further includes a conveyor belt moving shaft 223, and the conveyor belt moving shaft 223 drives the mounting plates 222 to slide along the slide rail 255 to adjust the distance between the two conveyor belts 221. The position of the mounting plate 222 is adjusted through the belt moving shaft 223 to adjust the distance between the two conveying belts 221, so that the conveying belts 221 can convey charging trays 12 of different sizes and models, and the application range of the cutter 200 processing mechanism 21 is expanded.

In this embodiment, as shown in fig. 1, the adjusting mechanism 25 includes an X-direction module 251, a Y-direction module 252, and a Z-direction module 253, the X-direction module 252 is mounted on the Y-direction module 251, the Z-direction module 253 is mounted on the X-direction module 252, the transition plate 254 is mounted on the Z-direction module 253, the X-direction module 251 is used for adjusting the machining platform 23 to move along the X direction, the Y-direction module 252 is used for adjusting the machining platform 23 to move along the Y direction, and the Z-direction module 253 is used for adjusting the machining platform 23 to move along the Z direction. The machining platform 23 is adjusted in three directions through the X-direction module, the Y-direction module and the Z-direction module, three-direction adjustment of the machining platform 23 is achieved, machining precision of the cutter 200 is guaranteed, and the specific structures of the X-direction module 251, the Y-direction module 252 and the Z-direction module 253 in the embodiment can adopt the prior art.

The above is only the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all of which are in the utility model discloses a conceive, utilize the equivalent structure transform that the content of the specification and the attached drawings did, or directly/indirectly use all to include in other relevant technical fields the patent protection scope of the present invention.

Claims (10)

1. A tool machining machine, characterized in that, the tool machining machine includes:

the feeding device comprises a first pushing mechanism and a material tray, a plurality of cutters are mounted on the material tray, and the cutters are arranged in the material tray at intervals;

the machining device comprises a machining mechanism and a second driving mechanism, and the machining mechanism is used for machining the cutter;

the blanking device, the processingequipment sets up loading attachment with between the unloader, first pushing equipment is used for the drive the charging tray is followed get into in the loading attachment in the processingequipment, second actuating mechanism is used for the drive the charging tray is followed processingequipment gets into in the unloader.

2. The machine tool according to claim 1, wherein the loading device and the unloading device are provided with a material rack, the material tray is provided with a plurality of material trays, the material trays are sequentially arranged in the material rack from top to bottom, the first material pushing mechanism comprises a first material pushing cylinder and a loading servo motor, the first material pushing cylinder drives the material tray to translate from the material rack to the processing device, and the loading servo motor drives the material rack to lift; the blanking device comprises a blanking servo motor, and the blanking servo motor is used for driving the material rack to lift.

3. The machine tool according to claim 2, wherein a plurality of layers of shelving plates are arranged in the material rack at regular intervals from top to bottom, and a containing space for containing the material tray is formed between any two adjacent layers of shelving plates.

4. The machine tool according to claim 2, wherein the loading device is provided with a plurality of the stacks, and the plurality of the stacks are arranged from top to bottom in sequence; the blanking device is provided with a plurality of material racks, a plurality of material racks are sequentially arranged from top to bottom.

5. The machine tool according to claim 1, wherein the processing device further comprises a processing platform, the processing platform is arranged opposite to the processing mechanism, the processing platform is used for fixing the material tray, and a lifting cylinder is arranged below the processing platform and drives the processing platform to lift.

6. The machine tool of claim 5 wherein said machining means further comprises an adjustment mechanism having a transition plate mounted thereon, said second drive mechanism being mounted on said transition plate, said lift cylinder being mounted on said transition plate, said adjustment mechanism being for adjusting the position of said machining platform within said machining means.

7. The machine tool according to claim 5, wherein a plurality of suckers penetrating through the material tray are arranged above the processing platform, the suckers are consistent with the cutters in number and are used for sucking and fixing the cutters in a one-to-one correspondence manner.

8. The machine of claim 6 wherein said second drive mechanism includes two spaced mounting plates, a conveyor belt mounted to opposite sides of said mounting plates, said mounting plates mounted to said transition plate, said machine platform disposed between said conveyor belts.

9. The machine tool of claim 8 wherein said transition plate has slide rails extending in a direction spaced from said conveyor belts, two of said mounting plates are slidably mounted on said slide rails, and said second drive mechanism further comprises a conveyor belt moving shaft for driving said mounting plates to slide along said slide rails to adjust the distance between said two conveyor belts.

10. The machine tool of claim 6 wherein said adjustment mechanism includes an X-direction module mounted on said Y-direction module, a Y-direction module mounted on said X-direction module, and a Z-direction module mounted on said Z-direction module, said X-direction module for adjusting movement of said machining platform in the X-direction, said Y-direction module for adjusting movement of said machining platform in the Y-direction, and said Z-direction module for adjusting movement of said machining platform in the Z-direction.

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