CN117644399A - Numerical control machine tool machining platform - Google Patents

Abstract

The invention discloses a numerical control machine tool processing platform, which comprises a mounting plate, wherein a positioning tool is fixedly connected to the mounting plate, a stand column is fixedly locked on the positioning tool, the stand column is used for processing the numerical control machine tool through the numerical control machine tool arranged at the rear end of the stand column, and the processing platform further comprises: the vertical shielding structure comprises a shielding soft plate for shielding scraps splashed in the vertical column processing process, the shielding soft plate is rotationally wound in a winding drum, and the top of the shielding soft plate is connected to the winding drum by bypassing the portal frame through a connecting cable; the scraping structure comprises a scraping frame arranged at the bottom of the vertical part of the portal frame, the shielding flexible plate penetrates through the scraping frame in the moving process, and the inner side of the scraping frame is provided with a unidirectional scraping arm.

Description

Numerical control machine tool machining platform

Technical Field

The invention relates to a processing platform, in particular to a numerical control machine tool processing platform.

Background

The numerical control machine tool is suitable for the occasion of frequent replacement of machined parts, namely, is suitable for production and development of single-piece and small-batch products, shortens the preparation period of production, saves the cost of a large number of process equipment, has a large number of products which can be machined by the numerical control machine tool, is as small as a valve core, is as large as an upright post and a main shaft box, and needs a larger machining platform when the bigger product is machined.

The existing processing platform is characterized in that a tool for accommodating products is arranged at the front end of a numerical control machine tool or a processing center, and enough space is reserved around the tool, so that scraps during processing are collected together, then a stand column is fixed on the tool, and the products are processed through the numerical control machine tool or the processing center.

The scheme aims at providing a numerical control machine tool machining platform, so that the occupied area of the whole platform can be reduced, meanwhile, the phenomenon that scraps splash to the outside space of the stand column in the machining stage can be avoided, the distribution range of the scraps can be automatically adjusted according to the weight of a machined product, and the numerical control machine tool machining platform is higher in practicality.

Disclosure of Invention

The invention provides a numerical control machine tool machining platform which can effectively solve the problems.

The invention is realized in the following way:

the utility model provides a digit control machine tool processing platform, includes the mounting panel of lock solid subaerial, the rigid coupling has a location frock on the mounting panel, the locking is fixed with the stand on the location frock, the stand is processed it through the digit control machine tool that sets up at its rear end, processing platform still includes:

the vertical shielding structure comprises a shielding flexible plate for shielding scraps splashed in the vertical column machining process, the shielding flexible plate is rotationally wound in a winding drum, the top of the shielding flexible plate is connected to the winding drum by bypassing the portal frame through a connecting rope, the winding drum is locked to the shaft core of a rotating motor, and when the rotating motor rotates, the rotating motor drives the connecting rope to slide through the winding drum, so that the connecting rope pulls the shielding flexible plate to gradually rotate out of the winding drum and move upwards to form a shielding surface;

the scraping structure comprises a scraping frame arranged at the bottom of the vertical part of the portal frame, the scraping frame is hollow, the shielding flexible plate penetrates through the scraping frame in the moving process, a one-way scraping arm is arranged on the inner side of the scraping frame, and when the shielding flexible plate moves downwards, scrap iron adhered to the shielding flexible plate can be scraped onto the mounting plate by the one-way scraping arm;

the shielding surface adjusting mechanism is arranged on the top surface of the mounting plate and is used for guiding a transverse rail, the shielding surface adjusting mechanism comprises a sliding frame matched with the transverse rail, the sliding frame is driven by a linear motor, the top of the sliding frame is fixedly connected with the portal frame, and when the sliding frame moves, the shielding soft plate on the portal frame is driven to be far away from or close to the positioning tool.

As a further improvement, the shielding flexible plate comprises a chain plate wound on the winding drum, an annular buckle is fixedly locked at the top of the chain plate, the annular buckle is connected with the bottom of the connecting rope, a high-density net is arranged on one side, close to the upright post, of the chain plate, and the high-density net is used for intercepting scrap iron.

As a further improvement, a rib groove is locked on the transverse part of the portal frame, the top of the rib groove is opened, the connecting cable slides in the rib groove, and the left end and the right end of the rib groove are rounded.

As a further improvement, two ends of the annular buckle extend out to form a connecting rod longer than the chain plate, a longitudinal rail is arranged on one side of the vertical part of the portal frame towards the upright post, and the connecting rod is movably embedded in the longitudinal rail.

As a further improvement, the unidirectional scraping arm comprises a bending arm connected with the inner side of the scraping frame, a guiding knife rest is integrally formed on the bending arm and is clung to the outer side wall of the shielding soft plate, and a scraper with a knife point pointing to the transverse part of the portal frame is arranged on the guiding knife rest.

As a further improvement, the bending arm is attached to the shielding soft board through a rotary attaching structure, the rotary attaching structure comprises a fine adjustment motor locked on the scraping frame, an output shaft of the fine adjustment motor is connected with a rotating shaft in a clamping mode, the rotating shaft is fixedly connected with the bending arm, and the rotating shaft is arranged on the inner side wall of the scraping frame through a clamping seat.

As a further improvement, the four corners of the positioning tool are provided with weight sensing structures, the weight sensing structures are electrically connected with linear motors of the sliding frames, and when the weight sensing structures sense that the weight is heavier, the linear motors drive the sliding frames to be far away from the upright posts.

As a further improvement, the weight sensing structure is electrically connected with the rotating motor, and when the weight sensed by the weight sensing structure is heavier, the shielding soft plate is lifted higher under the driving of the rotating motor.

The beneficial effects of the invention are as follows:

the invention is additionally provided with the longitudinal shielding structure on the basis of the existing processing platform, the longitudinal shielding structure can be hidden in the winding drum in a normal state in a mode of being folded, so that quality inspection and inspection personnel can directly see the conditions of all processing positions, during processing, the shielding flexible plate can be pulled out of the winding drum by the connecting rope through the cooperation of the rotating motor and the winding drum, so that the shielding flexible plate on four sides can form a complete blocking surface, the rectangular shielding surface surrounded by the shielding flexible plate can shield the splashed scraps during processing of the upright column, the processing range of the upright column is limited to a smaller range, the processing range of the upright column is greatly shortened, the whole occupied area of the platform is reduced, and the phenomenon of scraps sputtering is not required to be worried.

In the invention, the one-way scraping arm is arranged on the scraping structure on the basis of the shielding soft board, and only acts on the shielding soft board in the descending stage, after the shielding soft board plays a role of a processing period, the shielding soft board needs to descend and is rolled into the winding drum, and in the descending process, the shielding soft board is contacted with the one-way scraping arm, so that the scraps on the shielding soft board are scraped downwards, the surface of the shielding soft board is cleaner by virtue of the natural action force of descending, and meanwhile, the phenomenon that the scraps damage the surface and the back of the shielding soft board is difficult to occur in the following winding process can be avoided.

In the processing stage of the whole stand column, along with the gradual progress of processing, the processing depth is continuously deepened, the width of scrap sputtering is continuously reduced, and the scrap sputtering is larger at the outermost end at first because of processing, so that the scrap iron impact force is larger, therefore, the invention is additionally provided with the shielding surface adjusting mechanism on the basis of shielding the flexible plate, the position of the shielding flexible plate can be transversely adjusted, the shielding flexible plate is far away from the stand column in the initial stage, the larger shielding width is provided, the impact effect of scrap iron on the shielding flexible plate is reduced, and after the continuous period of processing, the shielding flexible plate is gradually close to the stand column, so that the scrap iron is concentrated on the same position, and the scrap iron is convenient to collect, thereby optimizing the scrap iron collecting effect under the conditions of not affecting the processing and not enlarging the processing area.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a numerical control machine tool processing platform matched with an upright post.

Fig. 2 is a schematic structural diagram of a machining platform of a numerical control machine tool.

Fig. 3 is a schematic structural view of a scraping structure of the present invention.

Fig. 4 is a schematic structural view of a longitudinal shielding structure according to the present invention.

Fig. 5 is a schematic view of a rib groove structure according to the present invention.

In the figure:

the device comprises a mounting plate-1, a portal frame-11, a transverse rail-12, a rib groove-13, a longitudinal rail-14, a positioning tool-2, a shielding soft plate-31, a chain plate-311, an annular buckle-312, a high-density net-313, a connecting rod-314, a winding drum-32, a connecting rope-33, a winding drum-34, a rotating motor-35, a scraping frame-41, a unidirectional scraping arm-42, a bending arm-421, a guiding knife rest-422, a scraper-423, a sliding frame-51, a rotary attaching structure-60, a fine-tuning motor-61, a rotating shaft-62 and a clamping seat-63.

Detailed Description

For the purpose of making embodiments of the present invention fall within the scope of the present invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as referring to purposes, technical solutions and advantages of the present invention in any way. All other implementations, which can be derived by a person skilled in the art without making any inventive effort, show or imply relative importance or implicitly indicate the number of technical features indicated on the basis of the implementations in the invention. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 5, a numerical control machine tool machining platform, including locking the mounting panel 1 on ground, the rigid coupling has location frock 2 on the mounting panel 1, the last locking of location frock 2 is fixed with the stand, the stand is through setting up the numerical control machine tool at its rear end and processing it, machining platform still includes: the vertical shielding structure comprises a shielding flexible plate 31 for shielding scraps splashed in the column machining process, wherein the shielding flexible plate 31 is rotationally wound in a winding drum 32, the top of the shielding flexible plate 31 is connected to a winding drum 34 by bypassing the portal frame 11 through a connecting rope 33, the winding drum 34 is locked to the shaft core of a rotating motor 35, and when the rotating motor 35 rotates, the rotating motor 35 drives the connecting rope 33 to slide through the winding drum 34, so that the connecting rope 33 pulls the shielding flexible plate 31 to gradually rotate out of the winding drum 32 and move upwards to form a shielding surface; the scraping structure comprises a scraping frame 41 arranged at the bottom of the vertical part of the portal frame 11, the scraping frame 41 is hollow, the shielding flexible plate 31 penetrates through the scraping frame 41 in the moving process, a unidirectional scraping arm 42 is arranged on the inner side of the scraping frame 41, and when the shielding flexible plate 31 moves downwards, scrap iron adhered to the shielding flexible plate 31 can be scraped onto the mounting plate 1 by the unidirectional scraping arm 42; the top surface on mounting panel 1 is provided with the horizontal rail 12 that is used for the direction, shelter from face adjustment mechanism contain with horizontal rail 12 complex carriage 51, carriage 51 passes through a linear motor drive, the top of carriage 51 with portal frame 11 rigid coupling, works as carriage 51 removes, drives shelter from on the portal frame 11 compliance board 31 is kept away from or is close to location frock 2.

In this embodiment, the product to be processed on the processing platform is a column, and the column itself is larger in shape and structure, so that the corresponding positioning tool 2 is also required to be larger in shape, for example, the length of the positioning tool 2 is typically 1.2mx1.2m.

After the upright post is installed, the upright post is required to be machined, a numerical control lathe is adopted for machining in the machining stage, more scraps are sputtered during machining, the whole machining platform is quite large in the prior art, so that scraps are contained in a sufficient space, but the embodiment adds a longitudinal shielding structure on the basis of the existing machining platform, the longitudinal shielding structure can be hidden in the winding drum 32 in a normal state through being folded, quality inspection and inspection staff can directly see the conditions of all machining positions, during machining, the rotating motor 35 and the winding drum 34 can be utilized for matching, the shielding soft plate 31 is pulled out of the winding drum 32 through the connecting rope 33, the four-side shielding soft plate 31 can form a complete blocking surface, the rectangular shielding surface enclosed by the shielding soft plate 31 can shield scraps splashed during machining of the upright post, the machining range of the upright post is limited to a smaller range, the range of the upright post machining is greatly shortened, the whole occupied area of the platform is reduced, and the sputtering phenomenon of scraps is not required.

In order to facilitate the shielding flexible plate 31 to rotate and store, the shielding flexible plate 31 can be matched with the winding drum 32 better, the shielding flexible plate 31 adopts a plate-type structure, namely, the shielding flexible plate 31 comprises a chain plate 311 wound on the winding drum 32, an annular buckle 312 is locked at the top of the chain plate 311, the annular buckle 312 is connected with the bottom of the connecting cable 33, a high-density net 313 is arranged on one side of the chain plate 311, which is close to the upright post, and the high-density net 313 is used for intercepting scrap iron, firstly, the annular buckle 312 is locked and fixed with the connecting cable 33, so that the connecting cable 33 can drive the annular buckle 312 to act when acting, but if the chain plate 311 is simply arranged, a certain gap exists at the connecting end of the chain plate 311, partial scrap is easy to penetrate out, and the scrap iron can cause abrasion to the chain plate 311.

In the process of matching the shielding flexible plate 31 and the connecting rope 33, the connecting rope 33 needs to cross the portal frame 11 to achieve the purpose of lifting the shielding flexible plate 31, but if the connecting rope 33 is not guided, the connecting rope 33 is easy to break, and the position of the shielding flexible plate 31 is easy to swing around, therefore, a rib groove 13 is locked on the transverse part of the portal frame 11, the top opening of the rib groove 13 is locked, the connecting rope 33 slides in the rib groove 13, the left end and the right end of the rib groove 13 are respectively provided with a round chamfer, so that the position of the connecting rope 33 can be limited, the connecting rope can move according to a fixed line, and in order to avoid the connecting rope from breaking at a folded corner, a chamfer design is also provided at the folded corner, and the pressure applied at the folded corner is reduced.

In order to enable the shielding flexible plate 31 to move vertically and directly, two ends of the annular buckle 312 extend to form a connecting rod 314 longer than the chain plate 311, a longitudinal rail 14 is arranged on one side of the vertical portion of the portal frame 11 towards the upright post, the connecting rod 314 is movably embedded in the longitudinal rail 14, and the shielding flexible plate 31 can achieve the effect of stabilizing a plane in both the moving process and the fixing process by matching with the traction force of the upper winding drum 32 and the connecting cable 33.

After the shielding soft board 31 shields the scraps, some scraps can adhere to the shielding soft board 31, so that the rolling and recycling of the shielding soft board 31 are affected, in this embodiment, the shielding soft board 31 is provided with a one-way scraping arm 42 on the basis of the shielding soft board 31, the one-way scraping arm 42 only acts on the shielding soft board 31 in the descending stage, after the shielding soft board 31 plays the role of a processing period, the shielding soft board 31 needs to descend and roll into the winding drum 32, and the descending process can be contacted with the one-way scraping arm 42, so that scraps on the shielding soft board 31 are scraped downwards, the surface of the shielding soft board 31 can be cleaner by means of the natural action force of descending, and meanwhile, the phenomenon that scraps damage the surface and the back of the shielding soft board 31 is difficult to occur in the following winding process can be avoided.

The purpose of the unidirectional scraping arm 42 is to make the lifting process of the shielding flexible board 31 free from scrap iron, and the scraping is not needed, and the one-sided scraping structure is less, so that the cost can be reduced and the replacement of vulnerable parts can be reduced, wherein the unidirectional scraping arm 42 is specifically provided with the following components: the unidirectional scraping arm 42 comprises a bending arm 421 connected with the inner side of the scraping frame 41, a guiding knife rest 422 is integrally formed on the bending arm 421, the guiding knife rest 422 is tightly attached to the outer side wall of the shielding soft plate 31, a scraper 423 with a knife point pointing to the transverse portion of the portal frame 11 is arranged on the guiding knife rest 422, the bending arm 421 can enable the scraper 423 to be attached to the shielding soft plate 31 as much as possible, meanwhile, the shielding soft plate 31 is not damaged, and the guiding knife rest 422 movably installs the scraper 423, so that the scraper 423 can be replaced or maintained after long-time use.

Although the bending arm 421 makes the scraper 423 be as close to the shielding flexible plate 31 as possible, in order to improve the matching degree and reduce the damage probability of the shielding flexible plate 31, the bending arm 421 is attached to the shielding flexible plate 31 through a rotary attaching structure 60, the rotary attaching structure 60 includes a fine tuning motor 61 locked on the scraping frame 41, an output shaft of the fine tuning motor 61 is clamped with a rotating shaft 62, the rotating shaft 62 is fixedly connected with the bending arm 421, and the rotating shaft 62 is arranged on the inner side wall of the scraping frame 41 through a clamping seat 63, so that the rotating shaft 62 can rotate in position through the rotation design of the fine tuning motor 61, and then the rotating shaft 62 changes the position of the bending arm 421, so that the bending arm 421 drives the scraper 423 to change the position thereof.

In the processing stage of the whole stand column, along with the gradual progress of processing, the processing depth is continuously deepened, the sputtering breadth of scraps is continuously reduced, and the scraps are concentrated on the same position for being convenient to collect because the processing is at the outermost end, so that the invention is additionally provided with a shielding surface adjusting mechanism on the basis of shielding the soft plate 31, the position of the shielding soft plate 31 can be transversely adjusted, the shielding soft plate 31 is far away from the stand column in the initial stage, the larger shielding breadth is provided, the impact effect of the scraps on the shielding soft plate 31 is reduced, and after the processing is continued for a period of time, the shielding soft plate 31 is gradually close to the stand column, and the scraps are concentrated on the same position for being convenient to collect, so that the scrap scraps can be collected optimally under the conditions of not influencing the processing and not enlarging the processing area.

In the practical application stage, the shielding surface adjusting mechanism has certain autonomy, namely can carry out the autonomous adjustment at the weight of initial stage of stand, specifically, be provided with weight sensing structure on four angles of location frock 2, weight sensing structure with the linear electric motor electricity of carriage 51 is connected, works as weight sensing structure feels when the heavy, linear electric motor drives carriage 51 keeps away from the stand, and weight sensing structure is general weight sensor, after having surveyed the weight of stand, decides the initial distance of carriage 51 according to the weight of stand, for example the weight of stand is bigger than standard weight 1kg, then the distance of carriage 51 just moves 5mm more, later, carriage 51 is close to the stand gradually in the in-process of stand processing again.

Similarly, the shielding flexible board 31 does not need to rise to the highest every time, the weight sensing structure is electrically connected with the rotating motor 35, when the weight sensed by the weight sensing structure is heavier, the shielding flexible board 31 is lifted higher under the driving of the rotating motor 35, and the shielding flexible board 31 also determines the lifting height according to the weight and the height of the upright post, so that the height adjustment can be performed by being more suitable for a processed product, and the energy consumption is reduced.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a digit control machine tool processing platform, includes lock solid mounting panel (1) subaerial, the rigid coupling has location frock (2) on mounting panel (1), the last locking of location frock (2) is fixed with the stand, the stand is processed it through the digit control machine tool that sets up at its rear end, its characterized in that, processing platform still includes:

the vertical shielding structure comprises a shielding soft plate (31) for shielding scraps splashed in the vertical column machining process, the shielding soft plate (31) is rotationally wound in a winding drum (32), the top of the shielding soft plate (31) is connected to a winding drum (34) by bypassing the portal frame (11) through a connecting rope (33), the winding drum (34) is locked to the shaft core of a rotating motor (35), and when the rotating motor (35) rotates, the rotating motor (35) drives the connecting rope (33) to slide through the winding drum (34), so that the connecting rope (33) pulls the shielding soft plate (31) to gradually rotate out of the winding drum (32) and move upwards to form a shielding surface;

the scraping structure comprises a scraping frame (41) arranged at the bottom of the vertical part of the portal frame (11), the scraping frame (41) is hollow, the shielding flexible plate (31) penetrates through the scraping frame (41) in the moving process, a one-way scraping arm (42) is arranged on the inner side of the scraping frame (41), and when the shielding flexible plate (31) moves downwards, scrap iron adhered to the shielding flexible plate (31) can be scraped to the mounting plate (1) by the one-way scraping arm (42);

the shielding surface adjusting mechanism is characterized in that a transverse rail (12) used for guiding is arranged on the top surface of the mounting plate (1), the shielding surface adjusting mechanism comprises a sliding frame (51) matched with the transverse rail (12), the sliding frame (51) is driven by a linear motor, the top of the sliding frame (51) is fixedly connected with the portal frame (11), and when the sliding frame (51) moves, the shielding soft plate (31) on the portal frame (11) is driven to be far away from or close to the positioning tool (2).

2. The numerical control machine tool machining platform according to claim 1, wherein the shielding soft plate (31) comprises a chain plate (311) wound on the winding drum (32), an annular buckle (312) is fixedly locked at the top of the chain plate (311), the annular buckle (312) is connected with the bottom of the connecting rope (33), a high-density net (313) is arranged on one side, close to the upright, of the chain plate (311), and the high-density net (313) is used for intercepting scrap iron.

3. The numerical control machine tool machining platform according to claim 2, wherein a rib groove (13) is locked on a transverse portion of the portal frame (11), a top of the rib groove (13) is opened, the connecting cable (33) slides in the rib groove (13), and both left and right ends of the rib groove (13) are rounded.

4. The numerical control machine tool machining platform according to claim 2, wherein two ends of the annular buckle (312) extend to form a connecting rod (314) longer than the chain plate (311), a longitudinal rail (14) is arranged on the vertical portion of the portal frame (11) towards one side of the upright post, and the connecting rod (314) is movably embedded in the longitudinal rail (14).

5. A numerical control machine tool machining platform according to claim 1, characterized in that the unidirectional scraping arm (42) comprises a bending arm (421) connected with the inner side of the scraping frame (41), a guiding knife rest (422) is integrally formed on the bending arm (421), the guiding knife rest (422) is tightly attached to the outer side wall of the shielding soft board (31), and a scraper (423) with a knife point pointing to the transverse part of the portal frame (11) is arranged on the guiding knife rest (422).

6. The numerical control machine tool machining platform according to claim 5, wherein the bending arm (421) is attached to the shielding flexible plate (31) through a rotary attaching structure (60), the rotary attaching structure (60) comprises a fine adjustment motor (61) locked on the scraping frame (41), an output shaft of the fine adjustment motor (61) is clamped with a rotating shaft (62), the rotating shaft (62) is fixedly connected with the bending arm (421), and the rotating shaft (62) is arranged on the inner side wall of the scraping frame (41) through a clamping seat (63).

7. The numerical control machine tool machining platform according to claim 1, wherein weight sensing structures are arranged on four corners of the positioning tool (2), the weight sensing structures are electrically connected with linear motors of the sliding frames (51), and when the weight sensing structures sense that the weight is heavier, the linear motors drive the sliding frames (51) to be far away from the upright posts.

8. The numerical control machine tool machining platform according to claim 7, wherein the weight sensing structure is electrically connected with the rotating motor (35), and when the weight sensed by the weight sensing structure is heavier, the shielding soft plate (31) is lifted up under the driving of the rotating motor (35).