CN114178898B - Chip removal device and have its intelligent numerical control machine - Google Patents

Abstract

The application discloses chip removal device and have its intelligent numerical control machine tool includes: the loading platform is internally provided with an installation cavity, the top of the loading platform is concavely provided with a plurality of installation grooves, and the installation grooves penetrate through the top wall of the installation cavity to be communicated with the installation cavity; plugging structure, plugging structure install in the installation cavity and with the diapire of installation cavity between be formed with an album bits space, plugging structure have the shutoff position and dodge the position, wherein when the shutoff position, the bottom of a plurality of mounting grooves of plugging structure shutoff, when dodging the position, the bottom of a plurality of mounting grooves is dodged so that the piece in a plurality of mounting grooves falls into an album bits space to plugging structure. The application provides a chip removal device and have its intelligent numerical control machine tool can carry out the automation with the piece in a plurality of mounting grooves on the one hand, need not artifical chip removal operation, has practiced thrift the labour, and on the other hand can also all carry out the chip removal operation at work and during the shut down by intelligent numerical control machine tool, has improved intelligent numerical control machine tool's work efficiency.

Description

Chip removal device and have its intelligent numerical control machine

Technical Field

The invention relates to the technical field of intelligent equipment, in particular to a chip removal device and an intelligent numerical control machine tool with the same.

Background

Digit control machine tool can produce more metal debris when processing button mould, and the metal debris of production can pile up in objective platform's mounting groove. The metal scrap in the mounting groove needs to be regularly cleared away by a worker, so that the metal scrap is prevented from influencing the positioning and mounting of the key mould on the processing platform.

However, most of the chip removal methods of the existing machining platforms are methods in which workers use brushes to clean, which not only increases the labor intensity of the workers, but also requires cleaning during the shutdown of the numerical control machine.

Disclosure of Invention

In view of the above-mentioned defects or shortcomings in the prior art, it is desirable to provide a chip removal device and an intelligent numerical control machine tool having the same.

In a first aspect, the present application provides a chip removal device comprising:

the loading device comprises a loading platform, a first guide rail, a second guide rail, a first guide rail and a second guide rail, wherein a mounting cavity is formed in the loading platform, a plurality of mounting grooves are concavely formed in the top of the loading platform and are arranged at intervals along a first direction, and the mounting grooves penetrate through the top wall of the mounting cavity to be communicated with the mounting cavity;

plugging structure, plugging structure install in the installation cavity and with the diapire of installation cavity between be formed with an album bits space, plugging structure have the shutoff position and dodge the position, wherein when the shutoff position, the bottom of a plurality of mounting grooves of plugging structure shutoff, when dodging the position, the bottom of a plurality of mounting grooves is dodged so that the piece in a plurality of mounting grooves falls into an album bits space to plugging structure.

Further, the block structure includes support frame and a plurality of shutoff portion, the support frame is installed in the lateral wall of installation cavity, and the support frame is along the movably setting of first direction, a plurality of shutoff portions set up in the support frame along first direction interval, a plurality of shutoff portions all are equipped with the chip removal passageway that runs through the support frame in the upper reaches side along first direction, when block structure is located the shutoff position, the bottom of a plurality of mounting grooves of a plurality of shutoff portions difference shutoff, when block structure is located dodges the position, a plurality of chip removal passageways set up so that the piece falls into the collection bits space through chip removal passageway in a plurality of mounting grooves one-to-one with the bottom of a plurality of mounting grooves.

Further, the device comprises a driving device which is in driving connection with the support frame so as to drive the support frame to be arranged in a reciprocating mode along the first direction, and therefore the plugging structure can be switched between the plugging position and the avoiding position.

Furthermore, a detection device is arranged in each mounting groove and is positioned at the preset height of the mounting groove, and the detection device is used for detecting whether the debris in the mounting groove is accumulated to the preset height;

and the control device is used for controlling the driving device to drive the plugging structure to move to the avoiding position when the accumulation height of the scraps in any mounting groove reaches the preset height.

Furthermore, a first chip removal hole is formed in the bottom wall of the mounting cavity, and the axis of the first chip removal hole is overlapped with the central line of the carrying platform;

the chip removal device further comprises a supporting shaft, the supporting shaft is connected with the bottom of the carrying platform, a second chip removal hole is formed in the supporting shaft, one end of the second chip removal hole is communicated with the first chip removal hole, and the other end of the second chip removal hole is communicated with the outside.

The supporting frame further comprises an elastic sleeve, the sectional area of the elastic sleeve is gradually reduced along the axial direction, the elastic sleeve comprises a first end and a second end in the axial direction, the sectional area of the first end is larger than that of the second end, the first end is connected with the circumferential edge of the supporting frame, and the second end is connected with the circumferential edge of the first chip removal hole;

in the first direction, the mounting cavity comprises a first side wall and a second side wall which are opposite, wherein when the blocking structure is located at the blocking position, a part of the elastic sleeve close to the first side wall is in a stretched state, and when the blocking structure is located at the avoiding position, a part of the elastic sleeve close to the second side wall is in a stretched state.

Further, the elastic sleeve is a rubber sleeve or a silica gel sleeve.

Furthermore, the plugging part is arranged higher than the supporting frame.

In a second aspect, the application provides an intelligent numerical control machine tool, which comprises a chip removal device.

The application provides a chip removal device and have its intelligent numerical control machine tool, through installation block structure in objective platform's installation cavity, block structure has the shutoff position and dodges the position, wherein when the shutoff position, the bottom of a plurality of mounting grooves of shutoff structure shutoff, when dodging the position, the bottom of a plurality of mounting grooves is dodged to the shutoff structure so that the piece in a plurality of mounting grooves falls into an album bits space, can carry out the automation with the piece in a plurality of mounting grooves on the one hand, need not artifical chip removal operation, the labour has been practiced thrift, on the other hand can also all carry out the chip removal operation during work and shut down by intelligent numerical control machine tool, the work efficiency of intelligent numerical control machine tool has been improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a schematic cross-sectional structural view of a chip removal device in a blocking position of a blocking structure provided by an embodiment of the application;

fig. 2 is a schematic cross-sectional structural view of a chip removal device in an avoidance position of the blocking structure provided by the embodiment of the application;

fig. 3 is a cross-sectional view of a blocking structure provided in an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1-2, an embodiment of the present application provides a chip removal device, including:

the loading platform 100 is provided with a mounting cavity 101, the top of the loading platform 100 is concavely provided with a plurality of mounting grooves 110, the mounting grooves 110 are arranged at intervals along a first direction, and the mounting grooves 110 penetrate through the top wall of the mounting cavity 101 to be communicated with the mounting cavity 101;

plugging structure, plugging structure install installation cavity 101 and with installation cavity 101 between the diapire be formed with collection bits space 104, plugging structure have the shutoff position and dodge the position, wherein when the shutoff position, the bottom of a plurality of mounting grooves 110 of plugging structure shutoff, when dodging the position, the bottom of a plurality of mounting grooves 110 is dodged to the plugging structure so that the piece in a plurality of mounting grooves 110 falls into collection bits space 104.

In the present embodiment, the carrier platform 100 is used to carry a workpiece to be processed, such as a key mold to be processed, and the present application is not limited thereto. Be equipped with installation cavity 101 in objective platform 100, objective platform 100's the concave a plurality of mounting grooves 110 that are equipped with in top, a plurality of mounting grooves 110 set up along the first direction interval, and a plurality of mounting grooves 110 all run through the roof of installation cavity 101 with intercommunication installation cavity 101, and mounting groove 110's bottom has opening 111 promptly, and mounting groove 110 passes through opening 111 and installation cavity 101 intercommunication.

Be equipped with block structure in installation cavity 101, block structure install in installation cavity 101 and with be formed with collection bits space 104 between the diapire of installation cavity 101, collection bits space 104 is used for collecting the metal debris in mounting groove 110. The plugging structure has a plugging position and an avoiding position, wherein when the plugging position is in the plugging position, the plugging structure plugs the bottoms of the plurality of mounting grooves 110, and when the avoiding position is in the plugging position, the plugging structure avoids the bottoms of the plurality of mounting grooves 110 so that the chips in the plurality of mounting grooves 110 fall into the chip collecting space 104 for the chips in the mounting grooves 110 to fall into the chip collecting space 104.

The chip removal device that this embodiment provided, through installation block structure in objective platform 100's installation cavity 101, block structure has the shutoff position and dodges the position, wherein when the shutoff position, the bottom of a plurality of mounting grooves 110 of shutoff structure shutoff, when dodging the position, the bottom of a plurality of mounting grooves 110 is dodged to the shutoff structure so that the piece in a plurality of mounting grooves 110 falls into collection bits space 104, on the one hand can carry out automatic discharge with the piece in a plurality of mounting grooves 110, need not artifical chip removal operation, the labour has been practiced thrift, on the other hand can also all can carry out the chip removal operation during work and shut down by intelligent numerical control machine, the work efficiency of intelligent numerical control machine has been improved.

In addition, the opening 111 of the mounting groove 110 is blocked by the blocking structure when the loading platform 100 is in the non-chip discharging period, so that the workpiece can be prevented from falling into the mounting cavity 101 from the opening 111.

The first direction may be a left-to-right direction in fig. 1.

Referring to fig. 3, in some embodiments of the present application, the blocking structure includes a supporting frame 210 and a plurality of blocking portions 220, the supporting frame 210 is installed on a side wall of the installation cavity 101, and the supporting frame 210 is movably disposed along a first direction, the plurality of blocking portions are disposed at intervals on the supporting frame 210 along the first direction, the plurality of blocking portions are disposed at upstream sides along the first direction and all have chip discharge channels 211 penetrating through the supporting frame 210, when the blocking structure is located at a blocking position, the plurality of blocking portions 220 respectively block bottoms of the plurality of installation grooves 110, and when the blocking structure is located at an avoiding position, the plurality of chip discharge channels 211 and bottoms of the plurality of installation grooves 110 are disposed one-to-one in a manner so that chips in the plurality of installation grooves 110 fall into the chip collecting space 104 through the chip discharge channels 211.

In this embodiment, the blocking structure includes a supporting frame 210, the supporting frame 210 may be a rectangular frame structure, the supporting frame 210 is disposed on a sidewall of the installation cavity 101, and the supporting frame 210 is movably disposed along a first direction. For example: the lateral wall of installation cavity 101 is equipped with the spout, and support frame 210 is equipped with the slider, slider and spout sliding fit to make support frame 210 can follow first direction reciprocating motion. The plugging structure further comprises a plurality of plugging portions 220, the plugging portions 220 are arranged on the supporting frame 210, and the plugging portions 220 are arranged in one-to-one correspondence with the mounting grooves 110. The upstream side of a plurality of shutoff portions along first direction all is equipped with the chip removal passageway 211 that runs through support frame 210, and chip removal passageway 211 can make the piece in the mounting groove 110 get into collection bits space 104 through chip removal passageway 211 when setting up with mounting groove 110 relatively, realizes the chip removal.

When the blocking structure is located at the blocking position, the blocking parts 220 respectively cover the bottoms of the mounting grooves 110 to block the opening parts 111 of the mounting grooves 110, when the blocking structure is located at the avoiding position, the blocking parts 220 and the opening parts 111 of the mounting grooves 110 are arranged in a staggered mode, and the chip discharge channels 211 and the bottoms of the mounting grooves 110 are arranged in a one-to-one mode to enable chips in the mounting grooves 110 to fall into the chip collecting space 104 through the chip discharge channels 211.

In this embodiment, the plugging structure can be switched back and forth between the plugging position and the avoiding position by repeatedly moving the support frame 210 along the first direction, and the structure is simple and easy to implement.

The sealing portion 220 has a sealing surface which is brought into close contact with the bottom surface of the mounting groove 110 at the sealing position to seal the opening 111 of the mounting groove 110. The projection of the opening 111 of the mounting groove 110 on the sealing surface is positioned in the sealing surface so that the sealing effect of the sealing portion 220 is good.

The chip removal device further comprises a driving device, and the driving device is in driving connection with the support frame 210 to drive the support frame 210 to be arranged in a reciprocating mode along the first direction, so that the blocking structure is switched between the blocking position and the avoiding position. The driving device may be a cylinder or the like, and the present application is not limited thereto.

Here, the upstream side described herein is a side of the blocking portion 220 close to the first side wall 102 of the mounting cavity 101.

It should be understood that, the bottom end face of the mounting groove 110 is in contact with the blocking portion 220, so that when the blocking structure is switched from the blocking position to the avoiding position and from the avoiding position to the blocking position, the bottom end face of the mounting groove 110 scrapes off the debris on the top face of the blocking portion 220, and the scraping effect is improved.

In some embodiments of the present disclosure, a detection device is installed in each installation groove 110, the detection device is located at a preset height of the installation groove 110, and the detection device is used for detecting whether debris in the installation groove 110 is accumulated to the preset height;

and the control device is used for controlling the driving device to drive the plugging structure to move to the avoiding position when the accumulation height of the scraps in any one mounting groove 110 reaches a preset height.

In this embodiment, a detection device is disposed at a preset height position of each mounting groove 110, and the detection device detects whether debris in the mounting groove 110 is accumulated to the preset height, and if the debris height in one or more mounting grooves 110 exceeds the preset height, the driving device is controlled to drive the blocking structure to move to the avoiding position for removing the debris.

Wherein, the detection device can be a plurality of infrared sensors, and a plurality of infrared sensors are installed at the preset height of the installation groove 110. When the plurality of infrared sensors detect the foreign matter, it is determined that the height of the debris in the installation groove 110 exceeds a preset height.

In some embodiments of the present application, the bottom wall of the mounting cavity 101 is provided with a first clearance hole 105, and an axis of the first clearance hole 105 is coincident with a central line of the object stage 100;

the chip removal device further comprises a supporting shaft 310, the supporting shaft 310 is connected with the bottom of the loading platform 100, a second chip removal hole 311 is formed in the supporting shaft 310, one end of the second chip removal hole 311 is communicated with the first chip removal hole 105, and the other end of the second chip removal hole 311 is communicated with the outside.

In the present embodiment, the bottom wall of the mounting cavity 101 has a first exhaust hole 105, and the first exhaust hole 105 is used for exhausting the chips of the chip-collecting space 104 out of the mounting cavity 101. The chip removal device further comprises a supporting shaft 310, the supporting shaft 310 is connected with the bottom of the object carrying platform 100, the axis of the supporting shaft 310 is coincident with that of the object carrying platform 100, the axis of the first chip removal hole 105 is coincident with that of the center line of the object carrying platform 100, a second chip removal hole 311 is formed in the supporting shaft 310, one end of the second chip removal hole 311 is communicated with the first chip removal hole 105, and the other end of the second chip removal hole 311 is communicated with the outside, so that chips in the chip collection space 104 can be discharged to the outside of the machine tool through the first chip removal hole 105 and the second chip removal hole 311 in sequence, a worker only needs to clean the chips discharged to the outside, and the worker or dust collection equipment does not need to clean the chips in the chip collection space 104.

The intelligent numerical control machine tool comprises a base, and the object platform 100 is installed on the base through a supporting shaft 310. And the base and the supporting shaft 310 are driven by a transmission mechanism such as a worm gear and a worm to rotate the loading platform 100, so as to adjust the position of the workpiece loaded by the loading platform 100. The chip removal device provided by the embodiment can remove chips during the rotation of the object platform 100, and the practicability is improved.

In some embodiments of the present application, the elastic sleeve 230 is further included, a sectional area of the elastic sleeve 230 decreases gradually along the axial direction, the elastic sleeve 230 includes a first end and a second end in the axial direction, the sectional area of the first end is larger than that of the second end, the first end is connected to the circumferential edge of the supporting frame 210, and the second end is connected to the circumferential edge of the first exhaust hole 105;

in the first direction, the installation cavity 101 comprises a first side wall 102 and a second side wall 103 which are opposite to each other, wherein when the blocking structure is in the blocking position, a portion of the elastic sleeve 230 adjacent to the first side wall 102 is in a stretched state, and when the blocking structure is in the retracted position, a portion of the elastic sleeve 230 adjacent to the second side wall 103 is in a stretched state.

In this embodiment, the first exhaust hole 105 is located directly below the blocking structure, and the first exhaust hole 105 and the blocking structure are connected by an elastic sleeve 230, specifically: the elastic sleeve 230 includes a first end and a second end in the axial direction, the sectional area of the elastic sleeve 230 decreases gradually along the axial direction, the sectional area of the first end is larger than that of the second end, the first end is connected with the circumferential edge of the supporting frame 210, the second end is connected with the circumferential edge of the first chip removal hole 105, and the inner cavity of the elastic sleeve 230 is the chip collecting space 104.

In the first direction, the mounting cavity 101 comprises a first side wall 102 and a second side wall 103 which are opposite to each other, wherein when the blocking structure is in the blocking position, a portion of the elastic sleeve 230 adjacent to the first side wall 102 (hereinafter referred to as a first portion 231) is in a stretched state, and when the blocking structure is in the retracted position, a portion of the elastic sleeve 230 adjacent to the second side wall 103 (hereinafter referred to as a second portion 232) is in a stretched state, specifically:

when the blocking structure moves from the blocking position to the avoiding position, the part of the elastic sleeve 230 close to the first side wall 102 is converted from the stretched state to the relaxed state, the part of the elastic sleeve 230 close to the second side wall 103 is converted from the relaxed state to the stretched state, the chips in the plurality of mounting grooves 110 fall onto the inner surfaces of the first part 231 and the second part 232 of the elastic sleeve 230 respectively, and as the second part 232 tends to be in the stretched state, the inner surface of the second part 232 tends to be stretched, which is beneficial for the chips on the surface to slide into the first chip removal hole 105 quickly, and at this time, the chips may remain on the inner surface of the first part 231;

when the blocking structure moves from the avoiding position to the blocking position, the part of the elastic sleeve 230 close to the second side wall 103 is converted from the stretched state to the relaxed state, the part of the elastic sleeve 230 close to the first side wall 102 is converted from the relaxed state to the stretched state, and as the first part 231 tends to be in the stretched state, the inner surface of the first part 231 tends to be straightened, so that the chips remained on the surface of the first part tend to quickly slide down into the first exhaust hole 105.

In addition, the elastomeric sleeve 230 also moves during movement with the block structure to assist in the rapid evacuation of the chips into the first exhaust hole 105.

The elastic sleeve 230 is a rubber sleeve or a silicone sleeve, and the material of the elastic sleeve 230 is not limited in the present application.

The elastic sleeve 230 provided by the embodiment does not need a high height, facilitates the thinning of the loading platform 100, and can also accurately discharge the chips in the mounting groove 110 into the first chip discharge hole 105, and further can improve the chip discharge effect.

In some embodiments of the present application, the blocking portion 220 is higher than the supporting frame 210, and such an arrangement enables the blocking portion 220 to better block the opening portion 111 of the mounting groove 110.

In some embodiments of the present application, the opening 111 and the two opposite sides of the bottom wall of the mounting cavity 101 are spaced from each other, so that the overall structural strength of the loading platform 100 can be ensured without affecting the use of the loading platform 100.

The embodiment of the application also provides an intelligent numerical control machine tool which comprises a chip removal device.

It will be understood that any reference above to the orientation or positional relationship of the terms "central," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc., is based on the orientation or positional relationship shown in the drawings, which is done for convenience in describing the invention and to simplify the description, and is not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and is not to be construed as limiting the invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are 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 one or more of that feature.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (6)

1. A chip removal device, comprising:

the loading platform is internally provided with an installation cavity, the top of the loading platform is concavely provided with a plurality of installation grooves, the installation grooves are arranged at intervals along a first direction, and the installation grooves penetrate through the top wall of the installation cavity to be communicated with the installation cavity;

the blocking structure is arranged in the installation cavity, a chip collecting space is formed between the blocking structure and the bottom wall of the installation cavity, the blocking structure is provided with a blocking position and an avoiding position, when the blocking position is adopted, the blocking structure blocks the bottoms of the installation grooves, and when the avoiding position is adopted, the blocking structure avoids the bottoms of the installation grooves so that the chips in the installation grooves fall into the chip collecting space;

the blocking structure comprises a supporting frame and a plurality of blocking parts, the supporting frame is installed on the side wall of the installation cavity, the supporting frame is movably arranged along the first direction, the blocking parts are arranged on the supporting frame at intervals along the first direction, chip removal channels penetrating through the supporting frame are arranged on the upstream sides of the blocking parts along the first direction, when the blocking structure is located at the blocking position, the blocking parts respectively block the bottoms of the installation grooves, and when the blocking structure is located at the avoiding position, the chip removal channels and the bottoms of the installation grooves are arranged in a one-to-one mode, so that chips in the installation grooves fall into the chip collection space through the chip removal channels; a first chip removal hole is formed in the bottom wall of the mounting cavity, and the axis of the first chip removal hole is overlapped with the central line of the carrying platform; the chip removal device further comprises a support shaft, the support shaft is connected with the bottom of the carrying platform, a second chip removal hole is formed in the support shaft, one end of the second chip removal hole is communicated with the first chip removal hole, and the other end of the second chip removal hole is communicated with the outside;

the elastic sleeve comprises a first end and a second end, the sectional area of the first end is larger than that of the second end, the first end is connected with the circumferential edge of the support frame, the second end is connected with the circumferential edge of the first chip removal hole, the mounting cavity comprises a first side wall and a second side wall which are opposite to each other in the first direction, when the blocking structure is located at the blocking position, the part, close to the first side wall, of the elastic sleeve is in a stretched state, and when the blocking structure is located at the avoiding position, the part, close to the second side wall, of the elastic sleeve is in a stretched state.

2. The chip removal device according to claim 1, further comprising a drive device drivingly connected to the support frame for driving the support frame to be reciprocatingly movably disposed in the first direction for switching the blocking structure between the blocking position and the avoidance position.

3. The chip removal device according to claim 2, wherein each mounting groove is provided with a detection device, the detection device is positioned at a preset height of the mounting groove, and the detection device is used for detecting whether the chips in the mounting groove are accumulated to the preset height;

and the control device is used for controlling the driving device to drive the plugging structure to move to the avoiding position when the accumulation height of the scraps in any mounting groove reaches the preset height.

4. The chip removal device according to claim 1, characterized in that the elastic sleeve is a rubber sleeve or a silicone sleeve.

5. The chip removal device according to claim 1, characterized in that the blocking portion is arranged higher than the support frame.

6. An intelligent numerical control machine tool, characterized by comprising the chip removal device according to any one of claims 1 to 5.

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