CN219967262U - Location frock platform with aluminium ingot garbage collection structure - Google Patents

Abstract

The utility model discloses a positioning tool platform with an aluminum ingot waste collection structure, and relates to the technical field of aluminum ingot processing. This location frock platform with aluminium ingot garbage collection structure can make the setting position between cutting unit and the location module to a certain extent suitable regulation transform through the use of frock platform group, utilizes the cooperation of electromagnetic track and drive arm group to use simultaneously and makes collection unit can be synchronous carry out effectual concentrated collection with the aluminium ingot waste material that it produced when cutting unit operation, and in the whereabouts storehouse of locating platform below that those aluminium ingot waste materials that surpass the collecting range can directly drop through the location jack, fall in order to concentrate recovery processing in the storage drawer at last.

Description

Location frock platform with aluminium ingot garbage collection structure

Technical Field

The utility model relates to the technical field of aluminum ingot processing, in particular to a positioning tool platform with an aluminum ingot waste collection structure.

Background

The aluminum ingot production and processing process can be subjected to cutting and polishing processing steps according to requirements, and a positioning tool platform is used, wherein the tool platform is an indispensable product in more than 20 industries such as aerospace, electronic industry, instrument production, petrochemical industry, mining machinery, construction industry, machining, automobile, water treatment, automobile, machining and the like, and is most commonly used in heavy industry and accounts for 95% of the total yield. The device is a workbench which is indispensable in scribing, measuring, rivet welding and tooling processes, and can also be used as a mechanical test bed.

In the production and processing process of aluminum ingots, different forming parts can be manufactured according to different processing requirements, and special equipment tools can be used for polishing or cutting the surfaces of the aluminum ingots during processing so as to process the aluminum ingots into shapes required by production, but a large amount of aluminum ingot waste materials can be generated in the process, and on one hand, the aluminum ingot waste materials are splashed everywhere to cause harm to staff beside, on the other hand, the splashed scraps everywhere are difficult to recycle and treat, so that unnecessary manpower and material resources are increased.

Accordingly, in view of the above, an improvement of the existing structure and the existing defects is proposed to provide a positioning tool platform with an aluminum ingot waste collection structure.

Disclosure of Invention

The utility model aims to provide a positioning tool platform with an aluminum ingot waste collection structure, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a location frock platform with aluminium ingot garbage collection structure, includes frock platform group and collection unit, transparent protection casing has been set up at the top of frock platform group, and transparent protection casing's inside top has been laid electromagnetic track, and electromagnetic track's surface connection has the actuating arm group moreover, collection unit fixed mounting is kept away from electromagnetic track's one end in actuating arm group, frock platform group top one side is provided with cutting unit, and one side of cutting unit is provided with positioning module, collection unit includes series excitation fan, collects straw and chip storage box, the output connection of series excitation fan is installed and is collected the straw, and the primary side connection of series excitation fan is installed the chip storage box.

Further, frock platform group includes locating platform, location jack, whereabouts storehouse, accomodates drawer and location stake of inserting, the locating jack has been seted up on the top surface of locating platform, and the bottom of locating platform is provided with whereabouts storehouse, and the inside in whereabouts storehouse is provided with accomodates the drawer moreover, the inside location stake of inserting of installing of locating jack.

Furthermore, the positioning jacks are arranged on the surface of the positioning table in an equidistance array, and the storage drawer is movably connected with the falling bin.

Further, the driving arm group comprises an electromagnetic driving shaft, an upper arm rotating shaft, an upper arm swinging shaft, a telescopic arm, a wrist swinging shaft and a wrist rotating shaft, wherein the upper arm rotating shaft, the upper arm swinging shaft, the telescopic arm, the wrist swinging shaft and the wrist rotating shaft are sequentially connected and installed at the bottom of the electromagnetic driving from top to bottom.

Further, one side of the wrist rotating shaft far away from the wrist swinging shaft is connected to one side of the chip storage box far away from the series excitation electric fan, and the driving arm group is in sliding connection with the electromagnetic rail through electromagnetic driving.

Further, the cutting unit comprises a main control unit, a pushing arm, a lifting frame and a pushing knife, wherein the pushing arm is connected and installed at the top of the main control unit, the lifting frame is connected and installed at the pushing output end of the pushing arm, and the pushing knife is connected and installed at the bottom of the lifting frame.

Further, the positioning module comprises a limiting seat, a screw rod, a knob, a threaded bearing sleeve and a limiting plate, wherein the screw rod is arranged in the limiting seat, one end of the screw rod is connected with the knob, the surface of the screw rod is connected with the threaded bearing sleeve in a threaded manner, and the top of the threaded bearing sleeve is connected with the limiting plate.

Furthermore, the bottoms of the cutting unit and the positioning module are connected and provided with positioning piles, and the positioning piles are in threaded connection with the cutting unit and the positioning module.

The utility model provides a positioning tool platform with an aluminum ingot waste collection structure, which has the following beneficial effects: through the use of frock platform group can make the setting position between cutting unit and the positioning module proper regulation transform to a certain extent, utilize the cooperation use of electromagnetic orbit and the actuating arm group simultaneously to make collection unit can be synchronous carry out effectual concentrated collection with the aluminium ingot waste material that it produced when cutting unit operation, and in the whereabouts storehouse of positioning platform below can directly drop through the location jack to those aluminium ingot waste materials that surpass the collection scope, fall in the storage drawer so that concentrate recovery processing at last.

1. According to the utility model, as the top surface of the positioning table is provided with the plurality of positioning jacks, and the positioning pile which is matched with the positioning pile can be mutually in butt joint with the cutting unit and the positioning module, the cutting unit and the positioning module can be fixed at any position on the surface of the positioning table according to operation requirements, and meanwhile, the main body erected on the top of the tooling platform set uses the transparent protective cover made of sound-insulating glass, so that the effect of effective sound insulation can be achieved while the operation of internal equipment is not influenced, and meanwhile, splashed dust generated during operation can be blocked, and the operation safety of the equipment is effectively improved.

2. According to the utility model, in order to enable the collection unit to collect dust in real time according to the operation track of the cutting unit, the whole driving arm set is connected with the electromagnetic track through electromagnetic driving, so that the whole driving arm set can horizontally translate left and right, meanwhile, the driving arm set with a multi-shaft structure is matched, enough flexibility can be provided, so that aluminum ingot waste generated during operation of the cutting unit can be collected in real time, and the collection unit provided with the series excited fan can generate enough suction force to collect the aluminum ingot waste in a concentrated manner.

3. According to the utility model, the operation range and the performance of the collection unit are limited, more or less missed aluminum ingot waste is difficult to effectively recycle, scattered aluminum ingot waste finally falls on the surface of the positioning table, and the positioning jacks are communicated with the falling bin, so that the aluminum ingot waste on the surface of the whole positioning table can be swept into the falling bin through the positioning jacks during later cleaning, and concentrated recycling is performed by the storage drawer, so that subsequent treatment is facilitated.

Drawings

FIG. 1 is a schematic side view of a positioning tooling platform with an aluminum ingot scrap collection structure;

FIG. 2 is a schematic diagram of a driving arm set of a positioning tooling platform with an aluminum ingot scrap collection structure;

FIG. 3 is a schematic diagram of a positioning module of a positioning tooling platform with an aluminum ingot waste collection structure according to the present utility model;

fig. 4 is a schematic perspective view of a tooling platform set with a positioning tooling platform with an aluminum ingot waste collection structure.

In the figure: 1. a tooling platform set; 101. a positioning table; 102. positioning the jack; 103. a falling bin; 104. a storage drawer; 105. positioning pile insertion; 2. a transparent protective cover; 3. an electromagnetic track; 4. a drive arm group; 401. electromagnetic driving; 402. an upper arm rotation shaft; 403. an upper arm swing shaft; 404. a telescoping arm; 405. a wrist swing shaft; 406. a wrist rotation axis; 5. collecting a unit; 501. series excitation fan; 502. collecting a suction pipe; 503. a chip storage box; 6. a cutting unit; 601. a main control unit; 602. a pushing arm; 603. a lifting frame; 604. pushing a knife; 7. a positioning module; 701. a limit seat; 702. a screw rod; 703. a knob; 704. a threaded bearing sleeve; 705. and a limiting plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 2, a location frock platform with aluminium ingot waste collection structure, including frock platform group 1 and collection unit 5, transparent protection casing 2 has been erect at the top of frock platform group 1, and the inside top of transparent protection casing 2 has been laid and has been had electromagnetism track 3, and electromagnetism track 3's surface connection installs actuating arm group 4, collection unit 5 fixed mounting is in actuating arm group 4 one end of keeping away from electromagnetism track 3, frock platform group 1 top one side is provided with cutting unit 6, and one side of cutting unit 6 is provided with positioning module 7, frock platform group 1 includes location platform 101, location jack 102, fall storehouse 103, accomodate drawer 104 and location stake 105, location jack 102 has been seted up on the top surface of location platform 101, and the bottom of location platform 101 is provided with the fall storehouse 103, and the inside of fall storehouse 103 is provided with accomodate drawer 104, location stake 105 has been installed to location jack 102 inside, location stake 105 has been installed to the equidistance array and is seted up a plurality of in location platform 101's surface, accomodate drawer 104 and fall and be swing joint between storehouse 103, wherein with location stake 105 respectively with cutting unit 6, the location stake 6, the cooperation between the die set 7 can be realized with the fixed position equipment that the location stake is connected to the fixed position of location stake 105 can be fixed as well as the cooperation with the location stake 101 in order to the following, the location stake 101 is not had, the location stake device is fixed to the location stake is not be connected to the location stake 101, and the location stake is fixed simultaneously.

The driving arm group 4 comprises an electromagnetic driving device 401, an upper arm rotating shaft 402, an upper arm swinging shaft 403, a telescopic arm 404, a wrist swinging shaft 405 and a wrist rotating shaft 406, the bottom of the electromagnetic driving device 401 is sequentially connected with the upper arm rotating shaft 402, the upper arm swinging shaft 403, the telescopic arm 404, the wrist swinging shaft 405 and the wrist rotating shaft 406 from top to bottom, one side of the wrist rotating shaft 406 far away from the wrist swinging shaft 405 is connected to one side of a chip storage box 503 far away from the series excitation fan 501, the driving arm group 4 is mutually connected with an electromagnetic track 3 in a sliding manner through the electromagnetic driving device 401, the collecting unit 5 comprises the series excitation fan 501, the collecting suction pipe 502 and the chip storage box 503, the output end of the series excitation fan 501 is connected with the collecting suction pipe 502, the chip storage box 503 is connected to one side of the series excitation fan 501, wherein the upper arm rotating shaft 402 can provide a rotating angle of 360 degrees left and right degrees in the horizontal direction for all components connected at the bottom, the upper arm swinging shaft 403 and the swinging shaft 405 can provide a rotating angle of 180 degrees left and right degrees in the vertical direction for all components connected at the bottom, the telescopic arm 404 can provide a distance to a certain extent, the telescopic arm 406 can provide a telescopic rotating angle in the horizontal direction, and the whole width of the driving arm can move along the horizontal direction of the electromagnetic track 3 in the horizontal direction along the horizontal direction of the whole surface of the electromagnetic driving device 4, and the whole range can move along the horizontal direction of the electromagnetic driving arm 3.

The cutting unit 6 includes the master control unit 601, the push arm 602, the crane 603 and the push broach 604, the push arm 602 is installed in the top connection of master control unit 601, and install the crane 603 in the connection of push arm 602's thrust output, and the bottom connection of crane 603 installs the push broach 604, the positioning module 7 includes spacing seat 701, the lead screw 702, knob 703, screw thread bearing housing 704 and limiting plate 705, the inside setting of spacing seat 701 installs lead screw 702, and the one end connection of lead screw 702 is provided with knob 703, and the surface threaded connection of lead screw 702 has screw thread bearing housing 704, and the top of screw thread bearing housing 704 is connected with limiting plate 705, be connected to the bottom of cutting unit 6 and positioning module 7 and install the location stake 105, and be threaded connection between location stake 105 and cutting unit 6 and the positioning module 7, after the installation of location stake 105 is fixed, place the aluminium ingot that needs processing between the positioning module 7 of bilateral symmetry setting this moment, screw thread bearing housing 704 can drive the lead screw 702 and carry out axial rotation simultaneously, and screw thread bearing housing 704 can carry out the horizontal displacement along the lead screw shaft bearing housing 704 along the lead screw shaft bearing housing surface of being provided with knob 703, the horizontal direction of the lead screw shaft bearing housing 604 is moved upwards at the time, can carry out the horizontal displacement of the lead screw shaft 604 from the upper side of the master control unit 604, can then move the square spindle position of the vertical adjustment of the lift arm 602, the lift is moved upwards, the end is controlled from the upper side of the lead screw 604, the vertical position of the lift of the aluminium ingot is moved, the lift of the lift is moved.

To sum up, as shown in fig. 1 to 3, when in use, the positioning tooling platform with the aluminum ingot waste collection structure is characterized in that firstly, the positioning pile 105 is respectively connected and fixed with the bottoms of the cutting unit 6 and the positioning module 7, then the cutting unit 6 and the positioning module 7 connected with the positioning pile 105 are vertically inserted into any positioning jack 102 formed on the surface of the positioning table 101 according to operation requirements, and meanwhile, the working distance between the cutting unit 6 and the positioning module 7 is controlled, so that subsequent processing operation is facilitated;

then, aluminum ingots to be processed are placed between the left and right symmetrically arranged positioning modules 7, meanwhile, the knob 703 is screwed on the left and right sides, at the moment, the screw rod 702 in the limiting seat 701 is driven to axially rotate, at the moment, the threaded bearing sleeve 704 is horizontally displaced along the surface of the screw rod 702, the limiting plate 705 is further moved towards the middle aluminum ingot, the aluminum ingot is clamped and fixed from the left and right sides, then under the control of the main control unit 601, the pushing arm 602 drives the lifting frame 603 and the pushing knife 604 at one end to horizontally reciprocate, the lifting frame 603 controls the pushing knife 604 to vertically move up and down, and accordingly the feeding amount of the aluminum ingot cut by the pushing knife 604 is adjusted, and the aluminum ingot is reciprocally processed;

meanwhile, the driving arm group 4 starts to move along the surface of the electromagnetic track 3 under the action of the electromagnetic drive 401, meanwhile, the upper arm swinging shaft 403 and the wrist swinging shaft 405 are matched to provide a horizontal rotation angle of 360 degrees for all parts connected with the bottom of the upper arm swinging shaft 402, all parts connected with the bottom of the upper arm swinging shaft 403 and the wrist swinging shaft 405 can provide a vertical rotation angle of 180 degrees, the telescopic arm 404 can provide a telescopic distance to a certain extent, the wrist rotating shaft 406 can provide a vertical rotation range of 360 degrees, the position of the whole collection unit 5 is kept synchronous with the operation track of the push knife 604 by utilizing the cooperative operation of the structure, at the moment, the series excitation fan 501 operates to generate enough suction force to collect aluminum ingot waste into the interior of the chip storage box 503 in a concentrated manner through the collection suction pipe 502, and the missed aluminum ingot waste on the surface of the positioning table 101 can fall into the surface of the positioning table 103 through the positioning jack 102, and the aluminum ingot waste on the surface of the whole positioning table 101 can fall into the falling bin 103 to be swept by the positioning jack 102 during the later cleaning, and the subsequent recovery is convenient for the subsequent processing.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. Location frock platform with aluminium ingot garbage collection structure, including frock platform group (1) and collection unit (5), its characterized in that: the top of the tool platform set (1) is provided with a transparent protective cover (2), the top of the interior of the transparent protective cover (2) is paved with an electromagnetic track (3), the surface of the electromagnetic track (3) is connected with a driving arm set (4), the collecting unit (5) is fixedly arranged at one end of the driving arm set (4) far away from the electromagnetic track (3), one side of the top of the tool platform set (1) is provided with a cutting unit (6), and one side of cutting unit (6) is provided with location module (7), collection unit (5) are including series excitation fan (501), collection straw (502) and bits storage case (503), collection straw (502) are installed in the output connection of series excitation fan (501), and bits storage case (503) are installed in the primary side connection of series excitation fan (501).

2. The positioning tool platform with the aluminum ingot waste collection structure according to claim 1, wherein the tool platform set (1) comprises a positioning table (101), a positioning jack (102), a falling bin (103), a storage drawer (104) and a positioning inserting pile (105), the positioning jack (102) is formed in the top surface of the positioning table (101), the falling bin (103) is arranged at the bottom of the positioning table (101), the storage drawer (104) is arranged in the falling bin (103), and the positioning inserting pile (105) is arranged in the positioning jack (102).

3. The positioning tool platform with the aluminum ingot waste collection structure according to claim 2, wherein the positioning jacks (102) are provided with a plurality of positioning tables (101) in an equidistance array, and the storage drawers (104) are movably connected with the falling bin (103).

4. The positioning tool platform with the aluminum ingot waste collection structure according to claim 1, wherein the driving arm group (4) comprises an electromagnetic driving shaft (401), an upper arm rotating shaft (402), an upper arm swinging shaft (403), a telescopic arm (404), a wrist swinging shaft (405) and a wrist rotating shaft (406), and the upper arm rotating shaft (402), the upper arm swinging shaft (403), the telescopic arm (404), the wrist swinging shaft (405) and the wrist rotating shaft (406) are sequentially connected and installed at the bottom of the electromagnetic driving shaft (401) from top to bottom.

5. The positioning tooling platform with the aluminum ingot waste collection structure according to claim 4, wherein one side of the wrist rotating shaft (406) away from the wrist swinging shaft (405) is connected to one side of the chip storage box (503) away from the series excited electric fan (501), and the driving arm group (4) is mutually and slidably connected with the electromagnetic track (3) through the electromagnetic driving (401).

6. The positioning tool platform with the aluminum ingot waste collection structure according to claim 1, wherein the cutting unit (6) comprises a main control unit (601), a pushing arm (602), a lifting frame (603) and a push knife (604), the pushing arm (602) is connected and installed at the top of the main control unit (601), the lifting frame (603) is connected and installed at the pushing output end of the pushing arm (602), and the push knife (604) is connected and installed at the bottom of the lifting frame (603).

7. The positioning tool platform with the aluminum ingot waste collection structure according to claim 1, wherein the positioning module (7) comprises a limiting seat (701), a screw (702), a knob (703), a threaded bearing sleeve (704) and a limiting plate (705), the screw (702) is installed in the limiting seat (701), one end of the screw (702) is connected with the knob (703), the surface of the screw (702) is connected with the threaded bearing sleeve (704) in a threaded manner, and the top of the threaded bearing sleeve (704) is connected with the limiting plate (705).

8. The positioning tool platform with the aluminum ingot waste collection structure according to claim 2, wherein the bottoms of the cutting unit (6) and the positioning module (7) are connected and provided with positioning piles (105), and the positioning piles (105) are in threaded connection with the cutting unit (6) and the positioning module (7).