CN220901907U - Surplus material recovery device for numerical control lathe machining - Google Patents

Abstract

The utility model discloses a residual material recovery device for numerical control lathe processing, which comprises: the lathe machining table is symmetrically provided with two first slots along a first direction; the two lifting plates are slidably arranged in the two first slots; the top ends of the two lifting plates are respectively provided with a second slot; one end of each drawing board is arranged in the second slot, and the other ends of the two drawing boards are connected with each other; the middle part of the height adjusting mechanism is arranged on the lower surface of the lathe processing table, and two ends of the height adjusting mechanism are respectively arranged on the two lifting plates; the plurality of axial flow fans and the guide cover are arranged on the upper surface of the lathe processing table along the second direction, and the plurality of axial flow fans and the guide cover are respectively propped against the two ends of the two pumping plates; the collecting box is arranged on one side surface of the lathe machining table and is communicated with the guide cover. The residual material recovery device for numerical control lathe machining can realize quick recovery and clean recovery of residual materials.

Description

Surplus material recovery device for numerical control lathe machining

Technical Field

The utility model relates to the related technical fields of a residual material recovery device and the like, in particular to a residual material recovery device for numerical control lathe machining.

Background

The numerical control lathe comprises a horizontal numerical control lathe and a vertical numerical control lathe, a large amount of lathe residues such as scrap iron, steel scraps, aluminum scraps, copper scraps, metal shavings, iron shavings and the like can appear in the daily vertical numerical control lathe processing process, wherein the stock of the steel scraps and the aluminum scraps is large, and the numerical control lathe is a refined furnace charge with very high purity requirements, is used for returning the refined materials in foundry factories, steel factories and metal product factories, can directly influence the purity proportion of finished steel and aluminum materials, and is one of the types with recovery value and easy benefit in waste metal materials.

The utility model of the authority publication No. CN212043771U provides a surplus material recovery device for lathe processing, which can be directly crushed and reused when the surplus material is recovered, so that time is saved, pollution is avoided, however, the processing table top in the patent is used for processing workpieces and the like, the surplus material directly falls on a movable baffle through a surplus material recovery groove, however, part of the surplus material stays on the processing table top, part of workers is required to sweep the part of the surplus material into the surplus material recovery groove again, time and labor are wasted, and recovery is not thorough, so that the surplus material recovery device for numerical control lathe processing is provided.

Disclosure of utility model

In view of the above, an object of the present utility model is to provide a remainder recovery device for numerically controlled lathe processing, comprising:

The device comprises a lathe processing table, two lifting plates, two drawing plates, a height adjusting mechanism, a plurality of axial fans, a guide cover and a collecting box;

The lathe machining table is symmetrically provided with two first slots along a first direction;

the two lifting plates are slidably arranged in the two first slots;

The top ends of the two lifting plates are respectively provided with a second slot;

One end of each drawing board is arranged in the second slot, and the other ends of the two drawing boards are connected with each other;

The middle part of the height adjusting mechanism is arranged on the lower surface of the lathe machining table, and two ends of the height adjusting mechanism are respectively arranged on the two lifting plates;

The axial flow fans and the guide hoods are arranged on the upper surface of the lathe machining table along the second direction, and the axial flow fans and the guide hoods are respectively propped against the two ends of the two pumping plates;

The collecting box is arranged on one side surface of the lathe machining table and is communicated with the guide cover.

Foretell a surplus material recovery unit for numerical control lathe processing, wherein, the mechanism of turning up includes: the device comprises a bracket, a servo motor, a driving bevel gear, two driven bevel gears, two screw rods, two moving plates and two linkage hinge rods; the support install in lathe processing platform lower surface, servo motor install in the support, servo motor's output shaft's circumference outer wall installs drive bevel gear, the last symmetrical meshing of drive bevel gear connects two driven bevel gear, two driven bevel gear's outer terminal surface is all installed one the lead screw, two the lead screw is kept away from driven bevel gear's one end is threaded connection one the movable plate, two the lower surface of movable plate is all articulated one the one end of linkage hinge rod, two the other end of linkage hinge rod is installed respectively in two the lifter plate.

Foretell a surplus material recovery unit for numerical control lathe processing, wherein, it still includes to transfer high mechanism: two positioning plates and two guide rods; the lower surface symmetry of lathe processing platform installs two the locating plate, two the one end of guide bar is installed respectively in two the locating plate, two the other end of guide bar all install in the support, and two the movable plate overlaps respectively locates two the outer wall of guide bar, two the one end of lead screw runs through respectively two the movable plate and through the bearing respectively with two the locating plate rotates to be connected, servo motor's output shaft's upper end through the bearing with the lower surface of lathe processing platform rotates to be connected.

The above-mentioned excess material recovery device for numerical control lathe processing, wherein, T type fixture block is installed to the one end of collecting box, lathe processing bench is equipped with T type draw-in groove, and T type fixture block install in T type draw-in groove.

The excess material recovery device for numerical control lathe machining is characterized in that four supporting feet are further arranged on the lower surface of the lathe machining table.

Foretell a surplus material recovery unit for numerical control lathe processing, wherein still includes: and the controller is arranged on the lower surface of the lathe machining table, and the servo motor and the axial flow fans are electrically connected with the controller.

The above-mentioned excess material recovery device for numerical control lathe processing, wherein, two the other end of taking out the board has all been seted up a plurality of anchor clamps mounting groove, and two the anchor clamps mounting groove of taking out the board corresponds and constitutes a rectangle region.

According to the excess material recovery device for numerical control lathe machining, the two ends of the guide cover are respectively provided with the opening, the two openings are communicated, one opening abuts against the drawing plate, and the other opening is provided with the blocking net.

The excess material recovery device for numerical control lathe processing is characterized in that one end of each of the two drawing plates is provided with a handle.

Compared with the prior art, the technical scheme has the following positive effects:

Through the application of the utility model, the utility model provides the residual material recovery device for the numerical control lathe machining, and by arranging the lifting plates and the pumping plates, when the residual material of a workpiece is required to be recovered, the residual material can be placed in a space surrounded by the two lifting plates, the two pumping plates, the plurality of axial flow fans and the guide cover, the residual material of the workpiece is blown into the guide cover through the axial flow fans, the air flow is discharged through the blocking net, and the residual material falls into the collecting box under the action of gravity, so that the residual material can be rapidly recovered.

Drawings

FIG. 1 is a schematic diagram of a residual material recovery device for numerical control lathe processing;

FIG. 2 is a front cross-sectional view of a scrap recycling apparatus for numerical control lathe processing according to the present utility model;

FIG. 3 is a side sectional perspective view of a scrap recycling apparatus for numerical control lathe processing according to the present utility model;

Fig. 4 is an enlarged view of fig. 3 a in accordance with the present utility model.

1. A lathe machining table; 2. a first slot; 3.a lifting plate; 4. a second slot; 5. drawing a plate; 6. a grip; 7. a height adjusting mechanism; 701. a bracket; 702. a servo motor; 703. a drive bevel gear; 704. a driven bevel gear; 705. a screw rod; 706. a positioning plate; 707. a guide rod; 708. a moving plate; 709. a linkage hinge rod; 8. an axial flow fan; 9. a guide cover; 10. a blocking net; 11. a collection box; 12. a T-shaped clamping block; 13. a support leg; 14. a controller; 15. and a clamp mounting groove.

Detailed Description

The utility model is further described below, but is not limited to, with reference to the drawings and detailed description.

The structures, proportions, sizes, etc. shown in the drawings attached hereto are for illustration purposes only and are not intended to limit the scope of the utility model, which is defined by the claims, but rather by the claims. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

As shown in fig. 1 to 4, there is shown a residual material recycling device for numerically controlled lathe processing according to a preferred embodiment, comprising: the device comprises a lathe processing table 1, two lifting plates 3, two drawing plates 5, a height adjusting mechanism 7, a plurality of axial flow fans 8, a guide cover 9 and a collecting box 10.

The lathe machining table 1 is symmetrically provided with two first slots 2 along a first direction; the two lifting plates 3 are slidably arranged in the two first slots 2; the top ends of the two lifting plates 3 are respectively provided with a second slot 4; one end of each drawing board 5 is arranged in the second slot 4, and the other ends of the two drawing boards 5 are connected with each other; the middle part of the height adjusting mechanism 7 is arranged on the lower surface of the lathe processing table 1, and two ends of the height adjusting mechanism 7 are respectively arranged on the two lifting plates 3; the plurality of axial flow fans 8 and the guide cover 9 are arranged on the upper surface of the lathe processing table 1 along the second direction, and the plurality of axial flow fans 8 and the guide cover 9 are respectively propped against the two ends of the two pumping plates 5; the collecting box 11 is mounted on one side surface of the lathe work bench 1, and the collecting box 11 is communicated with the air guide sleeve 9.

Further, in a preferred embodiment, the first direction is along the length of the lathe 1, and the second direction is along the width of the lathe 1.

The present utility model has the following embodiments based on the above description:

Further, a surplus material recovery device for numerical control lathe processing, wherein the height adjusting mechanism 7 comprises: a bracket 701, a servo motor 702, a driving bevel gear 703, two driven bevel gears 704, two screw rods 705, two moving plates 706 and two linkage hinge rods 709; the support 701 is arranged on the lathe processing table 1, the servo motor 702 is arranged in the support 701, the driving bevel gear 703 is arranged on the circumferential outer wall of the output shaft of the servo motor 702, the driving bevel gear 703 is symmetrically connected with the two driven bevel gears 704 in a meshed mode, the outer end faces of the two driven bevel gears 704 are respectively provided with a screw rod 705, one ends of the two screw rods 705, which are far away from the driven bevel gears 704, are respectively connected with a movable plate 708 in a threaded mode, the lower surfaces of the two movable plates 708 are respectively hinged with one end of a linkage hinge rod 709, and the other ends of the two linkage hinge rods 709 are respectively arranged on the two lifting plates 3. Specifically, after the servo motor 702 is started, the output shaft of the servo motor drives the drive bevel gear 703 to rotate, the drive bevel gear 703 and the two driven bevel gears 704 are meshed to drive the two screw rods 705 to synchronously rotate, the two moving plates 708 synchronously move towards a direction approaching or separating from the servo motor 702 through the threaded connection of the screw rods 705 and the moving plates 708, and the moving plates 708 drive the lifting plates 3 to move upwards or downwards through the linkage hinge rods 709.

Further, a surplus material recovery device for numerical control lathe processing, wherein, heightening mechanism 7 still includes: two positioning plates 706, two guide rods 707; two positioning plates 706 are symmetrically arranged on the lower surface of the lathe processing table 1, one ends of two guide rods 707 are respectively arranged on the two positioning plates 706, the other ends of the two guide rods 707 are respectively arranged on the bracket 701, two moving plates 708 are respectively sleeved on the outer walls of the two guide rods 707, one ends of two screw rods 705 respectively penetrate through the two moving plates 708 and are respectively and rotatably connected with the two positioning plates 706 through bearings, and the upper end of an output shaft of a servo motor 702 is rotatably connected with the lower surface of the lathe processing table 1 through bearings. Specifically, the two guide rods 707 play a guiding role on the two moving plates 708, so that the blocking sense of the two moving plates 708 during horizontal movement is reduced, the outer ends of the two screw rods 705 are respectively connected with the inner side walls of the two positioning plates 706 through bearings in a rotating way, the stability of the screw rods 705 during rotation is improved, the upper end of an output shaft of the servo motor 702 is rotatably connected with the lower surface of the lathe machining table 1 through a bearing, and the stability of the output shaft of the servo motor 702 during rotation is improved.

Further, a surplus material recovery device for numerical control lathe processing is provided, wherein a T-shaped clamping block 12 is installed at one end of a collecting box 11, a T-shaped clamping groove is formed in a lathe processing table 1, and the T-shaped clamping block 12 is installed in the T-shaped clamping groove. Specifically, through inserting T type fixture block 12 from the inside of preceding backward T type draw-in groove, can collect box 11 joint at the right side wall of lathe work platform 1, collection box 11 and kuppe 9 are linked together this moment, take out T type fixture block 12 from the inside of T type draw-in groove, can with collection box 11 and lathe work platform 1 split, and then pour the surplus material in the collection box 11.

Further, a surplus material recovery device for numerical control lathe processing is provided, wherein four support legs 13 are further installed on the lower surface of the lathe processing table 1. Specifically, four support legs 13 are installed at four corners of the lathe work bench 1, and the four support legs 13 lift the lathe work bench 1 to support a movable space for the two lifting plates 3.

Further, a surplus material recovery device for numerical control lathe processing, wherein still includes: the controller 14, the controller 14 is installed on the lower surface of the lathe working platform 1, and the servo motor 702 and the plurality of axial flow fans 8 are electrically connected with the controller 14. Specifically, the operation of the servo motor 702 and the axial flow fan 8 can be controlled by the controller 14.

Further, a surplus material recovery device for numerical control lathe processing is provided, wherein, a plurality of anchor clamps mounting groove 15 have all been seted up to the other end of two boards 5 that take out, and the anchor clamps mounting groove 15 of two boards 5 that take out correspond and constitute a rectangle region. Specifically, the rectangular area is the installation space of the clamp rotating mechanism and the clamp, the clamp is installed above the lathe machining table 1 and used for clamping a workpiece so as to facilitate lathe machining, and the residual material recovery device is in butt joint with the vertical numerical control lathe.

Further, an excess material recovery device for numerical control lathe processing is provided, wherein two ends of the air guide sleeve 9 are respectively provided with an opening, the two openings are communicated, one opening is propped against the drawing plate 5, and the other opening is provided with the blocking net 10.

Further, a surplus material recovery device for numerical control lathe processing is provided, wherein one end of each of the two drawing plates 5 is provided with a handle 6.

In the in-service use, when using the lathe to process the work piece, work piece clout distributes in the upper surface of two suction plates 5, when needs carry out the recovery to the work piece clout, start servo motor 702, servo motor 702's output shaft drives initiative bevel gear 703 and rotates, through initiative bevel gear 703 and the meshing transmission of two driven bevel gears 704, drive two lead screws 705 synchronous rotation, threaded connection through lead screw 705 and movable plate 708, make two movable plates 708 remove to the direction that is close to servo motor 702 in step, movable plate 708 drives lifter plate 3 through linkage hinge rod 709 and upwards moves, until two lifter plates 3 drive respectively two suction plates 5 rise to the position that flushes with axial fan 8 and kuppe 9 upper surface, then sequentially pass through handle 6 with two suction plates 5 outwards pulling, the in-process that the suction plate 5 removed through second slot 4, the clout of its upper surface is scraped by lifter plate 3, the upper surface of scraping falls on processing platform 1, then shift into the two suction plates 5 internal reset, make the clout place in two lifter plates 3, two suction plates 5, axial fan 8 and a plurality of guide cage 9 fall into the clearance box 10 and the inside the clearance that is equipped with a plurality of air current cage 10, the clearance is blown into to the inside in the clearance box 10 is accomplished to the effect of a plurality of the side of the clearance, the clearance is blown into to the clearance box 10 in the clearance is equipped with a plurality of pieces.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (9)

1. The utility model provides a surplus material recovery unit for numerical control lathe processing which characterized in that includes:

The device comprises a lathe processing table, two lifting plates, two drawing plates, a height adjusting mechanism, a plurality of axial fans, a guide cover and a collecting box;

The lathe machining table is symmetrically provided with two first slots along a first direction;

the two lifting plates are slidably arranged in the two first slots;

The top ends of the two lifting plates are respectively provided with a second slot;

One end of each drawing board is arranged in the second slot, and the other ends of the two drawing boards are connected with each other;

The middle part of the height adjusting mechanism is arranged on the lower surface of the lathe machining table, and two ends of the height adjusting mechanism are respectively arranged on the two lifting plates;

The axial flow fans and the guide hoods are arranged on the upper surface of the lathe machining table along the second direction, and the axial flow fans and the guide hoods are respectively propped against the two ends of the two pumping plates;

The collecting box is arranged on one side surface of the lathe machining table and is communicated with the guide cover.

2. The excess stock recycling apparatus for numerically controlled lathe processing according to claim 1, wherein the height adjusting mechanism comprises: the device comprises a bracket, a servo motor, a driving bevel gear, two driven bevel gears, two screw rods, two moving plates and two linkage hinge rods; the support install in lathe processing platform lower surface, servo motor install in the support, servo motor's output shaft's circumference outer wall installs drive bevel gear, the last symmetrical meshing of drive bevel gear connects two driven bevel gear, two driven bevel gear's outer terminal surface is all installed one the lead screw, two the lead screw is kept away from driven bevel gear's one end is threaded connection one the movable plate, two the lower surface of movable plate is all articulated one the one end of linkage hinge rod, two the other end of linkage hinge rod is installed respectively in two the lifter plate.

3. The excess stock recycling apparatus for numerically controlled lathe processing according to claim 2, wherein the height adjusting mechanism further comprises: two positioning plates and two guide rods; the lower surface symmetry of lathe processing platform installs two the locating plate, two the one end of guide bar is installed respectively in two the locating plate, two the other end of guide bar all install in the support, and two the movable plate overlaps respectively locates two the outer wall of guide bar, two the one end of lead screw runs through respectively two the movable plate and through the bearing respectively with two the locating plate rotates to be connected, servo motor's output shaft's upper end through the bearing with the lower surface of lathe processing platform rotates to be connected.

4. The excess material recovery device for numerically controlled lathe processing according to claim 1, wherein a T-shaped clamping block is mounted at one end of the collection box, a T-shaped clamping groove is formed in the lathe processing table, and the T-shaped clamping block is mounted in the T-shaped clamping groove.

5. The excess material recovery device for numerically controlled lathe processing according to claim 1, wherein four support legs are further installed on the lower surface of the lathe processing table.

6. The remainder recovery device for numerically controlled lathe processing according to claim 2, further comprising: and the controller is arranged on the lower surface of the lathe machining table, and the servo motor and the axial flow fans are electrically connected with the controller.

7. The excess material recovery device for numerically controlled lathe processing according to claim 1, wherein a plurality of fixture mounting grooves are formed in the other ends of the two drawing plates, and the fixture mounting grooves of the two drawing plates are formed in a rectangular area.

8. The excess material recovery device for numerical control lathe machining according to claim 1, wherein two ends of the guide cover are respectively provided with an opening, two openings are communicated, one opening is propped against the drawing plate, and the other opening is provided with a blocking net.

9. The excess stock recycling apparatus for numerically controlled lathe processing according to claim 1, wherein a grip is installed at one end of each of the two suction plates.