CN111438559A

CN111438559A - Numerical control lathe with metal loading and unloading feed bin

Info

Publication number: CN111438559A
Application number: CN202010290393.XA
Authority: CN
Inventors: 贾虎
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-14
Filing date: 2020-04-14
Publication date: 2020-07-24

Abstract

The invention discloses a numerical control lathe with a metal loading and unloading bin, which structurally comprises a control panel, a lathe main machine, a clamping head, a cutter clamping head and a scrap bin, wherein the control panel is fixedly arranged at the upper left end of the lathe main machine, the clamping head is arranged at the left end of the lathe main machine, the cutter clamping head is arranged at one end of the lathe main machine, which is far away from the clamping head, scraps enter a collecting groove, a moving shaft slides downwards along a sliding rail, a cutting block is used for cutting slender metal scraps, an extrusion block is used for extruding the metal scraps at the same time to extrude the sharp scraps into a cambered surface structure, an extrusion rod pushes a linkage rod to carry out arc linkage, so that the linkage rod drives a side pressing plate to rotate around a fixed shaft, the side pressing plate extrudes two ends of the scraps in a notch, and groove strips arranged in the side pressing plate ensure that the side pressing plate extrudes the scraps, the corners of the scraps cannot be tilted, so that the fingers are prevented from being punctured by metal waste.

Description

Numerical control lathe with metal loading and unloading feed bin

Technical Field

The invention relates to the field of lathes, in particular to a numerical control lathe with a metal loading and unloading bin.

Background

Numerical control lathe cuts the metal, become the shape structure that needs with metal processing, the in-process of cutting, the production carries out the sweeps, the sweeps gets into the inside collection of feed bin, so that carry out centralized processing to the waste material, but because the sweeps that produces is comparatively tiny, and at the in-process of cutting, the sweeps is sharp-pointed shape, after the waste material gets into the feed bin, do not carry out further processing to sharp-pointed sweeps, cause the winding of metal waste together, be difficult to unload from the feed bin inside, and when the staff carries out the waste material and lift off, the finger is stabbed by sharp-pointed metal waste easily.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the utility model provides a numerical control lathe with metal loading and unloading feed bin, its structure includes control panel, lathe host computer, dress chuck, cutter dress chuck, waste material storehouse, control panel fixed mounting is in the upper left end of lathe host computer, lathe host computer left end is equipped with dress chuck, the one end that lathe host computer kept away from dress chuck is equipped with cutter dress chuck, waste material storehouse inlays at lathe host computer back to waste material storehouse is located the rear end of dress chuck, waste material storehouse includes the storehouse body, deflector, upper pressure mechanism, collecting vat, storehouse body open end downside fixed mounting has the deflector, upper pressure mechanism fixed mounting is in storehouse internal portion upper end, the collecting vat is established in storehouse internal portion bottom surface to the collecting vat is located upper pressure mechanism under, the deflector upper end is the hypotenuse structure to the slope lower extreme and the collecting vat of deflector are fixed mutually.

As a further improvement of the invention, the upper pressing mechanism comprises a reciprocating mechanism, a connecting plate and an extrusion hammer, the reciprocating mechanism is fixed with the head end of the connecting plate, the lower surface of the connecting plate is fixed with the top end of the extrusion hammer, the number of the reciprocating mechanisms is two, and the two reciprocating mechanisms are arranged at the left end and the right end of the connecting plate.

As a further improvement of the invention, the reciprocating mechanism comprises a magnetic block, a moving shaft, a sliding rail and a spring, the magnetic block is arranged at the top end of the sliding rail, the moving shaft is arranged in the sliding rail in a clearance fit mode, the sliding rail is fixed with the connecting plate, the spring is arranged at the bottom end in the sliding rail, the magnetic block is made of a permanent magnet material, and the moving shaft is made of an iron material.

As a further improvement of the invention, the extrusion hammer comprises a support rod, a cutting block, an extrusion block and steel balls, wherein the top end of the support rod is fixed with the lower surface of the connecting plate, the cutting block is arranged in the middle of the support rod, the extrusion block is arranged at the bottom of the support rod, the steel balls are arranged on the outer surface of the bottom of the extrusion block, the cutting block is in a sharp-angled structure, the extrusion block is in a hemispherical structure, and a plurality of steel balls are uniformly distributed on the bottom surface of the extrusion block in a semicircular structure.

As a further improvement of the invention, the collecting tank comprises a notch, a connecting plate, an extrusion rod, a fixed pipe sleeve and a side pressing mechanism, wherein the notch is positioned right above the connecting plate, the upper surface of the connecting plate is fixed with the bottom end of the extrusion rod, the upper end of the extrusion rod is arranged in the fixed pipe sleeve in a clearance fit mode, the top end of the extrusion rod is fixed with the bottom end of the side pressing mechanism, the number of the extrusion rods is five, the extrusion rods are cylindrical, the fixed pipe sleeve is of a hollow cylindrical structure, and the inner diameter of the fixed pipe sleeve is matched with the diameter of the extrusion rod.

As a further improvement of the invention, the side pressing mechanism comprises a linkage rod, a side pressing plate and a fixed shaft, the lower end of the linkage rod is fixed with the top end of the extrusion rod, the upper end of the linkage rod is hinged with the side pressing plate, the fixed shaft is embedded at the lower end of the side pressing plate, the linkage rod is of an arc structure, and the outer side surface of the side pressing plate is provided with the arc structure.

As a further improvement of the invention, the side pressing plates are provided with groove strips, the groove strips are of arc groove structures, and a plurality of groove strips are uniformly embedded in the outer side surfaces of the side pressing plates.

The invention has the beneficial effects that:

1. through clamping raw metal material dress on the clamping head, cut the raw metal material on the clamping head through cutter clamping head, waste material after the cutting passes through the guide effect of deflector, get into on the collection groove, cut off the power supply through the magnetic path after that, make the removal axle down slide along the slide rail, the removal axle through both ends has driven the connecting plate and has steadily moved down, at this moment cut long and thin metal sweeps through the cutting piece, extrude metal sweeps through the extrusion piece simultaneously, further extrude tiny sharp-pointed department on the sweeps through the steel ball, extrude sharp-pointed sweeps into cambered surface's structure, prevent that the metal waste winding is in the same place.

2. Extrude the stripper bar through the connecting plate, make the stripper bar carry out vertical lift in fixed pipe box inside, at this moment the stripper bar has promoted the trace and has carried out the arc interlock, the fixed axle that sets up through the side pressure board lower extreme, make the trace drive the side pressure board and rotate round the fixed axle, the side pressure board extrudees the sweeps both ends of notch inside, lateral surface through the side pressure board is circular arc structure, extrude the sweeps both ends and form the cambered surface, and guarantee through the inside recess strip that sets up of side pressure board that the side pressure board is when extrudeing the sweeps, the perk can not take place for the corner of sweeps, avoid metal waste to cause the stab to the finger.

Drawings

FIG. 1 is a schematic structural diagram of a numerically controlled lathe with a metal loading and unloading bin according to the present invention.

Fig. 2 is a schematic side view of the internal structure of a waste bin according to the present invention.

Fig. 3 is a schematic view of an internal structure of a pressing mechanism according to the present invention.

Fig. 4 is a schematic structural diagram of a reciprocating mechanism according to the present invention.

Fig. 5 is a partial structural view of an extrusion hammer according to the present invention.

FIG. 6 is a schematic view of the internal structure of a collecting tank according to the present invention.

FIG. 7 is a schematic view of a partial perspective structure of a side pressing mechanism according to the present invention.

FIG. 8 is a schematic view of a partial perspective structure of a side platen according to the present invention.

In the figure: the automatic cutting machine comprises a control panel-1, a lathe main machine-2, a clamping head-3, a cutter clamping head-4, a waste bin-5, a bin body-51, a guide plate-52, an upper pressing mechanism-53, a collecting tank-54, a reciprocating mechanism-a 1, a connecting plate-a 2, an extrusion hammer-a 3, a magnetic block-a 11, a moving shaft-a 12, a sliding rail-a 13, a spring-a 14, a supporting rod-a 31, a cutting block-a 32, an extrusion block-a 33, a steel ball-a 34, a notch 541-541, a connecting plate-542, an extrusion rod-tube sleeve-543, a fixed side pressing mechanism-545, a linkage rod-b 1, a side pressing plate-b 2, a fixed shaft-b 3 and a groove strip-x 1.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention relates to a numerical control lathe with a metal loading and unloading bin, which structurally comprises a control panel 1, a lathe main body 2, a clamping head 3, a cutter clamping head 4 and a waste bin 5, wherein the control panel 1 is fixedly arranged at the left upper end of the lathe main body 2, the left end of the lathe main body 2 is provided with the clamping head 3, one end of the lathe main body 2, which is far away from the clamping head 3, is provided with the cutter clamping head 4, the waste bin 5 is embedded at the back part of the lathe main body 2, the waste bin 5 is positioned at the rear end of the clamping head 3, the waste bin 5 comprises a bin body 51, a guide plate 52, an upper pressure mechanism 53 and a collecting tank 54, the lower side of the opening end of the bin body 51 is fixedly provided with the guide plate 52, the upper pressure mechanism 53 is fixedly arranged at the inner upper end of the bin body 51, the collecting tank 54 is arranged at the inner bottom surface of the bin, and the inclined lower end of the guide plate 52 is fixed to the catch tank 54, to better discharge the metal chip scraps onto the catch tank 54.

The upper pressing mechanism 53 comprises a reciprocating mechanism a1, a connecting plate a2 and an extrusion hammer a3, the head ends of the reciprocating mechanism a1 and the connecting plate a2 are fixed, the lower surface of the connecting plate a2 and the top end of the extrusion hammer a3 are fixed, the number of the reciprocating mechanisms a1 is two, and the two reciprocating mechanisms a1 are arranged at the left end and the right end of the connecting plate a2, so that the two ends of the connecting plate a2 can be driven to move stably at the same time.

The reciprocating mechanism a1 comprises a magnetic block a11, a moving shaft a12, a sliding rail a13 and a spring a14, the magnetic block a11 is arranged at the top end of the sliding rail a13, the moving shaft a12 is installed inside the sliding rail a13 in a clearance fit mode, the sliding rail a13 is fixed with the connecting plate a2, the spring a14 is arranged at the bottom end inside the sliding rail a13, the magnetic block a11 is made of a permanent magnet material, and the moving shaft a12 is made of an iron material, so that the magnetic block a11 can better adsorb the moving shaft a 12.

Wherein, extrusion hammer a3 includes bracing piece a31, cutting piece a32, extrusion piece a33, steel ball a34, bracing piece a31 top and connecting plate a2 lower surface are fixed mutually, bracing piece a31 middle part is equipped with cutting piece a32, bracing piece a31 bottom is equipped with extrusion piece a33, extrusion piece a33 bottom surface mounting has steel ball a34, cutting piece a32 is closed angle shape structure, extrusion piece a33 is the hemispheroid structure, can extrude metal sweeps and be the arc structure, steel ball a34 is equipped with a plurality of to be semicircular structure evenly distributed at extrusion piece a33 bottom surface, better extrude the arc to the tiny sharp-pointed department of sweeps.

The specific use mode and function of the embodiment are as follows:

according to the invention, metal raw materials are clamped on the clamping head 3, the metal raw materials on the clamping head 3 are cut through the cutter clamping head 4, the cut waste materials enter the collecting groove 54 under the guiding action of the guide plate 52, then the power is cut off through the magnetic block a11, the moving shaft a12 slides downwards along the sliding rail a13, the connecting plate a2 is driven to stably move downwards through the moving shafts a12 at two ends, at the moment, the slender metal waste chips are cut through the cutting block a32, meanwhile, the metal waste chips are extruded through the extrusion block a33, the slender sharp positions on the waste chips are further extruded through the steel ball a34, the sharp waste chips are extruded into an arc-surface structure, and the metal waste materials are prevented from being wound together.

Example 2:

as shown in fig. 6 to 7:

the collecting tank 54 includes a notch 541, a connecting plate 542, an extrusion rod 543, a fixing tube sheath 544, and a lateral pressing mechanism 545, wherein the notch 541 is located right above the connecting plate 542, the upper surface of the connecting plate 542 is fixed to the bottom end of the extrusion rod 543, the upper end of the extrusion rod 543 is mounted inside the fixing tube sheath 544 in a clearance fit manner, the top end of the extrusion rod 543 is fixed to the bottom of the lateral pressing mechanism 545, five extrusion rods 543 are provided and have a cylindrical structure, the fixing tube sheath 544 has a hollow cylindrical structure, and the inner diameter of the fixing tube sheath 544 is matched with the diameter of the extrusion rod 543, so that the extrusion rod 543 vertically moves along the fixing tube sheath 544.

Wherein, side pressure mechanism 545 includes trace b1, side pressure board b2, fixed axle b3, trace b1 lower extreme is fixed mutually with the extrusion pole 543 top, trace b1 upper end is articulated mutually with side pressure board b2, fixed axle b3 is inlayed to side pressure board b2 lower extreme, trace b1 is the arc structure, makes side pressure board b2 can rotate around fixed axle b3 through trace b1, extrudees the inside sweeps both ends of notch 541, side pressure board b2 lateral surface is equipped with the circular arc structure, better extrudees the both ends of sweeps and is the arc structure.

Wherein, be equipped with recess strip x1 on side pressure board b2, recess strip x1 is arc groove structure to be equipped with a plurality of, evenly inlay inside the lateral surface of side pressure board b2, can ensure through the setting of recess strip x1 that side pressure board b2 carries out the in-process of extrudeing to the sweeps both sides, the perk can not take place for the corner of sweeps.

The specific use mode and function of the embodiment are as follows:

in the invention, the extrusion rod 543 is extruded through the connecting plate 542, so that the extrusion rod 543 vertically ascends and descends in the fixed pipe sleeve 544, at this time, the extrusion rod 543 pushes the linkage rod b1 to perform arc linkage, the linkage rod b1 drives the side pressure plate b2 to rotate around the fixed shaft b3 through the fixed shaft b3 arranged at the lower end of the side pressure plate b2, the side pressure plate b2 extrudes two ends of the scraps in the notch 541, the two ends of the scraps are extruded to form an arc surface through the arc structure of the outer side surface of the side pressure plate b2, and the groove strip x1 arranged in the side pressure plate b2 ensures that the corners of the scraps cannot be tilted when the side pressure plate b2 extrudes the scraps, thereby avoiding the metal scraps from stabbing fingers.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a numerical control lathe with metal loading and unloading feed bin, its structure includes control panel (1), lathe host (2), clamping head (3), cutter clamping head (4), waste bin (5), control panel (1) fixed mounting is in lathe host (2) upper left end, lathe host (2) left end is equipped with clamping head (3), the one end that clamping head (3) were kept away from in lathe host (2) is equipped with cutter clamping head (4), waste bin (5) inlay at lathe host (2) back to waste bin (5) are located the rear end of clamping head (3), its characterized in that:

the waste bin (5) comprises a bin body (51), a guide plate (52), an upper pressing mechanism (53) and a collecting tank (54), wherein the guide plate (52) is fixedly mounted on the lower side of the opening end of the bin body (51), the upper pressing mechanism (53) is fixedly mounted on the upper end inside the bin body (51), the collecting tank (54) is arranged on the bottom surface inside the bin body (51), and the collecting tank (54) is located under the upper pressing mechanism (53).

2. The numerically controlled lathe with a metal-handling silo according to claim 1, characterized in that: the upward pressing mechanism (53) comprises a reciprocating mechanism (a1), a connecting plate (a2) and an extrusion hammer (a3), the head end of the reciprocating mechanism (a1) is fixed to the head end of the connecting plate (a2), and the lower surface of the connecting plate (a2) is fixed to the top end of the extrusion hammer (a 3).

3. The numerically controlled lathe with a metal-handling silo according to claim 2, characterized in that: reciprocating mechanism (a1) includes magnetic path (a11), removal axle (a12), slide rail (a13), spring (a14), magnetic path (a11) are established at slide rail (a13) top, removal axle (a12) adopt clearance fit to install inside slide rail (a13), slide rail (a13) is fixed mutually with connecting plate (a2), the inside bottom of slide rail (a13) is equipped with spring (a 14).

4. The numerically controlled lathe with a metal-handling silo according to claim 2, characterized in that: extrusion hammer (a3) includes bracing piece (a31), cutting piece (a32), extrusion piece (a33), steel ball (a34), bracing piece (a31) top is fixed mutually with connecting plate (a2) lower surface, bracing piece (a31) middle part is equipped with cutting piece (a32), bracing piece (a31) bottom is equipped with extrusion piece (a33), extrusion piece (a33) bottom surface mounting has steel ball (a 34).

5. The numerically controlled lathe with a metal-handling silo according to claim 1, characterized in that: the collecting tank (54) comprises a notch (541), a connecting plate (542), an extrusion rod (543), a fixing pipe sleeve (544) and a side pressing mechanism (545), wherein the notch (541) is located right above the connecting plate (542), the upper surface of the connecting plate (542) is fixed with the bottom end of the extrusion rod (543), the upper end of the extrusion rod (543) is installed inside the fixing pipe sleeve (544) in a clearance fit mode, and the top end of the extrusion rod (543) is fixed with the bottom of the side pressing mechanism (545).

6. The numerically controlled lathe with a metal-handling silo according to claim 5, characterized in that: the lateral pressing mechanism (545) comprises a linkage rod (b1), a lateral pressing plate (b2) and a fixed shaft (b3), the lower end of the linkage rod (b1) is fixed to the top end of the pressing rod (543), the upper end of the linkage rod (b1) is hinged to the lateral pressing plate (b2), and the lower end of the lateral pressing plate (b2) is embedded with the fixed shaft (b 3).

7. The numerically controlled lathe with a metal-handling silo according to claim 6, characterized in that: the side pressing plate (b2) is provided with groove strips (x1), the groove strips (x1) are of arc-shaped groove structures, and a plurality of groove strips are uniformly embedded inside the outer side face of the side pressing plate (b 2).