CN111843592A - Compound feed type numerically controlled lathe - Google Patents

Abstract

The invention discloses a composite feed type numerical control lathe, which structurally comprises a base, a movable door, a main shaft, a sliding seat, a tool rest and a control box, wherein the upper end of the base is movably clamped with the lower end of the movable door, a sliding block moves left and right, a warped plate is jacked up by a jacking block through a spring, aluminum alloy cleaned by the sliding block is molten and scraped and stored, the aluminum alloy molten is cleaned by a scraping block, the aluminum alloy is prevented from being adhered to the outer side of a cutter, the outer side of the cutter is passivated and can not be used continuously, the scraping block can be connected by a central shaft on the front side of a supporting frame, then a scraper is cleaned by a limiting plate, a catching sheet on the limiting plate can adhere to the cleaned aluminum alloy molten, the catching sheet is downwards pressed by a supporting contact block of a fixed shaft after the sliding block moves right, the warping plate can scrape and collect the catching sheet, and the aluminum alloy is prevented from being molten and adhered, the cutter can not be used and even the machined parts are damaged and scrapped.

Description

Compound feed type numerically controlled lathe

Technical Field

The invention belongs to the field of lathes, and particularly relates to a composite feed type numerically controlled lathe.

Background

The feed type numerically controlled lathe is a composite feed type numerically controlled lathe in the numerically controlled lathe type, and has the advantages of automatic processing, high processing speed and one-step processing and forming of complex parts.

Disclosure of Invention

The invention provides a composite feed type numerically controlled lathe, which aims to solve the problems that in the prior art, the molten aluminum alloy is adhered to the outer side of a cutter due to melting of the aluminum alloy material, the outer side of the cutter cannot be used continuously due to passivation, and the temperature of the surface of the cutter is also sharply increased during continuous processing of the aluminum alloy, so that the aluminum alloy is melted and adhered to a prop, the cutter cannot be used, and even a processed part is damaged and scrapped.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a compound feed formula numerical control lathe, its structure includes base, dodge gate, main shaft, slide, knife rest, control box, base upper end and dodge gate lower extreme activity block, the main shaft is connected at base left end middle part, slide and base middle part upside sliding connection, knife rest and slide upper end bolted connection, control box and dodge gate outside welded connection, the knife rest includes bottom block, clearing device, cutter, motor, clamping piece, bottom block and slide upper end bolted connection, clearing device and cutter outside sliding connection, cutter and clamping piece outside bolted connection, the motor is connected with the clamping piece middle part is inlayed admittedly, clearing device is perpendicular installation for the bottom block to the bottom is connected through the transmission shaft with the motor lower extreme.

As a further improvement of the invention, the clearing device comprises a transmission shaft, a top block, a spring, a warping plate, a sliding block, a supporting block, a tooth hole and a clamping gear, wherein the transmission shaft and the output end of the motor rotate synchronously, the middle of the top block is connected with the warping plate through the spring, the sliding block is in sliding connection with the lower end surface of the supporting block, the tooth hole is in embedded connection with the outer side surface of the sliding block, the clamping gear is connected between the tooth hole and the transmission shaft, the upper end of the supporting block is provided with a sliding chute matched with the upper side of the sliding block, and the hollow structure is the same as the.

As a further improvement of the invention, the sliding block comprises a protective shell, a steering block and a clearing plate, wherein the protective shell is in clearance fit with the lower end of the supporting block, the steering block is welded and connected with the inner side of the left end of the protective shell, the clearing plate is in sliding connection with the right side of the protective shell, the steering block is in a half arc shape and a rectangle shape and is distributed in two steps, and the lower layer is arranged behind the upper layer.

As a further improvement of the present invention, the removing plate includes a first scraping plate, a first roller, a second roller, a connecting shaft, a second scraping plate, a scraping block, and an elastic plate, the first scraping plate is connected to the upper shaft of the connecting shaft, the first roller is welded to the upper side of the left end of the first scraping plate, the second roller is welded to the left end surface of the first scraping plate, the connecting shaft is connected to the upper shaft of the second scraping plate, the scraping block is connected to the inner shafts of the first scraping plate and the second scraping plate, the elastic plate is connected between the first scraping plate and the second scraping plate, the first scraping plate and the second scraping plate have the same shape and size, and are vertically distributed after being turned over, and the elastic plate is rectangular and made of carbon spring steel.

As a further improvement of the invention, the scraping block comprises a supporting frame, a middle shaft, a scraper and a limiting plate, the supporting frame is connected with an inner shaft at the right end of the second scraping plate, the middle shaft is connected with the outer side of the front side of the supporting frame in a welding manner, the scraper is connected with the right end of the supporting frame in a riveting manner, the limiting plate is connected with a middle shaft of the supporting frame in a shaft manner, the limiting plate is installed in an inclined manner, and the installation position of the limiting plate is higher relative to the scraper.

As a further improvement of the invention, the limiting plate comprises a capturing sheet, a fixed shaft and a contact block, the capturing sheet is welded and connected with the right side of the fixed shaft, the contact block is welded and connected with the left side of the fixed shaft, the fixed shaft is connected with the middle shaft of the supporting frame in a shaft mode, the contact block is made of stainless steel metal, and the capturing sheet is made of titanium alloy.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. the sliding block moves from left to right, passes through the spring at the kicking block and strikes off the wane jack-up, strikes off the aluminum alloy melting that the sliding block cleared up and gets off and store, strikes off the piece and clears up the aluminum alloy melting, can recover through the diving board, has prevented that the aluminum alloy from gluing in the cutter outside, causes the unable continuation of cutter outside passivation to use.

2. The positive axis of carriage can will strike off the piece and connect, clear up the scraper with passing through the limiting plate afterwards, catch the aluminum alloy melt that the piece can clear up and carry out the adhesion on the limiting plate, move the back at the sliding block and contact the piece through the support of fixed axle and can push down the piece of catching downwards, the wane can strike off the collection to catching the piece afterwards, prevented that aluminum alloy melt from adhering on the stage property, cause the cutter can't use or even cause the processing part impaired to scrap.

Drawings

Fig. 1 is a schematic structural view of a composite type cutter-moving numerically controlled lathe of the present invention.

Fig. 2 is a schematic view of the structure of a tool holder according to the present invention.

Fig. 3 is a front sectional structural view of a clearing device of the present invention.

FIG. 4 is a schematic top view of the slider according to the present invention.

FIG. 5 is a schematic side view of a cleaning plate according to the present invention.

Fig. 6 is a schematic perspective view of a scraping block according to the present invention.

Fig. 7 is a schematic perspective view of a limiting plate according to the present invention.

In the figure: base-1, movable door-2, main shaft-3, slide carriage-4, tool post-5, control box-6, bottom block-51, clearing device-52, cutter-53, motor-54, clamping piece-55, transmission shaft-521, top block-522, spring-523, wane-524, slide block-525, supporting block-526, toothed hole-527, clamping gear-528, protective shell-25 a, steering block-25 b, clearing plate-25 c, first scraping plate-c 1, first roller-c 2, second roller-c 3, connecting shaft-c 4, second scraping plate-c 5, scraping block-c 6, elastic plate-c 7, supporting frame-c 61, middle shaft-c 62, scraper-c 63, limiting plate-c 64, A catching sheet-r 1, a fixed shaft-r 2 and a contact block-r 3.

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 provides a composite feed type numerically controlled lathe which structurally comprises a base 1, a movable door 2, a main shaft 3, a sliding seat 4, a tool rest 5 and a control box 6, wherein the upper end of the base 1 is movably clamped with the lower end of the movable door 2, the main shaft 3 is connected to the middle of the left end of the base 1, the sliding seat 4 is connected with the upper side of the middle of the base 1 in a sliding manner, the tool rest 5 is connected with the upper end of the sliding seat 4 through a bolt, the control box 6 is connected with the outer side of the movable door 2 in a welding manner, the tool rest 5 comprises a bottom block 51, a clearing device 52, a cutter 53, a motor 54 and a clamping piece 55, the bottom block 51 is connected with the upper end of the sliding seat 4 through a bolt, the clearing device 52 is connected with the outer side of the cutter 53 in a sliding manner, the cutter 53 is connected with the outer side of the clamping piece 55 through a bolt, the motor 54 is, so that the clearing device 52 provides kinetic energy through the motor 54, which is beneficial to reducing parts on the surface of the tool rest 5 and preventing the tool rest 5 from being blocked due to the falling of the aluminum alloy material from the tool rest 5.

The clearing device 52 comprises a transmission shaft 521, a top block 522, a spring 523, a rocker 524, a sliding block 525, a supporting block 526, a tooth hole 527 and a clamping gear 528, wherein the transmission shaft 521 rotates synchronously with the output end of the motor 54, the middle of the top block 522 is connected with the rocker 524 through the spring 523, the sliding block 525 is in sliding connection with the lower end surface of the supporting block 526, the tooth hole 527 is fixedly embedded with the outer side surface of the sliding block 525, the clamping gear 528 is connected between the tooth hole 527 and the transmission shaft 521, a sliding groove is formed in the upper end of the supporting block 526 and matched with the upper side of the sliding block 525, and a hollow structure is arranged in the same size as the sliding block 525, so that the sliding block 525 can slide at the lower end of the supporting block 526, the stability of the sliding block 525 is.

Slide block 525 includes protecting sheathing 25a, turns to piece 25b, clears away board 25c, protecting sheathing 25a and supporting shoe 526 lower extreme clearance fit, turn to inboard welded connection in piece 25b and the protecting sheathing 25a left end, clear away board 25c and protecting sheathing 25a right side sliding connection, turn to piece 25b shape for half arc adds rectangle to be two-step distribution, the lower floor is compared in the upper strata and leans on the back, makes to clear away the board 25c upper portion and can be turned over the book and make, is favorable to reducing the protruding structure on knife rest 5 surface, prevents that the aluminum alloy from causing the adhesion grain on knife rest 5 surface.

Wherein the cleaning plate 25c includes a first scraping plate c1, a first roller c2, a second roller c3, a connecting shaft c4, a second scraping plate c5, a scraping block c6 and an elastic plate c7, the first scraping plate c1 is connected with the upper side shaft of the connecting shaft c4, the first roller c2 is connected with the upper side shaft of the left end of the first scraping plate c1 in a welding manner, the second roller c3 is connected with the left end surface of the first scraping plate c1 in a welding manner, the connecting shaft c4 is connected with the upper end shaft of the second scraping plate c5 in a connecting manner, the scraping block c6 is connected with the inner side shafts of the first scraping plate c1 and the second scraping plate c5 in a welding manner, the elastic plate c7 is connected between the first scraping plate c1 and the second scraping plate c5, the first scraping plate c1 and the second scraping plate c5 have the same shape and are vertically folded in a backward stroke, the elastic plate c7 is made of spring, and is made of rectangular steel, so that the upper surface of the cleaning plate c 53, the method is beneficial to comprehensively reducing the aluminum alloy melt on the surface of the cutter 53 and prolonging the service life of the cutter 53.

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

in the invention, a movable door 2 at the upper end of a base 1 is opened, then a workpiece is driven to rotate under the rotation of a main shaft 3, a control box 6 controls a sliding seat 4 to process a workpiece by a tool rest 5, a clearing device 52 above a bottom block 51 drives a cutter 53 clamped by a clamping piece 55 to clear through a motor 54, a transmission shaft 521 fixed by a supporting block 526 drives a clamping gear 528 to rotate during clearing, a tooth hole 527 drives a sliding block 525 to move left and right, then a rocker 524 is jacked up by a jacking block 522 through a spring 523, aluminum alloy cleared by the sliding block 525 is melted and scraped and stored, a steering block 25b at the inner side of a protective shell 25a changes the angle of a clearing plate 25c when the sliding block 525 moves, the upper surface and the side surface of the cutter 53 are cleared, a first scraping plate c1 firstly turns over for forty-five degrees through a first roller c2 during the turning over, then a steering block 25b turns over a second roller 3 c, the second scraping plate c5 is turned by ninety degrees through the connecting shaft c4, aluminum alloy melt is cleaned through the scraping block c6, and the second scraping plate c5 can be restored again through the elastic plate c7 after being turned, so that the aluminum alloy is prevented from being adhered to the outer side of the cutter 53, and the outer side of the cutter 53 is prevented from being passivated and cannot be used continuously.

Example 2:

as shown in fig. 6 to 7:

the scraping block c6 comprises a supporting frame c61, a center shaft c62, a scraper c63 and a limiting plate c64, the supporting frame c61 is connected with an inner shaft at the right end of a second scraping plate c5, the center shaft c62 is connected with the outer side of the front face of the supporting frame c61 in a welding mode, the scraper c63 is connected with the right end of the supporting frame c61 in a riveting mode, the limiting plate c64 is connected with the middle shaft of the supporting frame c61 in a connecting mode, the limiting plate c64 is installed in an inclined mode, the installation position of the limiting plate is higher than that of the scraper c63, the limiting plate c64 can remove aluminum alloy melt scraped by the scraper c63, and the cleaning efficiency of the scraper c63 on the surface of the cutter 53 is improved.

The limiting plate c64 comprises a capturing sheet r1, a fixing shaft r2 and a contact block r3, the capturing sheet r1 is connected with the right side of a fixing shaft r2 in a welded mode, the contact block r3 is connected with the left side of the fixing shaft r2 in a welded mode, the fixing shaft r2 is connected with the middle portion of the supporting frame c61 in a connected mode, the contact block r3 is made of stainless steel metal, the capturing sheet r1 is made of titanium alloy, the mass of the contact block r3 is larger than that of the capturing sheet r1, the angle of the capturing sheet r1 is inclined upwards, and the scraper c63 is cleaned.

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

in the invention, the scraping block c6 can be connected with the central shaft c62 on the front side of the supporting frame c61, then the scraper c63 is cleaned through the limiting plate c64, the cleaned aluminum alloy melt can be adhered to the catching sheet r1 on the limiting plate c64, the catching sheet r1 can be pressed downwards through the supporting contact block r3 of the fixed shaft r2 after the sliding block moves rightwards, and then the catching sheet r1 can be scraped and collected by the warping plate 524, so that the aluminum alloy melt is prevented from being adhered to the cutter 53, the cutter 53 cannot be used, and even the machined parts are damaged and discarded.

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 (6)

1. The utility model provides a compound feed formula numerical control lathe, its structure includes base (1), dodge gate (2), main shaft (3), slide (4), knife rest (5), control box (6), base (1) upper end and dodge gate (2) lower extreme activity block, main shaft (3) are connected at base (1) left end middle part, slide (4) and base (1) middle part upside sliding connection, knife rest (5) and slide (4) upper end bolted connection, control box (6) and dodge gate (2) outside welded connection, its characterized in that:

knife rest (5) include bottom block (51), clearing device (52), cutter (53), motor (54), clamping piece (55), bottom block (51) and slide (4) upper end bolted connection, clearing device (52) and cutter (53) outside sliding connection, cutter (53) and clamping piece (55) outside bolted connection, motor (54) and clamping piece (55) middle part are connected in an embedded manner.

2. A compound feed type numerically controlled lathe according to claim 1, characterized in that: clearing device (52) include transmission shaft (521), kicking block (522), spring (523), wane (524), sliding block (525), supporting shoe (526), tooth hole (527), block gear (528), transmission shaft (521) and motor (54) output synchronous revolution, be connected with wane (524) through spring (523) in the middle of kicking block (522), sliding block (525) and supporting shoe (526) lower extreme surface sliding connection, tooth hole (527) are connected with sliding block (525) outside surface embedded solid, block gear (528) are connected between tooth hole (527) and transmission shaft (521).

3. A compound feed type numerically controlled lathe according to claim 2, characterized in that: the sliding block (525) comprises a protective shell (25 a), a steering block (25 b) and a clearing plate (25 c), the protective shell (25 a) is in clearance fit with the lower end of the supporting block (526), the steering block (25 b) is in welded connection with the inner side of the left end of the protective shell (25 a), and the clearing plate (25 c) is in sliding connection with the right side of the protective shell (25 a).

4. A compound feed type numerically controlled lathe according to claim 3, characterized in that: the cleaning plate (25 c) comprises a first scraping plate (c 1), a first roller (c 2), a second roller (c 3), a connecting shaft (c 4), a second scraping plate (c 5), a scraping block (c 6) and an elastic plate (c 7), wherein the first scraping plate (c 1) is connected with an upper side shaft of the connecting shaft (c 4), the first roller (c 2) is connected with an upper side shaft of the left end of the first scraping plate (c 1) in a welding manner, the second roller (c 3) is connected with a left end surface of the first scraping plate (c 1) in a welding manner, the first roller (c 4) is connected with an upper side shaft of the second scraping plate (c 5), the scraping block (c 6) is connected with inner side shafts of the first scraping plate (c 1) and the second scraping plate (c 5), and the elastic plate (c 7) is connected between the first scraping plate (c 1) and the second scraping plate (c 5).

5. The compound feed type numerically controlled lathe according to claim 4, characterized in that: the scraping block (c 6) comprises a supporting frame (c 61), a center shaft (c 62), a scraper (c 63) and a limiting plate (c 64), wherein the supporting frame (c 61) is connected with the inner shaft of the right end of a second scraping plate (c 5), the center shaft (c 62) is connected with the outer side of the front face of the supporting frame (c 61) in a welding mode, the scraper (c 63) is connected with the right end of the supporting frame (c 61) in a riveting mode, and the limiting plate (c 64) is connected with the middle shaft of the supporting frame (c 61) in a connecting mode.

6. A compound feed type numerically controlled lathe according to claim 5, characterized in that: the limiting plate (c 64) comprises a capturing piece (r 1), a fixing shaft (r 2) and a contact block (r 3), the capturing piece (r 1) is connected with the right side of the fixing shaft (r 2) in a welded mode, the contact block (r 3) is connected with the left side of the fixing shaft (r 2) in a welded mode, and the fixing shaft (r 2) is connected with a middle shaft of the supporting frame (c 61) in a connected mode.

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