CN218903630U - Numerical control lathe for die production - Google Patents

Abstract

The utility model discloses a numerical control lathe used for mold production, which comprises a base, mounting plates are arranged on the left and right sides of the upper surface of the base, a cleaning mechanism is arranged between the two mounting plates, and the cleaning mechanism It includes a servo motor, and the servo motor is arranged on the rear outer wall of the mounting plate on the left side through the motor base. The power output end of the servo motor is connected to the first threaded rod through the coupling transmission, and the first threaded rod The circumferential surface is threadedly connected with a moving block, the right side of the moving block is provided with a scraper, and the upper end of the scraper is installed with a worm, and the cleaning mechanism can clean the upper surface of the base after a mold is processed. Carry out cleaning work to avoid dust and debris generated during processing from accumulating on the base, which will affect the follow-up work, improve the overall processing quality of the mold, and do not need manual cleaning work. It is convenient and fast to use and high in work efficiency.

Description

A CNC lathe for mold production

technical field

The utility model belongs to the technical field of numerical control lathes, in particular to a numerical control lathe used for mold production.

Background technique

CNC lathe is one of the most widely used CNC machine tools. It is mainly used for cutting the inner and outer cylindrical surfaces of shaft parts or disk parts, the inner and outer conical surfaces of any cone angle, the complex rotary inner and outer curved surfaces, and cylindrical and conical threads. It can perform grooving, drilling, reaming, reaming and boring, etc. In the production process of molds, CNC lathes are very good processing equipment.

After the mold is processed on the CNC lathe, it is necessary to clean the debris on the surface of the CNC lathe to avoid the debris remaining on the surface of the CNC lathe from affecting the subsequent mold processing. High, low work efficiency, so we propose a CNC lathe for mold production.

Utility model content

The purpose of this utility model is to provide a kind of numerical control lathe used for mold production, to solve the problems raised in the above-mentioned background technology.

In order to achieve the above purpose, the utility model provides the following technical solutions: a CNC lathe for mold production, including a base, the left and right sides of the upper surface of the base are provided with mounting plates, and the two mounting plates are provided with There is a cleaning mechanism, the cleaning mechanism includes a servo motor, and the servo motor is arranged on the rear outer wall of the mounting plate on the left side through the motor seat, and the power output end of the servo motor is connected to the first threaded rod through a coupling , the circumferential surface of the first threaded rod is screwed with a moving block, the right side of the moving block is provided with a scraper, the upper end of the scraper is internally rotated and installed with a worm, and the rear side of the worm is meshed with a worm gear , and there are several worm wheels, the lower ends of the several worm wheels are all provided with rotary rods, the lower ends of several of the rotary rods are all provided with cleaning brushes, and the inside of the base is provided with a limit mechanism.

Preferably, the limit mechanism includes a biaxial motor, the biaxial motor is arranged in the middle of the base, the power output ends of the biaxial motor are connected to the second threaded rod through a coupling, and the two The peripheral surfaces of the second threaded rods are all screwed with clamping plates.

Preferably, a movable groove is provided inside the upper end of the mounting plate on the left side, and the inner top wall of the movable groove is provided with a toothed plate, and the left end of the worm is provided with a rotating gear, and the upper end of the rotating gear is meshed with the toothed plate .

Preferably, a first moving groove is provided on the side of the two mounting plates close to the scraper, the first threaded rod and the moving block are arranged inside the first moving groove on the left side, and the upper end of the base The left and right sides of the left and right sides are provided with second moving grooves, the upper ends of the two clamping plates are respectively arranged inside the two second moving grooves, the two first moving grooves and the two second moving grooves The inside of the moving tank is provided with an organ cover.

Preferably, a fixed rod is provided inside the first moving groove on the right side, a slider is sleeved on the peripheral surface of the fixed rod, and the left side of the slider is connected to the right outer wall of the scraper.

Preferably, a waste collection tank is provided in front of the upper end of the base, a collection box is provided directly below the waste collection tank, and the collection box is plugged into the front end of the base.

Preferably, the lower ends of the two mounting plates close to the side of the scraper are both provided with receiving grooves, and the upper ends of the two clamping plates are respectively located on the same level as the two receiving grooves.

Compared with the prior art, the beneficial effects of the utility model are:

(1) The CNC lathe used for mold production, through the cleaning mechanism, can clean the upper surface of the base after a mold is processed, so as to avoid the accumulation of dust and debris generated on the base during processing, which will affect the follow-up The progress of the work improves the overall processing quality of the mold, and does not require manual cleaning work, which is convenient and quick to use and high in work efficiency.

(2) The numerical control lathe used for mold production can limit and fix the mold through the provided limiting mechanism, so as to prevent the mold from moving during subsequent processing, thereby improving the processing quality of the mold.

Description of drawings

Fig. 1 is the three-dimensional structure schematic diagram of the present utility model;

Fig. 2 is the three-dimensional sectional view of cleaning mechanism place of the present utility model;

Fig. 3 is a front sectional view of the utility model;

Fig. 4 is a left sectional view of the utility model.

Among the figure: 1, base; 2, mounting plate; 3, cleaning mechanism; 301, servo motor; 302, first threaded rod; 303, moving block; 304, scraper; 305, worm; 306, rotating gear; 307, Worm gear; 308, rotating rod; 309, cleaning brush; 4, slide block; 5, fixed rod; 6, limit mechanism; 601, biaxial motor; 602, second threaded rod; 1st mobile slot; 8, second mobile slot; 9, organ cover; 10, movable slot; 11, waste collection slot.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Please refer to Fig. 1-Fig. 4, the utility model provides a kind of numerically controlled lathe used for mold production, comprises base 1, and the left and right sides of the upper surface of base 1 are all provided with mounting plate 2, is provided with between two mounting plates 2 The cleaning mechanism 3, the cleaning mechanism 3 includes a servo motor 301, and the servo motor 301 is arranged on the rear side outer wall of the left mounting plate 2 through the motor base, and the power output end of the servo motor 301 is connected with a first threaded rod 302 through a coupling transmission. , the circumferential surface of the first threaded rod 302 is screwed with a moving block 303, the right side of the moving block 303 is provided with a scraper 304, the upper end of the scraper 304 is internally rotated with a worm 305, and the rear side of the worm 305 is engaged with a worm wheel 307 , and worm wheels 307 are provided with several, the lower ends of several worm wheels 307 are provided with rotating rods 308, the lower ends of several rotating rods 308 are provided with cleaning brushes 309, and the inside of base 1 is provided with limiting mechanism 6.

In this embodiment, preferably, the limit mechanism 6 includes a biaxial motor 601, the biaxial motor 601 is arranged in the middle of the base 1, and the power output end of the biaxial motor 601 is connected to a second threaded rod through a coupling transmission. 602, the circumferential surfaces of the two second threaded rods 602 are threadedly connected with the clamping plate 603, the biaxial motor 601 is turned on, and the biaxial motor 601 drives the two second threaded rods 602 to rotate, thereby driving the two clamping plates 603 to carry out Moving horizontally from side to side, when the two clamping plates 603 move towards the biaxial motor 601, they can clamp the mold on the upper surface of the fixed base 1, and then facilitate the subsequent processing of the mold. When the two clamping plates 603 are far away from the biaxial motor 601 , the clamping plate 603 loses its fixing effect on the mould, which then facilitates the removal and replacement of the mould.

In this embodiment, preferably, the upper end of the left mounting plate 2 is provided with a movable groove 10, and the inner top wall of the movable groove 10 is provided with a tooth plate, the left end of the worm 305 is provided with a rotating gear 306, and the upper end of the rotating gear 306 Engaged with the tooth plate, the setting of the movable groove 10 and the tooth plate provides an active space for the left end of the rotating gear 306 and the worm 305, and then when the scraper 304 moves horizontally back and forth, the rotating gear 306 is engaged with the tooth plate to make the rotation The gear 306 rotates smoothly, and then drives the worm 305 to rotate smoothly.

In this embodiment, preferably, the first moving groove 7 is provided on the side of the two mounting plates 2 close to the scraper 304, and the first threaded rod 302 and the moving block 303 are both arranged inside the first moving groove 7 on the left side. , the left and right sides of the upper end of the base 1 are provided with second moving grooves 8, the upper ends of the two clamping plates 603 are respectively arranged inside the two second moving grooves 8, the two first moving grooves 7 and the two second moving grooves The inside of the moving groove 8 is provided with an organ cover 9, the setting of the first moving groove 7 provides a moving space for the moving block 303, and the setting of the second moving groove 8 provides a moving space for the clamping plate 603, and the organ cover The setting of 9 can close the first moving groove 7 and the second moving groove 8, and prevent dust and debris from adhering to the surface of the first threaded rod 302 and the second threaded rod 602 through the first moving groove 7 and the second moving groove 8, This in turn increases the utility of the first threaded rod 302 and the second threaded rod 602 .

In this embodiment, preferably, the inside of the first moving groove 7 on the right side is provided with a fixed rod 5, the circumferential surface of the fixed rod 5 is sleeved with a slider 4, and the left side of the slider 4 is connected to the right outer wall of the scraper 304. In connection with each other, the arrangement of the slider 4 and the fixed rod 5 can limit the right end of the scraper 304, thereby improving the stability of the scraper 304 when it moves horizontally back and forth.

In this embodiment, preferably, a waste collection tank 11 is provided in front of the upper end of the base 1, and a collection box is arranged directly below the waste collection tank 11, and the collection box is plugged into the front end of the base 1, and the waste collection tank 11, when the scraper 304 moves forward, the scraper 304 pushes the dust debris on the upper surface of the base 1 to the waste collection tank 11, and then the dust debris falls into the collection box through the waste collection tank 11 Inside, for easy collection and disposal of dust debris.

In this embodiment, preferably, the lower ends of the two mounting plates 2 close to the side of the scraper 304 are provided with storage grooves, and the upper ends of the two clamping plates 603 are respectively located on the same level as the two storage grooves. The setting of the storage grooves When it is necessary to clean the upper surface of the base 1, first move the two clamping plates 603 to the inside of the two storage grooves respectively, so as to avoid collision with the clamping plate 603 when the scraper 304 moves forward, which will affect the progress of the work .

The working principle and application process of the utility model: when the device is used, the mold is first placed on the upper surface of the base 1, then the biaxial motor 601 is turned on, and the biaxial motor 601 drives two second threaded rods 602 to rotate, and the two clamps When the holding plate 603 moves to the biaxial motor 601, it can clamp the mold on the upper surface of the fixed base 1. At this time, the mold can be processed. After the mold processing is completed, the biaxial motor 601 is turned on, so that the two clamping plates 603 Keep away from the biaxial motor 601, and move to the inside of the two storage slots respectively. At this time, the finished mold is removed from the base 1, and then the servo motor 301 is turned on. The servo motor 301 drives the first threaded rod 302 to rotate, thereby driving The moving block 303 and the scraper 304 move forward. When the scraper 304 moves forward, the rotating gear 306 in the scraper 304 will rotate, thereby driving the worm 305 to rotate, and then driving the worm wheel 307, the rotating rod 308 and the cleaning brush 309 Rotate, then rotate and clean the upper surface of the base 1, sweep the debris on the upper surface of the base 1, and then push the scraper 304 forward to the waste collection tank 11, so that the debris falls into the collection box for collection. In this way, the cleaning of debris on the upper surface of the base 1 is completed, which facilitates subsequent work.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes and modifications can be made to these embodiments without departing from the principle and spirit of the present invention , replacements and modifications, the scope of the present utility model is defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides a numerical control lathe for mould production, includes base (1), its characterized in that: the utility model discloses a cleaning device for the surface of base (1), including base (1), mounting panel (2) are all provided with in the left and right sides of base (1), two be provided with clearance mechanism (3) between mounting panel (2), clearance mechanism (3) include servo motor (301), and servo motor (301) are in the left side through the motor cabinet the rear side outer wall of mounting panel (2), the power take off end of servo motor (301) is connected with first threaded rod (302) through the shaft coupling transmission, the circumference surface threaded connection of first threaded rod (302) has movable block (303), the right side of movable block (303) is provided with scraper blade (304), upper end internal rotation of scraper blade (304) installs worm (305), the rear side meshing of worm (305) is connected with worm wheel (307), and worm wheel (307) are provided with a plurality of worm wheel (307) the lower extreme all is provided with bull stick (308), a plurality of bull stick (308) the lower extreme all is provided with cleaning brush (309), the inside of base (1) is provided with stop gear (6).

2. A numerically controlled lathe for use in the production of molds as in claim 1, wherein: the limiting mechanism (6) comprises a double-shaft motor (601), the double-shaft motor (601) is arranged in the middle of the inside of the base (1), the power output end of the double-shaft motor (601) is connected with a second threaded rod (602) through a coupling transmission, and the circumferential surfaces of the two second threaded rods (602) are connected with clamping plates (603) through threads.

3. A numerically controlled lathe for use in the production of molds as in claim 1, wherein: the left side the inside movable groove (10) of having seted up of upper end of mounting panel (2), and the interior roof of movable groove (10) is provided with the pinion rack, the left end of worm (305) is provided with rotation gear (306), the upper end and the pinion rack meshing of rotation gear (306) are connected.

4. A numerically controlled lathe for use in the production of molds as in claim 2, wherein: two the mounting panel (2) is close to one side of scraper blade (304) and has all been seted up first removal groove (7), first threaded rod (302) and movable block (303) all set up in the left side the inside of first removal groove (7), second removal groove (8) have all been seted up to the left and right sides of base (1) upper end, two the upper end of grip block (603) sets up respectively in two the inside of second removal groove (8), two the inside of first removal groove (7) and two second removal groove (8) all is provided with organ cover (9).

5. The numerically controlled lathe for mold production of claim 4, wherein: the right side the inside of first removal groove (7) is provided with dead lever (5), the circumference surface of dead lever (5) has cup jointed slider (4), the left side of slider (4) is connected with the right side outer wall of scraper blade (304).

6. A numerically controlled lathe for use in the production of molds as in claim 1, wherein: the novel garbage collection device is characterized in that a garbage collection groove (11) is formed in front of the upper end of the base (1), a collection box is arranged right below the garbage collection groove (11), and the collection box is inserted into the front end of the base (1).

7. A numerically controlled lathe for use in the production of molds as in claim 2, wherein: the lower ends of the two mounting plates (2) close to one side of the scraping plate (304) are provided with storage grooves, and the upper ends of the two clamping plates (603) are respectively positioned on the same horizontal plane with the two storage grooves.

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