CN218800865U - High-precision part machining machine tool with chip removing mechanism - Google Patents

Abstract

The utility model discloses a high-precision part processing machine tool with a scrap removing mechanism, which relates to the technical field of part processing and comprises a machine body and a workbench, wherein a containing cavity is arranged below the machine body, feed inlets are arranged on two sides of the top of the containing cavity, a collecting mechanism is arranged in the containing cavity, and a spraying mechanism is arranged below the collecting mechanism; the collecting mechanism comprises a fine filtering net cage arranged in the accommodating cavity, a movable preliminary filtering net cage is arranged above the fine filtering net cage, and moving components are arranged on two sides of the preliminary filtering net cage; the movable assembly comprises rotatable reciprocating lead screws arranged on two sides of the primary filter net cage, the primary filter net cage and the fine filter net cage are arranged, meshes of the primary filter net cage and the fine filter net cage are different in size, too large fragments with different sizes can be separately processed, the primary filter net cage can reciprocate to screen smaller fragments mixed in the fragments and fall into the lower portion, and the smaller fragments are difficult to block normal circulation of the meshes and cutting fluid and normal operation of a guaranteed machine tool.

Description

High-precision part machining machine tool with chip removing mechanism

Technical Field

The utility model relates to a parts machining technical field specifically is a high-accuracy parts machining machine tool with remove bits mechanism.

Background

With the continuous development of numerical control machine tools, the machining of parts is more precise, and a large amount of scraps are often generated in the machining process of high-precision parts.

Through the retrieval, chinese patent that publication number is CN 216178902U discloses a high-accuracy parts machining machine tool sweeps removal device, relates to parts machining technical field, including fly leaf, the bed body and landing leg, the bed body is transversely installed on the top of landing leg, and the internal portion of bed intermediate position department has seted up the collecting box, the both ends of the internal bottom one side of collecting box all are provided with the fluid-discharge tube, and the inside upper end of collecting box is provided with the sieve, the intermediate position department of sieve bottom is provided with the hole case, the intermediate position department of the internal portion of bed bottom has seted up the collection cover, the intermediate position department of the internal portion upper end of bed is provided with the fly leaf, and fly leaf top intermediate position department installs the processing head that runs through the fly leaf, and the fly leaf bottom of processing head both sides all articulates there is the shower.

To the aforesaid in time, the inventor thinks, the device is through setting up the cam, utilizes the rotation of cam to realize the vibrations screening of sieve, improves and avoids the sweeps to block up the sieve to solid-liquid screening effect, but in the actual processing of part, the spare part of processing different precision can produce the piece of equidimension not, the piece of variation in size can influence the recovery of cutting fluid and block up the filter screen, tiny piece falls into in the cutting fluid and causes the recycling time internal impurity too much to be difficult to reuse.

To the above problem, the utility model provides a high-accuracy parts machining machine tool with remove bits mechanism.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-accuracy part machining machine tool with remove bits mechanism has set up prefiltration net cage and meticulous filter box, and both mesh variation in size can separately handle the too big piece of big difference, and prefiltration net cage can reciprocating motion fall into the below with the less piece screening that mix with in the piece, and less piece is difficult to block the normal cycle of mesh and cutting fluid, the normal operating of the lathe of assurance to the problem in the background art has been solved.

In order to achieve the above object, the utility model provides a following technical scheme: a high-precision part processing machine tool with a scrap removing mechanism comprises a machine body and a workbench, wherein a containing cavity is formed below the machine body, feed inlets are formed in two sides of the top of the containing cavity, a collecting mechanism is arranged in the containing cavity, and a spraying mechanism is arranged below the collecting mechanism;

the collecting mechanism comprises a fine filtering net cage arranged in the accommodating cavity, a movable preliminary filtering net cage is arranged above the fine filtering net cage, and moving components are arranged on two sides of the preliminary filtering net cage;

the movable assembly comprises rotatable reciprocating lead screws arranged on two sides of the primary filtering net cage, the peripheral surfaces of the reciprocating lead screws are connected with sliding blocks capable of moving in a reciprocating mode along the axis of the reciprocating lead screws through threads, and the sliding blocks on the two sides are close to one side and are used for fixedly connecting the primary filtering net cage.

Further, the movable assembly further comprises a driving belt wheel and a driven belt wheel which are fixedly connected to the outer peripheral surfaces of one ends of the reciprocating screws on the two sides, the driving belt wheel and the driven belt wheel are connected through belt transmission, the outer peripheral surface of the other end of the reciprocating screw on one side is in key connection with a driven bevel gear, the driving bevel gear is in transmission connection with the driving bevel gear below, the driving bevel gear is in key connection with the outer peripheral surface of one end of an output shaft, the other end of the output shaft is fixedly connected to the output end of the motor through a coupler, and the motor is fixedly connected to one side of the accommodating cavity.

Furthermore, the other end of the reciprocating screw rod fixedly connected with the driving bevel gear is used for arranging a driving belt wheel, and the reciprocating screw rod far away from the driving bevel gear is a driven belt wheel.

Further, collect the fixture block that the mechanism still includes a plurality of equidistance equipartitions of fixed connection at preliminary filter box with a net both ends lower surface, the fixture block is used for T shape slide rail sliding contact, and T shape slider fixed connection is used for setting up meticulous filter box with a net in the below of T shape slide rail at holding the cavity both ends, and meticulous filter box with a net places in the backup pad upper surface that the symmetry set up, and backup pad both ends fixed connection holds the cavity both ends.

Furthermore, the mesh number of the fine filter net cage is larger than that of the primary filter net cage.

Furthermore, the side wall of the accommodating cavity at the feed inlet is fixedly connected with symmetrically arranged guide plates, and the guide plates at the two sides are V-shaped.

Furthermore, the spraying mechanism comprises a collecting box arranged at the bottom of the accommodating cavity, a water guide plate with an angle is arranged in the collecting box, a water outlet is formed in the lower side of the height of the collecting box, the water outlet is fixedly connected to one end of a return pipe, and the other end of the return pipe penetrates through a through hole fixedly connected with a spray head on the circulating water pump and the guide plate.

Furthermore, a filter screen is arranged at the water outlet.

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

1. the utility model provides a pair of high-accuracy part machine tool with remove bits mechanism has set up prefiltration net cage and meticulous filter box, and both mesh variation in size can separately handle the too big piece of big size difference, and prefiltration net cage can reciprocating motion fall into the below with the less piece screening that is mingled with in the piece, and less piece is difficult to block the normal cycle of mesh and cutting fluid, the normal operating of the lathe of assurance.

2. The utility model provides a pair of high-accuracy part machine tool with remove bits mechanism collects the mechanism below and has set up the collecting box, and in the cutting fluid fell into the collecting box from the mesh of a plurality of box with a net, made the cutting fluid constantly circulate through circulation tank and sprayed the cooling to part and tool bit.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

FIG. 3 is a schematic view of the internal cross-sectional structure of the machine body of the present invention;

FIG. 4 is a schematic structural view of the collecting mechanism of the present invention;

fig. 5 is a schematic structural view of the driven gear of the present invention;

fig. 6 is a schematic view of the driving pulley structure of the present invention.

In the figure: 1. a body; 2. a work table; 3. a collection mechanism; 301. a preliminary filtering net cage; 302. a fine filtering net cage; 303. a support plate; 304. a T-shaped slide rail; 305. a clamping block; 306. a slider; 307. a reciprocating screw; 308. a driving pulley; 309. a driven pulley; 310. a belt; 311. a drive bevel gear; 312. a driven bevel gear; 313. an electric motor; 4. a spraying mechanism; 401. a collection box; 402. a water guide plate; 403. a return pipe; 404. a circulating water pump; 405. a spray head; 406. a filter screen; 407. a water outlet; 5. a feed inlet; 6. a guide plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to solve the technical problem of different sizes of the scraps, as shown in fig. 1-6, the following preferred technical solutions are provided:

a high-precision part processing machine tool with a scrap removing mechanism comprises a machine body 1 and a workbench 2, wherein a containing cavity is formed below the machine body 1, feed inlets 5 are formed in two sides of the top of the containing cavity, a collecting mechanism 3 is arranged in the containing cavity, and a spraying mechanism 4 is arranged below the collecting mechanism 3;

the collecting mechanism 3 comprises a fine filtering net cage 302 arranged in the accommodating cavity, a movable preliminary filtering net cage 301 is arranged above the fine filtering net cage 302, and moving components are arranged on two sides of the preliminary filtering net cage 301;

the moving assembly comprises rotatable reciprocating lead screws 307 arranged at two sides of the preliminary filtering net cage 301, the peripheral surfaces of the reciprocating lead screws 307 are connected with sliding blocks 306 capable of moving in a reciprocating mode along the axis of the reciprocating lead screws 307 through threads, and the sliding blocks 306 at two sides are close to one side and are used for being fixedly connected with the preliminary filtering net cage 301. Specifically, debris falls into the preliminary filtering net cage 301 from the feed inlets 5 on two sides of the workbench 2, the guide plate 6 guides the debris, the motor 313 is started to drive the driving bevel gear 311 to rotate through the output shaft, the driving bevel gear 311 rotates to drive the driven bevel gear 312 to rotate, the driven bevel gear 312 rotates to drive the reciprocating lead screw 307 to rotate, the driving pulley 308 at the other end of the reciprocating lead screw 307 rotates along with the reciprocating lead screw and drives the driven pulley 309 to rotate through the belt 310, the driven pulley 309 drives the reciprocating lead screw 307 on the other side to rotate, the reciprocating lead screws 307 on two sides synchronously rotate to drive the sliding block 306 to move, the sliding block 306 drives the preliminary filtering net cage 301 to slide on the T-shaped sliding rail 304 to screen the debris, fine debris falls into the fine filtering net cage 302, the cutting fluid falls into the collection box 401 through the fine filtering net cage 302, the circulating lead screw 404 pumps the cutting fluid into the return pipe 403, and the cutting fluid enters the spray nozzle 405 through the return pipe 403 to the workpiece and the cutter again.

The moving assembly further comprises a driving belt wheel 308 and a driven belt wheel 309 which are fixedly connected to the outer peripheral surface of one end of a reciprocating lead screw 307 on two sides, the driving belt wheel 308 is in transmission connection with the driven belt wheel 309 through a belt 310, the outer peripheral surface of the other end of the reciprocating lead screw 307 on one side is in key connection with a driven bevel gear 312, a driving bevel gear 311 is in transmission connection with the lower side of the driven bevel gear 312, the driving bevel gear 311 is in key connection with the outer peripheral surface of one end of an output shaft, the other end of the output shaft is fixedly connected to the output end of a motor 313 through a coupler, and the motor 313 is fixedly connected to one side of the accommodating cavity. Specifically, the motor 313 is started to drive the driving bevel gear 311 to rotate through the output shaft, the driving bevel gear 311 drives the driven bevel gear 312 to rotate, the driven bevel gear 312 drives the reciprocating lead screw 307 to rotate, the driving pulley 308 at the other end of the reciprocating lead screw 307 rotates along with the driving bevel gear and drives the driven pulley 309 to rotate through the belt 310, the driven pulley 309 drives the reciprocating lead screw 307 at the other end to rotate, the reciprocating lead screws 307 at the two sides synchronously rotate to drive the sliding block 306 to move, the sliding block 306 drives the primary filtering net cage 301 to slide on the T-shaped sliding rail 304 to screen the debris, and the fine debris falls into the fine filtering net cage 302.

The other end of the reciprocating lead screw 307 fixedly connected with the driving bevel gear 311 is used for arranging a driving pulley 308, and the reciprocating lead screw 307 far away from the driving bevel gear 311 is a driven pulley 309. Specifically, the driving pulley 308 rotates along with the driving pulley 309 and the belt 310 drives the driven pulley 309 to rotate, and the reciprocating screw 307 is driven by the synchronous rotation of the two sides to rotate synchronously and in the same direction.

Collecting mechanism 3 and still including the fixture block 305 of a plurality of equidistance equipartitions of fixed connection at preliminary filter net case 301 both ends lower surface, fixture block 305 is used for T shape slide rail 304 sliding contact, and T shape slider 306 fixed connection is at holding the cavity both ends, and T shape slide rail 304 below is used for setting up meticulous filter box 302, and meticulous filter box 302 places at the backup pad 303 upper surface that the symmetry set up, and backup pad 303 both ends fixed connection holds the cavity both ends. Specifically, the reciprocating screw rods 307 on the two sides rotate synchronously to drive the sliding block 306 to move, and the sliding block 306 drives the preliminary filtering net cage 301 to slide on the T-shaped sliding rail 304 to screen the debris.

The mesh number of the fine filter net cage 302 is larger than that of the preliminary filter net cage 301. Specifically, the mesh of the fine filtering net cage 302 is larger than that of the preliminary filtering net cage 301, so that the large and small debris in the debris are classified and collected, and the later-stage centralized treatment is facilitated.

The feed inlet 5 is provided with guide plates 6 which are symmetrically arranged and fixedly connected with the side wall of the cavity, and the guide plates 6 on the two sides are V-shaped. Specifically, the guide plate 6 guides the chips resulting from the cutting into the lower collection mechanism 3.

Spraying mechanism 4 is equipped with the water guide plate 402 of angle including placing collecting box 401 in holding the cavity bottom in the collecting box 401, and collecting box 401 has seted up delivery port 407 in the lower one side of height, and delivery port 407 fixed connection is in back flow 403 one end, and the through-hole fixedly connected with shower nozzle 405 on circulating water pump 404 and the deflector 6 is passed to the back flow 403 other end. Specifically, the cutting fluid falls into the collection box 401 through the fine filter net cage 302, the circulating water pump 404 pumps the cutting fluid into the return pipe 403, and the cutting fluid enters the spray head 405 through the return pipe 403 and is sprayed onto the workpiece and the cutter again.

A filter screen 406 is also installed at the water outlet 407. The filter screen 406 can further filter impurities in the cutting fluid, and prevent the backflow pipe 403 from being blocked by excessive impurities.

In summary, the following steps: the chips fall into the preliminary filtering net cage 301 from the feeding holes 5 on two sides of the workbench 2, the guide plate 6 guides the chips, the motor 313 is started to drive the driving bevel gear 311 to rotate through the output shaft, the driving bevel gear 311 rotates to drive the driven bevel gear 312 to rotate, the driven bevel gear 312 rotates to drive the reciprocating lead screw 307 to rotate, the driving pulley 308 at the other end of the reciprocating lead screw 307 rotates along with the driving bevel gear and drives the driven pulley 309 to rotate through the belt 310, the driven pulley 309 drives the reciprocating lead screw 307 at the other side to rotate, the reciprocating lead screws 307 on two sides synchronously rotate to drive the sliding block 306 to move, the sliding block 306 drives the preliminary filtering net cage 301 to slide on the T-shaped sliding rail 304 to screen the chips, the fine chips fall into the fine filtering net cage 302, the cutting fluid falls into the collecting box 401 through the fine filtering net cage 302, the circulating water pump 404 extracts the cutting fluid into the return pipe 403, and the cutting fluid enters the spray nozzle 405 through the return pipe 403 to the workpiece and the cutter again.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a high accuracy part processing machine tool with remove bits mechanism, includes organism (1) and workstation (2), its characterized in that: a containing cavity is formed below the machine body (1), feed inlets (5) are formed in two sides of the top of the containing cavity, a collecting mechanism (3) is arranged in the containing cavity, and a spraying mechanism (4) is arranged below the collecting mechanism (3);

the collecting mechanism (3) comprises a fine filtering net cage (302) arranged in the accommodating cavity, a movable preliminary filtering net cage (301) is arranged above the fine filtering net cage (302), and moving components are arranged on two sides of the preliminary filtering net cage (301);

the moving assembly comprises rotatable reciprocating lead screws (307) arranged at two sides of the preliminary filtering net cage (301), the peripheral surfaces of the reciprocating lead screws (307) are connected with sliding blocks (306) capable of moving in a reciprocating mode along the axis of the reciprocating lead screws (307) through threads, and the sliding blocks (306) at the two sides are close to one side and are used for fixedly connecting the preliminary filtering net cage (301).

2. A high-precision parts processing machine with chip removing mechanism according to claim 1, characterized in that: the moving assembly further comprises a driving belt wheel (308) and a driven belt wheel (309) which are fixedly connected to the outer peripheral surface of one end of a reciprocating lead screw (307) on two sides, the driving belt wheel (308) is in transmission connection with the driven belt wheel (309) through a belt (310), the outer peripheral surface of the other end of the reciprocating lead screw (307) on one side is in key connection with a driven bevel gear (312), the lower side of the driven bevel gear (312) is in transmission connection with a driving bevel gear (311), the driving bevel gear (311) is in key connection with the outer peripheral surface of one end of an output shaft, the other end of the output shaft is fixedly connected to the output end of a motor (313) through a coupler, and the motor (313) is fixedly connected to one side of the accommodating cavity.

3. A high-precision parts processing machine tool with chip removing mechanism according to claim 2, characterized in that: the other end of the reciprocating lead screw (307) fixedly connected with the driving bevel gear (311) is used for arranging a driving belt wheel (308), and the reciprocating lead screw (307) far away from the driving bevel gear (311) is a driven belt wheel (309).

4. A high-precision parts processing machine tool with chip removing mechanism according to claim 1, characterized in that: collecting mechanism (3) and still including a plurality of equidistance equipartition fixture block (305) of fixed connection at preliminary filter box with a net (301) both ends lower surface, fixture block (305) are used for T shape slide rail (304) sliding contact, T shape slider (306) fixed connection is at holding the cavity both ends, T shape slide rail (304) below is used for setting up meticulous filter box with a net (302), meticulous filter box with a net (302) are placed in backup pad (303) upper surface that the symmetry set up, backup pad (303) both ends fixed connection holds the cavity both ends.

5. A high-precision parts processing machine having a chip removing mechanism according to claim 4, wherein: the mesh number of the fine filtering net cage (302) is larger than that of the preliminary filtering net cage (301).

6. A high-precision parts processing machine tool with chip removing mechanism according to claim 1, characterized in that: feed inlet (5) department holds cavity lateral wall fixedly connected with guide plate (6) that the symmetry set up, and both sides guide plate (6) shape is "V" shape.

7. A high-precision parts processing machine with chip removing mechanism according to claim 1, characterized in that: the spraying mechanism (4) comprises a collecting box (401) placed at the bottom of the containing cavity, a water guide plate (402) with an angle is arranged in the collecting box (401), a water outlet (407) is formed in the lower side of the height of the collecting box (401), the water outlet (407) is fixedly connected to one end of a return pipe (403), and the other end of the return pipe (403) penetrates through holes in a circulating water pump (404) and a guide plate (6) and is fixedly connected with a spray head (405).

8. A high-precision parts processing machine having a chip removing mechanism according to claim 7, wherein: a filter screen (406) is also arranged at the water outlet (407).

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