CN113752092A - Super large stroke combination formula processing lines - Google Patents

Abstract

The invention provides an ultra-large stroke combined machining production line, which comprises a numerical control machine tool body, wherein the numerical control machine tool body comprises a machine tool base, an opening is formed in the machine tool base, two groups of supporting rods are transversely and fixedly installed at the top of the machine tool base, a machine tool workbench is transversely and slidably connected onto the two groups of supporting rods, a product die holder is arranged at the top of the machine tool workbench, and a rotary positioning mechanism is arranged between the machine tool workbench and the product die holder. Need not to take off large-scale work piece, the practicality is strong, and machining efficiency is high.

Description

Super large stroke combination formula processing lines

The invention relates to the technical field of machining production, in particular to a combined machining production line with an ultra-large stroke.

Background

In the manufacturing process of machine parts, all machining processes of workpieces are reasonably arranged on a plurality of machine tools and are connected into a whole by using a conveying device and an auxiliary device, and the workpieces to be machined pass through all machining equipment according to the process flow sequence under the action of the conveying device to complete all machining tasks of the workpieces, and the production line is called a machining production line.

The existing machining production line can often encounter some large-scale workpieces, the machine tool stroke of machining is insufficient, the workpieces cannot be completely machined at one time, the product size exceeds the machine tool stroke and exceeds the size of a machine tool workbench, if the machine tool is divided into a half and taken down, the deformation of large part materials and clamping errors cannot be controlled, and the machining efficiency is low.

Meanwhile, after the product is machined, the machined product materials can fall on a collecting plate below a machine tool workbench, and the machined product materials are collected by workers.

Disclosure of Invention

In order to remedy the above-mentioned drawbacks, the present invention provides a combined machining line with very large stroke that overcomes or at least partially solves the above-mentioned technical problems.

The invention is realized by the following steps:

the invention provides an ultra-large stroke combined machining production line, which comprises a numerical control machine tool body, wherein the numerical control machine tool body comprises a machine tool base, an opening is formed in the machine tool base, two groups of support rods are transversely and fixedly installed at the top of the machine tool base, a machine tool workbench is transversely and slidably connected onto the two groups of support rods, a product die holder is arranged at the top of the machine tool workbench, a rotary positioning mechanism is arranged between the machine tool workbench and the product die holder and drives the product die holder to rotate on the same plane, the product die holder can accurately rotate 180 degrees at the top of the machine tool workbench, a machining part is machined in the stroke of the numerical control machine tool body after the product die holder rotates, after one side is machined, the product die holder is rotated to complete the machining of the other side, and the problem that the stroke of the numerical control machine tool body is insufficient when a large-sized workpiece is machined can be effectively solved, the problems of material deformation and clamping errors caused by incomplete one-time machining are solved, a large workpiece does not need to be taken down, the practicability is high, and the machining efficiency is high;

the collecting mechanism is arranged at the bottom of the machine tool base and comprises a collecting frame, the collecting frame is fixedly arranged below the machine tool base, and the material falling into the collecting frame is rapidly cooled by water in the collecting frame, so that the cooling speed of the device for the material is further improved, and the recovery work of the material by a user is facilitated; the equal fixed mounting in bottom both sides of lathe base has the board of supporting, the equal slip joint in top both sides of collecting the frame has the slide, and is two sets of be provided with the collecting board between the slide, the collecting board slides and sets up in collecting the frame bottom, and the slide drives the collecting board and slides to one side, and the collecting board gathers refrigerated material, and the centralized processing material of being convenient for collects speed, improves work efficiency.

In an embodiment of the present invention, the rotary positioning mechanism includes a hollow column and a positioning column, the positioning column is fixedly installed at the top of the hollow column, a positioning groove is formed in the center of the top of the machine tool workbench, an annular groove is formed outside the positioning groove, the hollow column is clamped inside the annular groove, and the positioning column is clamped inside the positioning groove.

In one embodiment of the invention, the round head block is fixedly mounted at the top of the hollow column, the groove is formed in the center of the bottom of the product die holder, the round head block is clamped inside the groove, the hollow column and the positioning column are matched with the positioning groove and the annular groove for use, the round head block can be accurately guided into the top of the machine tool workbench, the product die holder can always rotate on the same plane through the matching of the groove and the round head block, the rotating smoothness is ensured, and the machine tool workbench is prevented from being scratched.

In one embodiment of the invention, the bottom of the product die holder is fixedly provided with a first limiting block close to the top end and the bottom end, and the two sides of the bottom of the product die holder are fixedly provided with a second limiting block.

In one embodiment of the invention, the top part of the machine tool workbench close to the top end and the bottom end is provided with first limiting grooves, the two sides of the top part of the machine tool workbench are provided with second limiting grooves, each first limiting block is clamped in the corresponding first limiting groove, each second limiting block is clamped in the corresponding second limiting groove, the first limiting block and the limiting groove are matched with the second limiting block and the second limiting groove in a matched manner, so that the accurate positioning of the product die holder can be realized, meanwhile, the workpiece on the product die holder can be prevented from rotating in the machining process, the problems of material deformation and clamping errors caused by incomplete one-time machining of the machine tool stroke when a large workpiece is machined can be effectively solved, the large workpiece does not need to be taken down, the practicability is strong, the machining efficiency is high, and when the round head block is matched with the groove product die holder to rotate, when every equal joint of first stopper in the second stopper inside, every equal joint of second stopper in corresponding first spacing inslot portion, at this moment, the product die holder just in time rotates 180, convenient and fast, and operating efficiency is high.

In an embodiment of the invention, connecting blocks are fixedly mounted on opposite sides of the two groups of sliding seats, supporting rods are connected to the two groups of connecting blocks in a sliding manner, and two ends of each supporting rod respectively penetrate through the corresponding connecting block.

In an embodiment of the present invention, the bottom end of each support rod is fixedly connected to the top of the collecting plate, the top end of each support rod is fixedly connected to a support block, a spring is fixedly connected between the top of each connecting block and the bottom of the support block, and each support rod penetrates through the corresponding spring.

In an embodiment of the invention, an ear seat is fixedly installed at the top of each supporting block, a roller is connected to each ear seat in a pin mode, each roller can roll at the bottom of the corresponding abutting plate in a circulating mode, when the sliding seat slides to one side along the top of the collecting frame, under the action of compression of the spring, the roller rolls at the bottom of the abutting plate and extrudes the collecting plate downwards, the bottom end of the collecting plate is made to cling to the bottom of the collecting frame, and the collecting plate pushes materials to one side, so that the materials are pushed more comprehensively.

In one embodiment of the invention, a pull rod is fixedly installed on one side of each sliding seat, a handle sleeve is fixedly sleeved on one end of each pull rod, and the sliding seats can be pulled to slide by holding the pull rods.

In an embodiment of the invention, a filter opening is formed in the collecting plate, a filter screen is fixedly mounted in the filter opening, and the filter screen can filter materials on one side of the collecting plate and filter fragments falling from the materials.

The invention has the beneficial effects that:

1. according to the combined machining production line with the ultra-large stroke, which is obtained through the design, the product die holder can be precisely rotated by 180 degrees at the top of the machine tool workbench, so that the machined part of the product die holder after rotation is machined in the stroke of the numerical control machine tool body, and after one side is machined, the product die holder is rotated to complete the machining of the other side, so that the problems of material deformation and clamping errors caused by incomplete one-time machining due to insufficient machine tool stroke can be effectively solved when a large workpiece is machined, the large workpiece does not need to be taken down, the practicability is high, and the machining efficiency is high;

2. the hollow column and the positioning column are matched with the positioning groove and the annular groove for use, so that the round head block can be accurately guided into the top of the machine tool workbench, the product die holder can always rotate on the same plane through the matching of the groove and the round head block, the rotating smoothness is ensured, the machine tool workbench is prevented from being scratched conveniently and quickly, and the operating efficiency is high;

3. the material falling into the collecting frame is rapidly cooled by the water in the collecting frame, so that the cooling speed of the device for the material is further improved, and the recovery work of a user for the material is facilitated;

4. the sliding seat is pulled to slide to one side through the pull rod, so that the collecting plate is driven to slide to one side, the collecting plate collects cooled materials, the materials are conveniently and intensively treated, the collecting speed is increased, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a perspective view of a very large stroke combined machining line provided in accordance with an embodiment of the present invention;

FIG. 2 is an exploded perspective view of a rotational positioning mechanism of a very large stroke combined machining line in accordance with an embodiment of the present invention;

fig. 3 is a schematic bottom view of a product die holder of a combined machining line with a very large stroke according to an embodiment of the present invention;

FIG. 4 is a schematic view of a front cross-sectional structure of a collecting frame of a combined machining line with a very large stroke according to an embodiment of the present invention;

FIG. 5 is a schematic side sectional view of a collecting frame of a combined machining line with a very large stroke according to an embodiment of the present invention;

fig. 6 is a partial perspective view of a collecting plate of a combined machining line with a very large stroke according to an embodiment of the present invention.

In the figure: 101. a numerical control machine tool body; 102. a machine tool base; 103. a machine tool table; 104. a product die holder; 105. a port; 106. a support bar; 200. a rotary positioning mechanism; 201. a hollow column; 202. a positioning column; 203. a round head block; 204. positioning a groove; 205. an annular groove; 206. a first limit groove; 207. a second limit groove; 208. a groove; 209. a first stopper; 210. a second limiting block; 300. a collection mechanism; 301. a collection frame; 302. a resisting plate; 303. a slide base; 304. connecting blocks; 305. a support bar; 306. a spring; 307. a support block; 308. an ear mount; 309. a roller; 310. a collection plate; 311. a filter port; 312. a filter screen; 313. a pull rod; 314. a handle sleeve.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Examples

Referring to fig. 1-6, the present invention provides a technical solution: a combined machining production line with an ultra-large stroke comprises a numerically-controlled machine tool body 101, wherein the numerically-controlled machine tool body 101 comprises a machine tool base 102, a through hole 105 is formed in the machine tool base 102, two groups of supporting rods 106 are transversely and fixedly installed at the top of the machine tool base 102, a machine tool workbench 103 is transversely and slidably connected to the two groups of supporting rods 106, a product die holder 104 is arranged at the top of the machine tool workbench 103, a rotary positioning mechanism 200 is arranged between the machine tool workbench 103 and the product die holder 104, the rotary positioning mechanism 200 drives the product die holder 104 to rotate on the same plane, the product die holder 104 can accurately rotate 180 degrees at the top of the machine tool workbench 103, a machining part of the product die holder 104 after rotation is in the stroke of the numerically-controlled machine tool body 101, after one side is machined, the product die holder 104 is rotated to complete machining of the other side, and the problem that when a large-sized workpiece is machined, the stroke of the numerically-controlled machine tool body 101 is insufficient can be effectively solved, the problem of material deformation and clamping error caused by incomplete one-time processing is solved, a large-sized workpiece does not need to be taken down, the practicability is high, and the processing efficiency is high.

The bottom of machine tool base 102 is provided with collects mechanism 300, collects mechanism 300 and includes collection frame 301, collects frame 301 fixed mounting in machine tool base 102's below, cools off fast through collecting the inside water of frame 301 to falling into the inside material of collecting frame 301 to further improved the device to the cooling rate of material, made things convenient for the recovery work of user to the material.

Equal fixed mounting in bottom both sides of lathe base 102 has to support board 302, and the joint that all slides in the top both sides of collecting frame 301 has slide 303, is provided with collecting plate 310 between two sets of slides 303, and collecting plate 310 slides and sets up in collecting frame 301 bottom, and slide 303 drives collecting plate 310 and slides to one side, and collecting plate 310 gathers refrigerated material, and the centralized processing material of being convenient for accelerates the collection speed, improves work efficiency.

The rotary positioning mechanism 200 comprises a hollow column 201 and a positioning column 202, the positioning column 202 is fixedly installed at the top of the hollow column 201, a positioning groove 204 is formed in the center of the top of the machine tool workbench 103, an annular groove 205 is formed in the outer portion of the positioning groove 204, the hollow column 201 is connected to the inside of the annular groove 205 in a clamped mode, and the positioning column 202 is connected to the inside of the positioning groove 204 in a clamped mode.

Hollow column 201's top fixed mounting has round head piece 203, product die holder 104 bottom central point puts and sets up fluted 208, round head piece 203 joint is in fluted 208's inside, use through hollow column 201 and reference column 202 and constant head tank 204 and ring channel 205 cooperation, can be with the accurate leading-in lathe workstation 103's of round head piece 203 top, can make product die holder 104 rotate at the coplanar all the time through recess 208 and the cooperation of round head piece 203, guarantee the pivoted smooth and easy nature, avoid scraping lathe workstation 103.

First limit blocks 209 are fixedly arranged at the bottom part of the product die holder 104 close to the top end and the bottom end, second limit blocks 210 are fixedly arranged at two sides of the bottom part of the product die holder 104, first limit grooves 206 are respectively arranged at the top part of the machine tool workbench 103 close to the top end and the bottom end, second limit grooves 207 are respectively arranged at two sides of the top part of the machine tool workbench 103, each first limit block 209 is clamped in the corresponding first limit groove 206, each second limit block 210 is clamped in the corresponding second limit groove 207, the first limit blocks 209 and the limit grooves 206 are matched with the second limit blocks 210 and the second limit grooves 207 by rain, accurate positioning of the product die holder 104 can be realized, meanwhile, the rotation of workpieces on the product die holder 104 in the machining process can be avoided, the problems of material deformation and clamping errors caused by incomplete one-time machining of insufficient machine tool stroke can be effectively solved when large workpieces are machined, need not to take off large-scale work piece, the practicality is strong, and machining efficiency is high.

When round head piece 203 cooperation recess 208 product die holder 104 rotates, inside every first stopper 209 equal joint in second stopper 210, inside every second stopper 210 equal joint in corresponding first spacing groove 206, at this moment, product die holder 104 just in time rotates 180, convenient and fast, and operating efficiency is high.

The equal fixed mounting in one side of two sets of slides 303 has connecting block 304, equal sliding connection has bracing piece 305 on two sets of connecting blocks 304, the both ends of every bracing piece 305 run through respectively in corresponding connecting block 304, the bottom of every bracing piece 305 all with the top fixed connection of collecting plate 310, the equal fixedly connected with supporting shoe 307 in top of every bracing piece 305, equal fixedly connected with spring 306 between the top of every connecting block 304 and the bottom of supporting shoe 307, every bracing piece 305 all runs through inside corresponding spring 306.

The top of each supporting block 307 is fixedly provided with an ear seat 308, each ear seat 308 is internally provided with a roller 309 in a pin joint mode, each roller 309 can circularly roll at the bottom of the corresponding supporting plate 302, when the sliding seat 303 slides to one side along the top of the collecting frame 301, under the action of compression of the spring 306, the roller 309 rolls at the bottom of the supporting plate 302, the collecting plate 310 is also extruded downwards, the bottom end of the collecting plate 310 is tightly attached to the bottom of the collecting frame 301, the collecting plate 310 pushes materials to one side, and the pushing of the materials is more comprehensive.

The equal fixed mounting in one side of every slide 303 has pull rod 313, and the one end of every pull rod 313 is all fixed to be equipped with handle cover 314, holds pull rod 313 and can stimulate slide 303 and slide, and filter opening 311 has been seted up to the inside of collecting plate 310, and the inside fixed mounting of filter opening 311 has filter screen 312, and filter screen 312 can filter the material of collecting plate 310 one side, filters the piece that drops on the material.

Specifically, this super large stroke combination formula processing lines's working process or theory of operation do: when the numerical control machine tool is used, a workpiece to be processed is fixed on the product die holder 104, one side of the workpiece is processed through the numerical control machine tool body 101, after one side is processed, the machine tool workbench 103 slides to the rightmost side, the product die holder 104 is rotated to complete the processing of the other side, the product die holder 104 can be rotated on the same plane all the time through the matching of the groove 208 and the round head block 203, the smoothness of rotation is ensured, the workpiece is prevented from being scratched to the machine tool workbench 103, when the round head block 203 is matched with the groove 208, the product die holder 104 rotates, when each first limiting block 209 is clamped inside each second limiting block 210, each second limiting block 210 is clamped inside the corresponding first limiting groove 206, at the moment, the product die holder 104 just rotates 180 degrees, the other side of the workpiece can be processed, the problems of material deformation and clamping errors caused by incomplete one-time processing due to insufficient stroke of the numerical control machine tool body 101 can be effectively solved, the large workpiece does not need to be taken down, the practicability is high, and the processing efficiency is high;

materials generated after the workpiece is processed fall into the collecting frame 301 through the through hole 105, water is injected into the collecting frame 301, and the water in the collecting frame 301 quickly cools the materials falling into the collecting frame 301, so that the cooling speed of the device for the materials is further improved, and the recovery work of a user for the materials is facilitated;

at this time, the slide carriage 303 is pulled to slide to one side by holding the pull rod 313, when the slide carriage 303 slides to one side along the top of the collection frame 301, under the action of the compression of the spring 306, the roller 309 rolls at the bottom of the abutting plate 302, and the collection plate 310 is also pressed downwards, so that the bottom end of the collection plate 310 is tightly attached to the bottom of the collection frame 301, and the collection plate 310 pushes the material to one side, so that the material is pushed more comprehensively; the material of collecting plate 310 one side can be filtered through filter screen 312 of collecting plate 310, filters the piece that drops on the material, improves the collection effect, and collecting plate 310 promotes refrigerated material to the rightmost portion in collecting frame 301, and the fixed intercommunication in one side of collecting frame 301 bottom has a collecting vessel, and collecting vessel bottom end threaded connection has the screw thread seat, derives the material from the collecting vessel in through rotating the screw thread seat.

It should be noted that the above-mentioned embodiments are merely preferred embodiments of the present invention, and the present invention is not limited thereto. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The combined machining production line with the ultra-large stroke comprises a numerical control machine tool body (101) and is characterized in that the numerical control machine tool body (101) comprises a machine tool base (102), a through opening (105) is formed in the machine tool base (102), two groups of supporting rods (106) are transversely and fixedly installed at the top of the machine tool base (102), a machine tool workbench (103) is transversely and slidably connected to the two groups of supporting rods (106), a product die holder (104) is arranged at the top of the machine tool workbench (103), a rotary positioning mechanism (200) is arranged between the machine tool workbench (103) and the product die holder (104), and the rotary positioning mechanism (200) drives the product die holder (104) to rotate on the same plane;

the bottom of lathe base (102) is provided with collects mechanism (300), collect mechanism (300) including collecting frame (301), collect frame (301) fixed mounting in the below of lathe base (102), the equal fixed mounting in bottom both sides of lathe base (102) has to support board (302), the joint that all slides in the top both sides of collecting frame (301) has slide (303), and is two sets of be provided with between slide (303) and collect board (310), it slides and sets up in collecting frame (301) bottom to collect board (310).

2. The combined machining production line with the ultra-large stroke according to claim 1, wherein the rotary positioning mechanism (200) comprises a hollow column (201) and a positioning column (202), the positioning column (202) is fixedly installed at the top inside the hollow column (201), a positioning groove (204) is formed in the center of the top of the machine tool workbench (103), an annular groove (205) is formed outside the positioning groove (204), the hollow column (201) is clamped inside the annular groove (205), and the positioning column (202) is clamped inside the positioning groove (204).

3. The combined machining production line for the ultra-large stroke as claimed in claim 2, wherein a round head block (203) is fixedly mounted at the top of the hollow column (201), a groove (208) is formed in the center of the bottom of the product die holder (104), and the round head block (203) is clamped in the groove (208).

4. The combined machining production line with the ultra-large stroke as claimed in claim 3, wherein a first stopper (209) is fixedly mounted at the bottom of the product die holder (104) close to the top end and the bottom end, and a second stopper (210) is fixedly mounted at both sides of the bottom of the product die holder (104).

5. The combined machining production line with the ultra-large stroke as claimed in claim 4, wherein the top of the machine tool workbench (103) close to the top end and the bottom end are respectively provided with a first limiting groove (206), the two sides of the top of the machine tool workbench (103) are respectively provided with a second limiting groove (207), each first limiting block (209) is clamped inside the corresponding first limiting groove (206), and each second limiting block (210) is clamped inside the corresponding second limiting groove (207).

6. The combined machining line for the ultra-large stroke according to claim 1, characterized in that connecting blocks (304) are fixedly mounted on opposite sides of two sets of the sliding bases (303), supporting rods (305) are slidably connected to the two sets of the connecting blocks (304), and two ends of each supporting rod (305) respectively penetrate through the corresponding connecting block (304).

7. The combined machining production line with the ultra-large stroke as claimed in claim 6, wherein the bottom end of each support rod (305) is fixedly connected with the top of the collecting plate (310), the top end of each support rod (305) is fixedly connected with a support block (307), a spring (306) is fixedly connected between the top of each connecting block (304) and the bottom of the support block (307), and each support rod (305) penetrates through the corresponding spring (306).

8. The combined processing line for ultra-large stroke according to claim 7, characterized in that an ear seat (308) is fixedly installed on the top of each supporting block (307), a roller (309) is pinned in each ear seat (308), and each roller (309) can roll circularly on the bottom of the corresponding abutting plate (302).

9. The combined machining line for ultra-large stroke according to claim 8, characterized in that a pull rod (313) is fixedly installed on one side of each slide seat (303), and a handle sleeve (314) is fixedly installed on one end of each pull rod (313).

10. The combined machining production line with the ultra-large stroke as claimed in claim 9, wherein a filtering opening (311) is formed in the collecting plate (310), and a filtering net (312) is fixedly installed in the filtering opening (311).

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