CN211492289U - Lathe is used in carborundum processing based on prism guide rail - Google Patents

Abstract

The utility model relates to a semiconductor processing technology field, concretely relates to is a lathe is used in carborundum processing based on prism guide rail, which comprises a frame, the headstock, carriage apron case and tail box, the inside fretwork of frame and frame interior symmetry are provided with two guide rails, be provided with the lead screw along guide rail extending direction between two guide rails, lead screw one end is connected with the tailstock in the frame, the other end is connected with the servo motor in the frame, the tail box is located on the guide rail, and keep away from servo motor, the headstock is located on the guide rail, and be close to servo motor, wherein the guide rail is the prism guide rail, the edges and corners of guide rail up, the guide rail bottom is provided with the guide rail seat, still be provided with the supplementary rail parallel with the guide rail on the guide rail seat, supplementary rail and guide rail all can dismantle. The problem of current lathe guide rail for the carborundum processing be the global design with the frame, the guide rail appears unusually to need carry out the overall change together with outside frame, has improved follow-up maintenance cost by a wide margin is solved.

Description

Lathe is used in carborundum processing based on prism guide rail

Technical Field

The utility model relates to a semiconductor processing technology field, concretely relates to are lathe is used in carborundum processing based on prism guide rail.

Background

The silicon carbide is prepared by smelting quartz sand, petroleum coke or coal coke, sawdust and other raw materials in a resistance furnace at high temperature, and is further processed after production by using various processing instruments.

Chinese patent publication No. CN208556000U discloses that "a novel lathe" has many advantages when it is used, but because its guide rail and frame are designed integrally, when the guide rail is abnormal, it needs to be replaced integrally together with the external frame, which greatly increases the subsequent maintenance cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses be the global design to current lathe guide rail for the carborundum processing and frame, appear unusually in the guide rail and need carry out the whole change with outside frame, improved the problem of follow-up maintenance cost by a wide margin, provide a lathe for the carborundum processing based on the prism guide rail.

The technical scheme who adopts is, a carborundum processing lathe based on prism guide rail includes the frame, the headstock, carriage apron case and tail box, the inside fretwork of frame and the symmetry are provided with two guide rails in the frame, be provided with the lead screw along guide rail extending direction between two guide rails, lead screw one end is connected with the tailstock in the frame, the other end is connected with the servo motor in the frame, the tail box is located on the guide rail, and keep away from servo motor, the headstock is located on the guide rail, and be close to servo motor, the carriage apron case is located between headstock and the tail box, and be located the guide rail, the carriage apron case can move on the guide rail under the lead screw drives, wherein the guide rail is the prism guide rail, the edges and corners of guide rail up, the guide rail bottom is provided with the guide rail seat, still be provided with the supplementary rail parallel with the guide rail on the guide rail seat, supplementary rail and guide rail.

Further, the bottom of the slide carriage box is provided with a supporting table, and the bottom of the supporting table is provided with a first connecting seat attached to the auxiliary rail and a second connecting seat attached to the guide rail.

Optionally, the upper surface of the auxiliary rail is provided with a first mounting groove, the auxiliary rail is detachably connected with the guide rail seat through a first fixing bolt inserted into the first mounting groove, the bottom of the first fixing bolt is inserted into the guide rail seat, the upper surface of the guide rail is provided with a second mounting groove, the guide rail is detachably connected with the guide rail seat through a second fixing bolt inserted into the second mounting groove, and the bottom of the second fixing bolt is inserted into the guide rail seat.

Optionally, the auxiliary rail is located between the guide rail and the screw rod, a part of the upper surface of the guide rail seat, which is far away from the screw rod, is inclined downwards, the inclination angle is 5-10 degrees, and the guide rail is located on the inclined surface of the guide rail seat.

Furthermore, the first fixing bolt and the second fixing bolt are both hexagon bolts.

Optionally, a first oil storage groove and a second oil storage groove are formed in the guide rail seat, the first oil storage groove is located on two sides of the auxiliary rail, a first oil leakage groove is formed in the side face of the auxiliary rail, engine oil on the auxiliary rail can enter the first oil storage groove from the first oil leakage groove, the second oil storage groove is located on two sides of the guide rail, the second oil leakage groove is formed in the prismatic face of the two sides of the guide rail, and the engine oil on the guide rail can enter the second oil storage groove from the second oil leakage groove.

The utility model has the advantages that at least one of the following advantages is included;

1. through set up the guide rail seat in the frame to adopt the guide rail of prism, more easily install on the guide rail seat than conventional square guide rail, and also be convenient for process, can dismantle the guide rail with the guide rail seat simultaneously and be connected, only need change the guide rail of damage when carrying out equipment maintenance, saved maintenance cycle and maintenance cost by a wide margin.

2. Through set up supplementary rail on the guide rail seat, the height of supplementary rail is less than the guide rail, assists fixedly to whole brace table, improves the security of brace table operation.

3. Through set up oil leakage groove on guide rail and supplementary rail to set up the oil storage groove on the guide rail seat, when the connecting seat removed on guide rail and supplementary rail, can scrape the machine oil of guide rail inslot to the oil leakage inslot, and finally the storage is in the oil storage inslot, supplies the site work personnel to use repeatedly, has avoided machine oil to pile up the tip at guide rail and supplementary rail.

4. The problem of current lathe guide rail for the carborundum processing be the global design with the frame, the guide rail appears unusually to need carry out the overall change together with outside frame, has improved follow-up maintenance cost by a wide margin is solved.

Drawings

FIG. 1 is a schematic structural view of a diamond guide rail-based lathe for processing silicon carbide;

FIG. 2 is a schematic structural view of a detachable connection;

FIG. 3 is a schematic top view of the releasable attachment structure;

labeled as: 1 is the frame, 2 is the headstock, 3 is the saddle, 4 is the boot, 5 is servo motor, 6 is the tailstock, 7 is the lead screw, 8 is the guide rail, 9 is the guide rail seat, 10 is the brace table, 11 is first connecting seat, 12 is first mounting groove, 13 is first fixing bolt, 16 is first oil leakage groove, 18 is first oil storage groove, 19 is supplementary rail, 20 is the second fixing bolt, 21 is the second mounting groove, 22 is the second connecting seat, 23 is the second oil leakage groove, 24 is the second oil storage groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the scope of the invention.

As shown in fig. 1 to 3, a carborundum processing lathe based on prismatic guide rail includes frame 1, headstock 2, carriage apron 3 and tail box 4, frame 1 inside fretwork and frame 1 interior symmetry are provided with two guide rails 8, be provided with lead screw 7 along guide rail 8 extending direction between two guide rails 8, lead screw 7 one end is connected with tailstock 6 on the frame 1, the other end is connected with servo motor 5 on the frame 1, tail box 4 is located on guide rail 8, and keep away from servo motor 5, headstock 2 is located on guide rail 8, and be close to servo motor 5, carriage apron 3 is located between headstock 2 and the tail box 4, and be located on guide rail 8, carriage apron 3 can move on guide rail 8 under the lead screw 7 drives, its characterized in that: the guide rail 8 is a prismatic guide rail, the edge angle of the guide rail 8 faces upwards, the bottom of the guide rail 8 is provided with a guide rail seat 9, an auxiliary rail 19 parallel to the guide rail 8 is further arranged on the guide rail seat 9, the auxiliary rail 19 and the guide rail 8 are both detachably connected with the guide rail seat 9, and the auxiliary rail 19 is a square guide rail.

In the use, through set up the guide rail seat in the frame to adopt the guide rail of prism, more easily install on the guide rail seat than the square guide rail of conventionality, and also be convenient for process, can dismantle the guide rail with the guide rail seat simultaneously and be connected, only need change the guide rail of damage when carrying out equipment maintenance, saved maintenance cycle and maintenance cost by a wide margin. Through set up supplementary rail on the guide rail seat, the height of supplementary rail is less than the guide rail, assists fixedly to whole brace table, improves the security of brace table operation. The problem of current lathe guide rail for the carborundum processing be the global design with the frame, the guide rail appears unusually to need carry out the overall change together with outside frame, has improved follow-up maintenance cost by a wide margin is solved.

The embodiment provides a mode that the guide rail and the auxiliary rail are detachably connected with the guide rail seat, wherein the bottom of the slide carriage box 3 is provided with a support table 10, and the bottom of the support table 10 is provided with a first connecting seat 11 attached with the auxiliary rail 19 and a second connecting seat 22 attached with the guide rail 8. The upper surface of the auxiliary rail 19 is provided with a first mounting groove 12, the auxiliary rail 19 is detachably connected with the guide rail seat 9 through a first fixing bolt 13 inserted into the first mounting groove 12, the bottom of the first fixing bolt 13 is inserted into the guide rail seat 9, the upper surface of the guide rail 8 is provided with a second mounting groove 21, the guide rail 8 is detachably connected with the guide rail seat 9 through a second fixing bolt 20 inserted into the second mounting groove 21, and the bottom of the second fixing bolt 20 is inserted into the guide rail seat 9. The auxiliary rail 19 is positioned between the guide rail 8 and the screw rod 7, one part of the upper surface of the guide rail seat 9, which is far away from the screw rod 7, is inclined downwards, the inclination angle is 5-10 degrees, and the guide rail 8 is positioned on the inclined surface of the guide rail seat 9.

The purpose of designing like this is through locating the guide rail on the inclined plane of guide rail seat, is favorable to forming moment between guide rail and the supplementary rail, decomposes the extrusion force that the brace table produced, improves stability, and optimal inclination is 7.

In this embodiment, the guide rail base 9 is provided with a first oil storage groove 18 and a second oil storage groove 24, the first oil storage groove 18 is located on two sides of the auxiliary rail 19, the side surface of the auxiliary rail 19 is provided with a first oil leakage groove 16, the machine oil on the auxiliary rail 19 can enter the first oil storage groove 18 from the first oil leakage groove 16, the second oil storage groove 24 is located on two sides of the guide rail 8, the prismatic surface of the guide rail 8 located on two sides is provided with a second oil leakage groove 23, and the machine oil on the guide rail 8 can enter the second oil storage groove 24 from the second oil leakage groove 23.

In the use, set up first oil drain groove on supplementary rail, set up the second oil drain groove on the guide rail, and set up first oil storage groove and second oil storage groove on the guide rail seat, when moving above that with supplementary rail and guide rail assorted connecting seat, with the part of rather than laminating on the connecting seat, can scrape the machine oil on its surface to respective oil drain inslot, then store in the final inflow oil storage groove along the oil drain groove, supply the field work personnel to use repeatedly, the tip of having avoided machine oil to pile up at the guide rail.

When installing the guide rail and/or the auxiliary rail, a person skilled in the art can select a plurality of guide rails and/or auxiliary rails to install on the guide rail seat in sections, the fixing bolts used are hexagon bolts, as the preferable guide rail and/or auxiliary rail, the head and the tail of the preferable guide rail and/or auxiliary rail should be provided with installation grooves capable of installing the fixing bolts, and the guide rail seat should also be provided with installation holes with matched intervals.

Claims (6)

1. A diamond guide rail-based lathe for processing silicon carbide comprises a frame (1), a spindle box (2), a slide carriage box (3) and a tail box (4), wherein the frame (1) is hollow, two guide rails (8) are symmetrically arranged in the frame (1), a screw rod (7) is arranged between the two guide rails (8) along the extension direction of the guide rails (8), one end of the screw rod (7) is connected with a tailstock (6) on the frame (1), the other end of the screw rod is connected with a servo motor (5) on the frame (1), the tail box (4) is arranged on the guide rails (8) and is far away from the servo motor (5), the spindle box (2) is arranged on the guide rails (8) and is close to the servo motor (5), the slide carriage box (3) is arranged between the spindle box (2) and the tail box (4) and is arranged on the guide rails (8), the slide carriage box (3) can move on the guide rails (8) under the driving of the screw rod (7), the method is characterized in that: guide rail (8) are the prism guide rail, and the edges and corners of guide rail (8) up, and guide rail (8) bottom is provided with guide rail seat (9), still be provided with on guide rail seat (9) with guide rail (8) parallel supplementary rail (19), supplementary rail (19) and guide rail (8) all can be dismantled with guide rail seat (9) and be connected, supplementary rail (19) are square guide rail.

2. A prismatic guide-based lathe for machining silicon carbide according to claim 1, wherein: the slide carriage box is characterized in that a supporting table (10) is arranged at the bottom of the slide carriage box (3), and a first connecting seat (11) attached to the auxiliary rail (19) and a second connecting seat (22) attached to the guide rail (8) are arranged at the bottom of the supporting table (10).

3. A prismatic guide-based lathe for machining silicon carbide according to claim 2, wherein: the utility model discloses a guide rail, including supplementary rail (19), guide rail seat (9), guide rail (8), guide rail (19) upper surface, first fixing bolt (13) and the guide rail seat (9) of supplementary rail (19) through inserting first mounting groove (12) can be dismantled and be connected, first fixing bolt (13) bottom inserts in guide rail seat (9), guide rail (8) upper surface is provided with second mounting groove (21), and guide rail (8) can be dismantled with guide rail seat (9) through second fixing bolt (20) that insert second mounting groove (21) and be connected, second fixing bolt (20) bottom inserts in guide rail seat (9).

4. A prismatic guide rail-based silicon carbide turning lathe as claimed in claim 3, wherein: the auxiliary rail (19) is positioned between the guide rail (8) and the screw rod (7), one part of the upper surface of the guide rail seat (9), which is far away from the screw rod (7), is inclined downwards, the inclination angle is 5-10 degrees, and the guide rail (8) is positioned on the inclined surface of the guide rail seat (9).

5. A prismatic guide rail-based silicon carbide turning lathe as claimed in claim 3, wherein: the first fixing bolt (13) and the second fixing bolt (20) are both hexagon bolts.

6. A prismatic guide-based lathe for machining silicon carbide according to claim 5, wherein: be provided with first oil storage groove (18) and second oil storage groove (24) on guide rail seat (9), first oil storage groove (18) are located supplementary rail (19) both sides, the side of supplementary rail (19) is provided with first oil drain groove (16), and machine oil on supplementary rail (19) can get into first oil storage groove (18) from first oil drain groove (16), second oil storage groove (24) are located guide rail (8) both sides, the prismatic surface that guide rail (8) are located both sides is provided with second oil drain groove (23), and machine oil on guide rail (8) can get into second oil storage groove (24) from second oil drain groove (23).

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