CN220862749U - Numerical control lathe convenient to equipment - Google Patents

Abstract

The utility model discloses a numerical control lathe convenient to assemble, which belongs to the technical field of numerical control lathes, and adopts the technical scheme that the numerical control lathe comprises a lathe tailstock body and a bottom plate, wherein the bottom plate is arranged at the bottom of the lathe tailstock body, a mounting mechanism for quickly disassembling and assembling the lathe tailstock body is arranged in the bottom plate, a moving assembly for conveniently moving the mounting mechanism is arranged in the mounting mechanism, the lathe tailstock body can be conveniently and quickly mounted on the bottom plate through the mounting mechanism when in use, the mechanical mechanism is a mechanical mechanism, frequent maintenance and overhaul are not needed for the mechanical mechanism, the maintenance cost is relatively low, the effects of convenience and rapidness and cost saving when the lathe tailstock body is realized, the mounting mechanism can be quickly taken out through the moving assembly when in use, and then the lathe tailstock body is taken out from the mounting mechanism, so that the time consumed when the lathe tailstock body is taken down is greatly improved.

Description

Numerical control lathe convenient to equipment

Technical Field

The utility model relates to the technical field of numerically controlled lathes, in particular to a numerically controlled lathe convenient to assemble.

Background

The numerically controlled lathe is one of widely used numerically controlled machine tools, and is mainly used for cutting machining of inner and outer cylindrical surfaces of shaft parts or disc parts, inner and outer conical surfaces of any cone angle, complex rotation inner and outer curved surfaces, cylindrical threads, conical threads and the like, grooving, drilling, reaming, boring and the like.

The existing tailstock is mainly fastened and connected with a machine tool through bolts, but certain problems exist in the process of using the bolts for connection, after the bolts are screwed down, the bolts are difficult to unscrew due to the fact that the bolts are difficult to rust and solidify between the bolts and the machine tool for a long time, and maintenance and repair difficulty of the tailstock are increased.

The current announcements are: the utility model patent of CN216680252U discloses a numerical control lathe convenient to equipment, it is through setting up fixed column, spacing head, be convenient for fix the lathe tailstock main part on the base, the fixed column, spacing head replace traditional bolt fastening, the problem that the fixed column is difficult to dismantle after having avoided long time, small-size pneumatic cylinder one, small-size pneumatic cylinder two and spacing head's design, be convenient for carry out spacing fixed to the fixed column, make the lathe tailstock main part firmly fixed on the base, simultaneously when the lathe tailstock main part is required to be dismantled, small-size pneumatic cylinder one, small-size pneumatic cylinder two shrink behind the telescopic link control spacing head, remove the fixed to the fixed column, make the lathe tailstock main part be convenient for assemble.

For above-mentioned problem, current patent has given the solution, but its design through small-size pneumatic cylinder one, small-size pneumatic cylinder two and spacing head when using is convenient for carry out spacing fixedly to the fixed column for lathe tailstock main part is firmly fixed on the base, when using small-size pneumatic cylinder, still need frequent maintenance and overhaul it, and maintenance cost is great.

For this reason, a numerical control lathe convenient to assemble is proposed.

Disclosure of utility model

1. Technical problem to be solved

The utility model provides a numerical control lathe convenient to assemble, and aims to solve the problems that an existing numerical control lathe convenient to assemble is convenient to limit and fix a fixed column through the design of a first small hydraulic cylinder, a second small hydraulic cylinder and a limiting head, so that a lathe tailstock main body is firmly fixed on a base, and the small hydraulic cylinder is required to be frequently maintained and overhauled when being used, and the maintenance cost is high.

2. Technical proposal

The utility model discloses a numerical control lathe convenient to assemble, which comprises a lathe tailstock body and a bottom plate, wherein the bottom plate is arranged at the bottom of the lathe tailstock body;

The mounting mechanism comprises a mounting groove, a mounting block, a limiting groove, a limiting rod and a moving groove, wherein the mounting groove is formed in the top of the bottom plate, the mounting block is welded to the bottom of the lathe tailstock body, the limiting groove is formed in the bottom plate, the limiting rod is slidably connected to the inside of the limiting groove, the moving groove is formed in one end of the limiting groove, the diameter of the moving groove is larger than that of the limiting groove, and one end of the limiting groove extends to the inside of the mounting block.

In order to facilitate movement of the limiting rod and take out the lathe tailstock body conveniently, the numerical control lathe convenient to assemble is preferable in the utility model, the moving assembly comprises a limiting block and a handle, the limiting block is welded at one end of the limiting rod, and the handle is welded on the outer wall of the limiting block.

In order to save manpower, the limiting rod can be automatically reset, and the numerical control lathe convenient to assemble is preferable in the utility model, a spring is welded on the outer wall of the limiting block, and one end of the spring is welded with one side wall of the movable groove.

In order to prevent external impurities from entering the moving groove, as a numerical control lathe convenient to assemble, preferably, one side of the bottom plate is in threaded connection with a sealing cover which is made of stainless steel and is used for preventing the external impurities from entering the moving groove.

In order to prevent the sealing cover from being lost, as a numerical control lathe convenient to assemble, preferably, a connecting rope is arranged on the outer wall of the bottom plate, and one end of the connecting rope is welded with the outer wall of the sealing cover.

In order to prevent sundries from entering the bottom of the bottom plate to cause the lathe tailstock body to incline, the bottom of the bottom plate is bonded with a sealing gasket which is made of rubber and is convenient to assemble, and the sealing gasket is used for preventing sundries from entering the bottom of the bottom plate to cause the lathe tailstock body to incline.

In order to facilitate the removal of the sealing cover, the numerical control lathe which is convenient to assemble is preferable, and a plurality of groups of anti-slip pads which are convenient to remove the sealing cover are circumferentially distributed on the outer wall of the sealing cover.

In order to increase the elasticity of the spring, the numerical control lathe which is convenient to assemble is preferably made of titanium alloy.

3. Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the installation mechanism is arranged, so that the lathe tailstock body can be conveniently and rapidly installed on the bottom plate through the installation mechanism when the lathe tailstock is used, the installation mechanism adopts a mechanical mechanism, frequent maintenance and overhaul of the mechanical mechanism are not needed, the maintenance cost is relatively low, and the effects of convenience, rapidness and cost saving when the lathe tailstock body is installed are achieved.

2. According to the utility model, the moving assembly is arranged, so that the mounting mechanism can be quickly taken out through the moving assembly when the lathe tail seat is used, and then the lathe tail seat body is taken out from the mounting mechanism, so that the time consumed when the lathe tail seat body is taken down is greatly improved.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a schematic view of the mounting mechanism and moving assembly of the present utility model;

FIG. 3 is a left side view of the present utility model;

FIG. 4 is a perspective cross-sectional view of the utility model at A-A in FIG. 3;

fig. 5 is an enlarged view of the utility model at a in fig. 4.

The reference numerals in the figures illustrate:

1. a lathe tailstock body; 2. a bottom plate; 3. a mounting mechanism; 4. a moving assembly; 5. a spring; 6. sealing cover; 7. a connecting rope; 8. a sealing gasket; 9. an anti-slip pad; 301. a mounting groove; 302. a mounting block; 303. a limit groove; 304. a limit rod; 305. a moving groove; 401. a limiting block; 402. a handle.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1-5, the present utility model provides the following technical solutions: the numerical control lathe convenient to assemble comprises a lathe tailstock body 1 and a bottom plate 2, wherein the bottom plate 2 is arranged at the bottom of the lathe tailstock body 1, an installation mechanism 3 for rapidly disassembling and assembling the lathe tailstock body 1 is arranged in the bottom plate 2, and a moving assembly 4 convenient for moving the installation mechanism 3 is arranged in the installation mechanism 3;

The mounting mechanism 3 comprises a mounting groove 301, a mounting block 302, a limiting groove 303, a limiting rod 304 and a moving groove 305, wherein the mounting groove 301 is formed in the top of the bottom plate 2, the mounting block 302 is welded to the bottom of the lathe tailstock body 1, the limiting groove 303 is formed in the bottom plate 2, the limiting rod 304 is slidably connected in the limiting groove 303, the moving groove 305 is formed in one end of the limiting groove 303, the diameter of the moving groove 305 is larger than that of the limiting groove 303, and one end of the limiting groove 303 extends to the inside of the mounting block 302.

In this embodiment: by providing the mounting groove 301, the mounting block 302, the limiting groove 303, the limiting rod 304 and the moving groove 305, the bottom plate 2 is placed at the bottom of the lathe tailstock body 1 in use, then the mounting block 302 is aligned with the mounting groove 301, the mounting block 302 is inserted into the mounting groove 301, then the limiting rod 304 is inserted into the limiting groove 303, at this time, the limiting rod 304 extends to the inside of the mounting block 302, and at this time, the mounting block 302 and the lathe tailstock body 1 are fixed.

As a technical optimization scheme of the utility model, the moving assembly 4 comprises a limiting block 401 and a handle 402, wherein the limiting block 401 is welded at one end of the limiting rod 304, and the handle 402 is welded on the outer wall of the limiting block 401.

In this embodiment: by arranging the limiting block 401 and the handle 402, the limiting rod 304 can be rapidly moved by the handle 402 when the limiting rod 304 is moved, and convenience in moving the limiting rod 304 is improved.

As a technical optimization scheme of the utility model, a spring 5 is welded on the outer wall of the limiting block 401, and one end of the spring 5 is welded with one side wall of the moving groove 305.

In this embodiment: by arranging the spring 5, after the user finishes moving the limit rod 304, the user does not need to manually move the limit rod 304 to the inside of the installation block 302, and the elastic force of the spring 5 can enable the limit rod 304 to automatically move to the inside of the installation block 302.

As a technical optimization scheme of the utility model, one side of the bottom plate 2 is in threaded connection with a sealing cover 6 for preventing external sundries from entering the moving groove 305, and the sealing cover 6 is made of stainless steel.

In this embodiment: by providing the seal cover 6, the seal cover 6 can prevent chips generated during lathe machining from entering the inside of the movable groove 305 to cause the movable groove 305 to be blocked, and the cleanliness of the inside of the movable groove 305 is increased.

As a technical optimization scheme of the utility model, the outer wall of the bottom plate 2 is provided with a connecting rope 7, and one end of the connecting rope 7 is welded with the outer wall of the sealing cover 6.

In this embodiment: through setting up connecting rope 7, connecting rope 7 can be with sealed lid 6 and bottom plate 2 connection when using, prevents sealed lid 6 loss.

As the technical optimization scheme of the utility model, the bottom of the bottom plate 2 is adhered with the sealing gasket 8 for preventing sundries from entering the bottom of the bottom plate 2 to cause the lathe tailstock body 1 to incline, and the sealing gasket 8 is made of rubber.

In this embodiment: through setting up sealed 8, sealed lid 6 can prevent that the piece that produces when processing from getting into the bottom of bottom plate 2 when using from leading to lathe tailstock body 1 to produce the slope, has increased the stability of lathe tailstock body 1.

As a technical optimization scheme of the utility model, a plurality of groups of anti-slip pads 9 which are convenient for taking down the sealing cover 6 are circumferentially distributed on the outer wall of the sealing cover 6.

In this embodiment: by providing the anti-slip pad 9, the anti-slip pad 9 can prevent slipping between the hand of the user and the sealing cover 6 when in use, thereby improving the speed of taking down the sealing cover 6.

As a technical optimization scheme of the utility model, the spring 5 is made of titanium alloy.

In this embodiment: by providing the spring 5 of titanium alloy, which is a light but high strength material with good corrosion resistance, the spring 5 of titanium alloy is typically used for applications requiring low weight and high strength, providing a range of spring forces.

Working principle: the bottom plate 2 is a part of the whole lathe, then move the gag lever post 304 through the handle 402 that can be quick when removing the gag lever post 304, then place the bottom plate 2 in the bottom of lathe tailstock body 1, then aim at mounting block 302 mounting groove 301, make the inside of mounting block 302 insert mounting groove 301, then insert the inside of spacing groove 303 with the gag lever post 304, the gag lever post 304 will extend to the inside of mounting block 302 at this moment, mounting block 302 and lathe tailstock body 1 will be fixed this moment, after the user moves the gag lever post 304, do not need the manual inside of moving the gag lever post 304 to mounting block 302, the elasticity of spring 5 can make the inside of gag lever post 304 automatic removal to mounting block 302, then the piece that produces when sealing cover 6 can prevent lathe processing leads to the inside to the removal groove 305 to block up, the inside of removal groove 305 has increased the inside of removal groove 305, then connecting rope 7 can be connected sealing cover 6 and bottom plate 2, sealing cover 6 can prevent that the piece that produces when processing from leading to the bottom of sealing cover 2 from leading to the piece 1, sealing cover 6 and sealing cover 6 when the sealing cover 1, the sealing cover 6 has been used to be down, the stability when the anti-slip between the user has been improved when the speed of the 6 is improved, and the anti-slip pad is 9 when the user has taken down the sealing cover 6.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The utility model provides a numerical control lathe convenient to equipment, includes lathe tailstock body (1) and bottom plate (2), its characterized in that: the lathe tail seat comprises a lathe tail seat body (1) and is characterized in that a bottom plate (2) is arranged at the bottom of the lathe tail seat body (1), an installation mechanism (3) for quickly disassembling and assembling the lathe tail seat body (1) is arranged in the bottom plate (2), and a moving assembly (4) for conveniently moving the installation mechanism (3) is arranged in the installation mechanism (3);

The mounting mechanism (3) comprises a mounting groove (301), a mounting block (302), a limiting groove (303), a limiting rod (304) and a moving groove (305), wherein the mounting groove (301) is formed in the top of the bottom plate (2), the mounting block (302) is welded to the bottom of the lathe tailstock body (1), the limiting groove (303) is formed in the bottom plate (2), the limiting rod (304) is slidably connected to the inside of the limiting groove (303), the moving groove (305) is formed in one end of the limiting groove (303), and the diameter of the moving groove (305) is larger than that of the limiting groove (303), and one end of the limiting groove (303) extends to the inside of the mounting block (302).

2. The numerically controlled lathe convenient to assemble as in claim 1, wherein: the movable assembly (4) comprises a limiting block (401) and a handle (402), wherein the limiting block (401) is welded at one end of the limiting rod (304), and the handle (402) is welded on the outer wall of the limiting block (401).

3. The numerically controlled lathe convenient to assemble as in claim 2, wherein: the outer wall of the limiting block (401) is welded with a spring (5), and one end of the spring (5) is welded with one side wall of the moving groove (305).

4. The numerically controlled lathe convenient to assemble as in claim 1, wherein: one side of the bottom plate (2) is in threaded connection with a sealing cover (6) for preventing external sundries from entering the moving groove (305), and the sealing cover (6) is made of stainless steel.

5. The numerically controlled lathe convenient to assemble as in claim 4, wherein: the outer wall of the bottom plate (2) is provided with a connecting rope (7), and one end of the connecting rope (7) is welded with the outer wall of the sealing cover (6).

6. The numerically controlled lathe convenient to assemble as in claim 1, wherein: the bottom of the bottom plate (2) is adhered with a sealing gasket (8) for preventing sundries from entering the bottom of the bottom plate (2) to cause the lathe tailstock body (1) to incline, and the sealing gasket (8) is made of rubber.

7. The numerically controlled lathe convenient to assemble as in claim 4, wherein: a plurality of groups of anti-slip pads (9) which are convenient for taking down the sealing cover (6) are circumferentially distributed on the outer wall of the sealing cover (6).

8. A numerically controlled lathe for easy assembly as in claim 3, further comprising: the spring (5) is made of titanium alloy.