CN208427972U - A kind of numerically controlled lathe mounting seat that can be moved easily - Google Patents

Abstract

The utility model discloses a kind of numerically controlled lathe mounting seats that can be moved easily, including numerically controlled lathe main body, the middle position of the bottom end outer wall two sides of the numerically controlled lathe main body is fixedly connected to transmission fixed block, the numerically controlled lathe main body four corners are fixedly connected to support fixed block, and the two sides outer wall of the transmission fixed block passes through connection support bar and is mutually permanently connected with support fixed block, the internal ring wall of the transmission fixed block is threaded with threaded drive rod.The utility model relates to numerically controlled lathe relevant device technical fields.The numerically controlled lathe mounting seat that can be moved easily, it can automatic traction numerically controlled lathe displacement distance to a declared goal, moving distance can be accurately controlled, and enhance numerically controlled lathe it is fixed when stability, prevent under external force numerically controlled lathe there is the appearance of the case where slight displacement；It is mounted with self-lubricate cooling device, reduces each components and directly rub, to extend the service life of each components.

Description

A kind of numerically controlled lathe mounting seat that can be moved easily

Technical field

The utility model relates to numerically controlled lathe relevant device technical field, specially a kind of numerically controlled lathe is with can be moved easily Mounting seat.

Background technique

Numerically controlled lathe is to use relatively broad one of numerically-controlled machine tool at present.It is mainly used for axial workpiece or disk-like accessory Inside and outside cylindrical surface, any cone angle inside and outside circular conical surface, it is complicated turn round in the machinings such as positive camber and cylinder, tapered tread, And can be carried out grooving, drilling, reaming, fraising and bore hole etc..Numerically-controlled machine tool is according to the processing program woven in advance, automatically Part to be processed is processed.We the machining process route of part, technological parameter, the motion profile of cutter, displacement, Cutting parameter and miscellaneous function are written as processing program list according to instruction code as defined in numerically-controlled machine tool and program format, then The content record in this program list on control medium, it is then input in the numerical control device of numerically-controlled machine tool, to command machine Bed processing part.

Numerically controlled lathe directlys adopt movable pulley more and is slidably connected with its mounting seat at present, to realize the axis of numerically controlled lathe To movement, the accuracy of such mode moving distance is poor, and the friction process since movable pulley load-bearing is larger, with sliding rail In be also easy to produce amount of heat, to guarantee that the normal use of each mobile components need to use coolant liquid cool down.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of numerically controlled lathe installation bottom that can be moved easily Seat, can automatic traction numerically controlled lathe displacement distance to a declared goal, moving distance can be accurately controlled, and enhance numerically controlled lathe and fix When stability, prevent under external force numerically controlled lathe there is the appearance of the case where slight displacement, and be mounted with that self-lubricate is cold But device reduces each components and directly rubs, to extend the service life of each components.

(2) technical solution

In order to achieve the above object, the utility model is achieved by the following technical programs: a kind of numerically controlled lathe is with can be square Just the mounting seat moved, including numerically controlled lathe main body, the middle position of the bottom end outer wall two sides of the numerically controlled lathe main body It is fixedly connected to transmission fixed block, the numerically controlled lathe main body four corners are fixedly connected to support fixed block, and described Transmission fixed block two sides outer wall pass through connection support bar with support fixed block be mutually permanently connected, the transmission is fixed The internal ring wall of block is threaded with threaded drive rod, and one end outer wall of the threaded drive rod is rotated by rotational connector It is connected with the side inner wall of firm banking, the side outer wall of the firm banking, which is fixedly connected with, automatically moves headstock, institute The threaded drive rod stated run through far from one end of rotational connector automatically move headstock outer wall and extending to automatically move it is dynamic The inside of power case is rotatablely connected with the inner wall for automatically moving headstock, and the threaded drive rod, which is located at, to be automatically moved in headstock The second taper cone pulley that the one end in portion is rotatably connected to by the first taper cone pulley, and the central axis of second taper cone pulley passes through connection Axis device is fixedly connected with the output shaft of servo motor, and the two sides outer wall of the support fixed block is rotated by connector and connected It is connected to movable pulley, the transmission fixed block is fixedly connected with self-lubricate cooling close to the side outer wall for automatically moving headstock Device.

Preferably, the self-lubricate cooling device includes fixed communicating pipe, and the both ends of the fixation communicating pipe are equal It is fixedly connected with lubricating cooling oil oil inlet, the middle position of the fixation communicating pipe is fixedly connected with threaded rod lubrication block, And the side outer wall of the threaded rod lubrication block is fixedly connected with the outer wall of transmission fixed block, the threaded rod lubrication block Circular layer is smeared by lubrication in bottom end, and the two sides bottom end of the fixation communicating pipe, which passes through transmission fixed block and is fixedly connected with lubrication, smears Lamella, and the threaded rod lubrication block and transmission fixed block passes through hollow out through plate and is connected communicating pipe with fixation.

Preferably, the hollow out through plate includes being fixedly connected with plate body, and the surface for being fixedly connected with plate body is opened Equipped with hollow out communication port.

Preferably, the two sides bottom end inner wall of the firm banking is fixedly connected to sliding rail, and the movement The external annulus of wheel and the internal ring wall of sliding rail are slidably connected.

Preferably, the top outer wall of the servo motor is fixedly connected with the top inner wall for automatically moving headstock.

Preferably, the lubrication smears circular layer and is all made of the hygroscopic composite material of class sponge with lubrication smear layer and is made.

(3) beneficial effect

The utility model provides the numerically controlled lathe mounting seat that can be moved easily.Have it is following the utility model has the advantages that

(1), the mounting seat that can be moved easily of the numerically controlled lathe passes through the bottom end outer wall two sides of numerically controlled lathe main body Middle position is fixedly connected to transmission fixed block, and numerically controlled lathe main body four corners are fixedly connected to support fixed block, and pass The two sides outer wall of dynamic fixed block passes through connection support bar and is mutually permanently connected with support fixed block, is driven the internal ring wall of fixed block It is threaded with threaded drive rod, and one end outer wall of threaded drive rod is rotatably connected to firm banking by rotational connector Side inner wall, the side outer wall of firm banking, which is fixedly connected with, automatically moves headstock, and threaded drive rod is far from rotational connector One end run through and automatically move the outer wall and extending to of headstock and automatically move the inside of headstock and automatically move headstock Inner wall rotation connection, threaded drive rod, which is located at, automatically moves what one end inside headstock was rotatably connected to by the first taper cone pulley Second taper cone pulley, and the central axis of the second taper cone pulley is fixedly connected with the output shaft of servo motor by shaft coupling, and supports solid The two sides outer wall for determining block passes through connector and is rotatably connected to movable pulley, and the two sides bottom end inner wall of firm banking is fixedly connected to Sliding rail, and the external annulus of movable pulley and the internal ring wall of sliding rail are slidably connected, and have reached raising and have moved accuracy and consolidate Determine the purpose of stability, can automatic traction numerically controlled lathe displacement distance to a declared goal, moving distance can be accurately controlled, and enhance Stability when numerically controlled lathe is fixed, prevent under external force numerically controlled lathe there is the appearance of the case where slight displacement.

(2), the numerically controlled lathe mounting seat that can be moved easily automatically moves headstock by the way that transmission fixed block is close Side outer wall be fixedly connected with self-lubricate cooling device, self-lubricate cooling device includes fixed communicating pipe, fixed connection The both ends of pipe are fixedly connected to lubricating cooling oil oil inlet, and the middle position of fixed communicating pipe is fixedly connected with threaded rod lubrication Block, and the side outer wall of threaded rod lubrication block is fixedly connected with the outer wall of transmission fixed block, the bottom end of threaded rod lubrication block passes through Lubrication smears circular layer, and the two sides bottom end of fixed communicating pipe passes through transmission fixed block and is fixedly connected with lubrication smear layer, and threaded rod Lubrication block and transmission fixed block pass through hollow out through plate and are connected communicating pipe with fixation, have reached each components of extension and have used the longevity The purpose of life is mounted with self-lubricate cooling device, reduces each components and directly rubs, to extend each components Service life.

Detailed description of the invention

Fig. 1 is the utility model schematic front view；

Fig. 2 is the utility model schematic side view；

Fig. 3 is the utility model self-lubricate cooling device structural schematic diagram；

Fig. 4 is the utility model hollow out through plate schematic top plan view.

In figure: 1 numerically controlled lathe main body, 2 support fixed blocks, 3 transmission fixed blocks, 4 threaded drive rods, 5 rotational connectors, 6 Firm banking, 7 automatically move headstock, 8 first taper cone pulleies, 9 second taper cone pulleies, 10 servo motors, 11 movable pulleys, 12 automatic profits Sliding cooling device, 121 fixed communicating pipes, 122 lubricating cooling oil oil inlets, 123 threaded rods lubrication block, 124 lubrications smear circular layer, 125 hollow out through plates, 1251 are fixedly connected with plate body, 1252 hollow out communication ports, 126 lubrication smear layers, 13 sliding rails, 14 connections Support rod.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: a kind of numerically controlled lathe installation that can be moved easily The middle position of pedestal, including numerically controlled lathe main body 1, the bottom end outer wall two sides of numerically controlled lathe main body 1 is fixedly connected to transmission Fixed block 3,1 four corners of numerically controlled lathe main body are fixedly connected to support fixed block 2, and the two sides outer wall for being driven fixed block 3 is equal It is mutually permanently connected by connection support bar 14 and support fixed block 2, the internal ring wall of transmission fixed block 3 is threaded with screw thread biography Lever 4, and one end outer wall of threaded drive rod 4 is rotatably connected to the side inner wall of firm banking 6 by rotational connector 5, Gu The side outer wall for determining pedestal 6, which is fixedly connected with, automatically moves headstock 7, and threaded drive rod 4 is passed through far from one end of rotational connector 5 It wears the outer wall for automatically moving headstock 7 and extends to the inside for automatically moving headstock 7 and the inner wall for automatically moving headstock 7 turn Dynamic connection, threaded drive rod 4 are located at automatically move that one end headstock 7 inside passes through that the first taper cone pulley 8 is rotatably connected to the Two taper cone pulleies 9, and the central axis of the second taper cone pulley 9 is fixedly connected with the output shaft of servo motor 10 by shaft coupling, and supports The two sides outer wall of fixed block 2 passes through connector and is rotatably connected to movable pulley 11, and transmission fixed block 3 is close to automatically move headstock 7 side outer wall is fixedly connected with self-lubricate cooling device 12, and servo motor 10, which starts turning, drives the first taper cone pulley 8 and the Two taper cone pulleies 9, which synchronize, to be started turning, so that threaded drive rod 4 be driven to start turning, passes through threaded drive rod 4 and transmission fixed block 3 threaded connection relation drives transmission fixed block 3, support fixed block 2, movable pulley in the rotation process of threaded drive rod 4 11 and numerically controlled lathe main body 1 along threaded drive rod 4 start displacement, to realize automatic traction numerically controlled lathe displacement Distance to a declared goal can accurately control moving distance, and after 1 position of numerically controlled lathe main body is fixed, servo motor 10 stops operating, transmission Fixed block 3 and numerically controlled lathe main body 1 stop orientation translation, further enhance stability when numerically controlled lathe is fixed, prevent There is the appearance of the case where slight displacement in numerically controlled lathe under orientation external force.

Self-lubricate cooling device 12 includes fixed communicating pipe 121, and the both ends of fixed communicating pipe 121 are fixedly connected to profit Sliding cooling oil oil inlet 122, the middle position of fixed communicating pipe 121 is fixedly connected with threaded rod lubrication block 123, and threaded rod moistens The side outer wall of sliding block 123 is fixedly connected with the outer wall of transmission fixed block 3, and the bottom end of threaded rod lubrication block 123 is smeared by lubrication Circular layer 124, the two sides bottom end of fixed communicating pipe 121 pass through transmission fixed block 3 and are fixedly connected with lubrication smear layer 126, and spiral shell Rasp bar lubrication block 123 and transmission fixed block 3 are connected communicating pipe 121 by hollow out through plate 125 with fixation, and user of service will Lubricating cooling oil is poured into fixed communicating pipe 121 by lubricating cooling oil oil inlet 122, and lubricating cooling oil is along fixed communicating pipe 121 gradually dip lubrication smear circular layer 124 and lubrication smear layer 126 in, transmission fixed block 3 drive support fixed block 2, movable pulley 11 and 1 moving process of numerically controlled lathe main body in, lubrication smear circular layer 124 and lubrication smear layer 126 respectively with threaded drive rod 4 and move The external annulus of driving wheel 11 is in contact, so that the surface lubrication of threaded drive rod 4 and movable pulley 11 is realized, to further realize cunning The greasing in dynamic rail road 13 reduces each components and directly rubs, and the heat that friction generates is reduced, to extend The service life of each components.

Hollow out through plate 125 includes being fixedly connected with plate body 1251, and the surface for being fixedly connected with plate body 1251 offers hollow out Communication port 1252.

The two sides bottom end inner wall of firm banking 6 is fixedly connected to sliding rail 13, and the external annulus and cunning of movable pulley 11 The internal ring wall in dynamic rail road 13 is slidably connected.

The top outer wall of servo motor 10 is fixedly connected with the top inner wall for automatically moving headstock 7.

Lubrication smears circular layer 124 and is all made of the hygroscopic composite material of class sponge with smear layer 126 is lubricated and is made.

The first taper cone pulley 8 and the second taper cone pulley 9 is driven to synchronize and start turning in use, servo motor 10 starts turning, from And threaded drive rod 4 is driven to start turning, by the threaded connection relation of threaded drive rod 4 and transmission fixed block 3, passed in screw thread In the rotation process of lever 4, drive transmission fixed block 3, support fixed block 2, movable pulley 11 and numerically controlled lathe main body 1 along screw thread Drive rod 4 starts displacement, to realize automatic traction numerically controlled lathe displacement distance to a declared goal, can accurately control it is mobile away from From after 1 position of numerically controlled lathe main body is fixed, servo motor 10 stops operating, and is driven fixed block 3 and numerically controlled lathe main body 1 is stopped Only orientation translation further enhances stability when numerically controlled lathe is fixed, prevents the numerically controlled lathe in the case where orienting external force from going out The case where existing slight displacement, occurs；Lubricating cooling oil is poured into fixed connection by lubricating cooling oil oil inlet 122 by user of service In pipe 121, lubricating cooling oil along fixed communicating pipe 121, gradually smear in circular layer 124 and lubrication smear layer 126 by dip lubrication, Be driven fixed block 3 and drive support fixed block 2, in 1 moving process of movable pulley 11 and numerically controlled lathe main body, lubrication smear circular layer 124 and Lubrication smear layer 126 be in contact respectively with the external annulus of threaded drive rod 4 and movable pulley 11, thus realize threaded drive rod 4 and The surface lubrication of movable pulley 11 reduces each components and directly rubs to further realize the greasing of sliding rail 13 It wipes, the heat that friction generates is reduced, to extend the service life of each components.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions.By sentence " element limited including one ..., it is not excluded that There is also other identical elements in the process, method, article or apparatus that includes the element ".

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of numerically controlled lathe mounting seat that can be moved easily, including numerically controlled lathe main body (1), it is characterised in that: described Numerically controlled lathe main body (1) bottom end outer wall two sides middle position be fixedly connected to transmission fixed block (3), the numerical control Lathe main body (1) four corners are fixedly connected to support fixed block (2), and the two sides outer wall of the transmission fixed block (3) is equal It is mutually permanently connected by connection support bar (14) and support fixed block (2), the internal ring wall screw thread of the transmission fixed block (3) It is connected with threaded drive rod (4), and one end outer wall of the threaded drive rod (4) is rotatablely connected by rotational connector (5) There is the side inner wall of firm banking (6), the side outer wall of the firm banking (6), which is fixedly connected with, automatically moves headstock (7), the threaded drive rod (4) runs through far from the one end of rotational connector (5) automatically moves the outer wall of headstock (7) and prolongs The inner wall rotation connection for extending to the inside for automatically moving headstock (7) and automatically moving headstock (7), the threaded drive rod (4) it is located at and automatically moves the second taper cone pulley (9) that the internal one end of headstock (7) is rotatably connected to by the first taper cone pulley (8), And the central axis of second taper cone pulley (9) is fixedly connected with the output shaft of servo motor (10) by shaft coupling, and described The two sides outer wall of support fixed block (2) pass through connector and be rotatably connected to movable pulley (11), the transmission fixed block (3) Self-lubricate cooling device (12) are fixedly connected with close to the side outer wall for automatically moving headstock (7).

2. a kind of numerically controlled lathe mounting seat that can be moved easily according to claim 1, it is characterised in that: described Self-lubricate cooling device (12) includes fixed communicating pipe (121), and the both ends of the fixation communicating pipe (121) are fixedly connected with Have lubricating cooling oil oil inlet (122), the middle position of the fixation communicating pipe (121) is fixedly connected with threaded rod lubrication block (123), and the side outer wall of described threaded rod lubrication block (123) is fixedly connected with the outer wall for being driven fixed block (3), described The bottom end of threaded rod lubrication block (123) is smeared circular layer (124) by lubrication, and the two sides bottom end of the fixation communicating pipe (121) is equal It is fixedly connected with lubrication smear layer (126) by being driven fixed block (3), and threaded rod lubrication block (123) and transmission is solid Determine block (3) to be connected by hollow out through plate (125) with fixed communicating pipe (121).

3. a kind of numerically controlled lathe mounting seat that can be moved easily according to claim 2, it is characterised in that: described Hollow out through plate (125) includes being fixedly connected plate body (1251), and the surface for being fixedly connected with plate body (1251) offers Hollow out communication port (1252).

4. a kind of numerically controlled lathe mounting seat that can be moved easily according to claim 1, it is characterised in that: described The two sides bottom end inner wall of firm banking (6) is fixedly connected to sliding rail (13), and the external annulus of the movable pulley (11) It is slidably connected with the internal ring wall of sliding rail (13).

5. a kind of numerically controlled lathe mounting seat that can be moved easily according to claim 1, it is characterised in that: described The top outer wall of servo motor (10) is fixedly connected with the top inner wall for automatically moving headstock (7).

6. a kind of numerically controlled lathe mounting seat that can be moved easily according to claim 2, it is characterised in that: described Lubrication smears circular layer (124) and is all made of the hygroscopic composite material of class sponge with smear layer (126) are lubricated and is made.