CN107984242A - A kind of numerically-controlled machine tool heat dissipation base - Google Patents

Abstract

The invention discloses a kind of numerically-controlled machine tool heat dissipation base, including base shell, Installing machine tool plate is fixedly connected with the top of base shell, machine tool enclosure is fixedly connected with the top of Installing machine tool plate, the inside of Installing machine tool plate is equidistant to offer five hot-fluid holes.The present invention is by setting heat transfer device, thermal conductivity hole, top heat dissipation pipe, side heat-dissipating pipe, radiator, motor, machine shaft, drive angular wheel, first heat dissipation axis, first radiator fan, it is driven angular wheel, second heat dissipation axis, second radiator fan, mutual cooperation between bottom heat radiation hole and heat conduction ring, numerically-controlled machine tool base is set to possess the function of heat dissipation, heat caused by numerically-controlled machine tool inside is allowed timely to be dispersed, make the phenomenon that will not occur heat aggregation inside lathe again, make transmission component inside numerically-controlled machine tool will not temperature distortion again, so as to improve the service life of each transmission parts, also improve the machining accuracy of numerically-controlled machine tool.

Description

A kind of numerically-controlled machine tool heat dissipation base

Technical field

The present invention relates to numerical control machine tool technique field, is specially a kind of numerically-controlled machine tool heat dissipation base.

Background technology

Numerically-controlled machine tool is the abbreviation of numerically-controlled machine tool, is a kind of automated machine tool equipped with program control system.The control System processed can be handled logically with control coding or other symbolic instruction regulated procedures, and is decoded, with code Digital representation, numerical control device is inputted by information carrier.Various control signals are sent by numerical control device through calculation process, are controlled The action of lathe, shape and size by drawing, automatically processes part.

Base of digital-controlled machine tool can make the more firm placement of numerically-controlled machine tool on the ground, and traditional base of digital-controlled machine tool Do not possess the function of heat dissipation, numerically-controlled machine tool during workpieces processing, a part be due to lathe cutter and workpiece it Between phase mutual friction and the heat that generates, some is due to institute's gearing friction inside the gear-box of main shaft of numerical control machine tool transmission And the heat occurred, if the base of numerically-controlled machine tool does not possess heat sinking function, will make these heats it is excessive be gathered in numerical control The inside of lathe, makes the temperature inside numerically-controlled machine tool constantly raise, and causes some precision parts inside numerically-controlled machine tool to be heated Expansion deforms, and accelerates the abrasion of transmission portion, so as to have impact on the transmission accuracy of numerically-controlled machine tool.

The content of the invention

It is an object of the invention to provide a kind of numerically-controlled machine tool heat dissipation base, possess the advantages of heat dissipation, solve tradition The problem of numerically-controlled machine tool base can not radiate.

To achieve the above object, the present invention provides following technical solution：A kind of numerically-controlled machine tool heat dissipation base, including base Shell, is fixedly connected with Installing machine tool plate at the top of the base shell, is fixedly connected at the top of the Installing machine tool plate organic Bed shell, the inside of the Installing machine tool plate is equidistant to offer five hot-fluid holes, and the inner wall in the hot-fluid hole is fixedly connected with The position in heat transfer device, the top of the base shell and corresponding five hot-fluid holes offers thermal conductivity hole, in the base shell The position in the top of wall and corresponding thermal conductivity hole is fixedly connected with top heat dissipation pipe, and the left and right sides of the base shell is fixed Side heat-dissipating pipe is connected with, one end of the side heat-dissipating pipe, which is run through base shell and extended to inside it, to be secured to connect, The inner wall of the side heat-dissipating pipe is fixedly connected with radiator, and the bottom of the base shell inner wall offers mounting groove, described The bottom of the base shell inner wall and position of corresponding mounting groove is fixedly connected with transmission shell, the bottom of the mounting groove inner wall And it is fixedly connected with positioned at the inside of transmission shell on the output shaft of motor described in motor and is fixedly connected with machine shaft, it is described The one end of machine shaft away from motor is fixedly connected with driving angular wheel, is fixedly connected with the top of the driving angular wheel First heat dissipation axis, the described one end of first heat dissipation axis away from driving angular wheel is through the top of transmission outer casing inner wall and extends to The inside of top heat dissipation pipe is fixedly connected with the first radiator fan, described to drive the left and right sides of angular wheel and positioned at transmission The inside of shell is sequentially connected with transmission angular wheel, and side of the transmission angular wheel away from driving angular wheel is fixed It is connected with the second heat dissipation axis, inner wall and extension of the described one end of second heat dissipation axis away from transmission angular wheel through transmission shell The second radiator fan, the bottom of the base shell inner wall and the left and right two for being located at transmission shell are connected with to its external stability Side offers bottom heat radiation hole, and the inner wall in the bottom heat radiation hole is fixedly connected with heat conduction ring, the base shell bottom The left and right sides has been fixedly connected with ground supports block.

Preferably, the heat transfer device includes supporting rack, the left and right sides of the support frame as described above left side with hot-fluid hole inner wall respectively Right both sides are fixedly connected, and the surface of support frame as described above is fixedly connected with thermally conductive sheet.

Preferably, the radiator includes radiator shell, and the left and right sides at the top and bottom of the radiator shell is equal Heat dissipation contiguous block is fixedly connected with, the heat-dissipating casing is fixed by the inner wall of four heat dissipation contiguous blocks and side heat-dissipating pipe to be connected Connect, the surface of the heat-dissipating casing offers venthole, and the heat-dissipating casing is internally provided with radiator-grid.

Preferably, heat conduction fixator has been fixedly connected with left and right sides of the heat conduction ring, the heat conduction ring passes through heat conduction Fixator is fixedly connected with the inner wall in bottom heat radiation hole, and the heat conduction fixator includes heat conduction fixed block, the heat conduction fixed block It is fixedly connected with the surface of heat conduction ring, the side of the heat conduction fixed block away from heat conduction ring is fixedly connected with heat conduction contiguous block, institute Side of the heat conduction contiguous block away from heat conduction fixed block is stated to be fixedly connected with the inner wall in bottom heat radiation hole.

Preferably, the top of the transmission shell and position of corresponding first heat dissipation axis is fixedly connected with clutch shaft bearing, The first heat dissipation axis is flexibly connected by clutch shaft bearing with transmission shell.

Preferably, the left and right sides of the transmission shell and position of corresponding second heat dissipation axis has been fixedly connected with second Bearing, the second heat dissipation axis are flexibly connected by second bearing with transmission shell.

Compared with prior art, beneficial effects of the present invention are as follows：

1st, the present invention is by setting heat transfer device, thermal conductivity hole, top heat dissipation pipe, side heat-dissipating pipe, radiator, motor, motor Shaft, driving angular wheel, the first heat dissipation axis, the first radiator fan, transmission angular wheel, the second heat dissipation axis, the second radiation air Mutual cooperation between fan, bottom heat radiation hole and heat conduction ring, makes numerically-controlled machine tool base effectively possess the function of heat dissipation, energy Enough allow heat caused by numerically-controlled machine tool inside timely to be dispersed, make will not occur showing for heat aggregation inside numerically-controlled machine tool again As, make transmission component inside numerically-controlled machine tool will not temperature distortion again, so as to improve the service life of each transmission parts, Also improve the machining accuracy of numerically-controlled machine tool.

2nd, the present invention by set ground supporting block play the role of stablize and support base shell, make base shell with Ground stable connection, by setting heat conduction fixator to make the more convenient fixation and installation of heat conduction ring, by setting clutch shaft bearing Play the role of reducing frictional force when the first heat dissipation axis rotates, turned by setting second bearing to play the heat dissipation axis of reduction by second The effect of frictional force when dynamic.

Brief description of the drawings

Fig. 1 is the cross-sectional view of the structure of front view of the present invention；

Fig. 2 is the cross-sectional view of the structure of radiator front view of the present invention；

Fig. 3 is the structure diagram of heat conduction ring top view of the present invention；

Fig. 4 is the partial enlarged view of A-A in Fig. 1 of the present invention.

In figure：1 base shell, 2 Installing machine tool plates, 3 machine tool enclosures, 4 hot-fluid holes, 5 heat transfer devices, 51 supporting racks, 52 heat conduction Piece, 6 thermal conductivity holes, 7 top heat dissipation pipes, 8 side heat-dissipating pipes, 9 radiators, 91 radiator shells, 92 heat dissipation contiguous blocks, 93 ventilations Hole, 94 radiator-grids, 10 mounting grooves, 11 transmission shells, 12 motors, 13 machine shafts, 14 driving angular wheels, 15 first heat dissipations Axis, 16 first radiator fans, 17 transmission angular wheels, 18 second heat dissipation axis, 19 second radiator fans, 20 bottom heat radiation holes, 21 Heat conduction ring, 22 ground supports blocks, 23 heat conduction fixators, 231 heat conduction fixed blocks, 232 heat conduction contiguous blocks, 24 clutch shaft bearings, 25 Two bearings.

Embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment, belongs to the scope of protection of the invention.

- 4 are please referred to Fig.1, a kind of numerically-controlled machine tool heat dissipation base, including base shell 1, the top of base shell 1 are fixed Installing machine tool plate 2 is connected with, the top of Installing machine tool plate 2 is fixedly connected with machine tool enclosure 3, and the inside of Installing machine tool plate 2 is equidistant Leave and be equipped with five hot-fluid holes 4, the inner wall in hot-fluid hole 4 is fixedly connected with heat transfer device 5, and heat transfer device 5 includes supporting rack 51, supporting rack 51 left and right sides is fixedly connected with left and right sides of 4 inner wall of hot-fluid hole respectively, and the surface of supporting rack 51 is fixedly connected with heat conduction The position in piece 52, the top of base shell 1 and corresponding five hot-fluid holes 4 offers thermal conductivity hole 6, the top of 1 inner wall of base shell The position in portion and corresponding thermal conductivity hole 6 is fixedly connected with top heat dissipation pipe 7, and the left and right sides of base shell 1 has been fixedly connected with Side heat-dissipating pipe 8, one end of side heat-dissipating pipe 8, which is run through base shell 1 and extended to inside it, to be secured to connect, side heat dissipation The inner wall of pipe 8 is fixedly connected with radiator 9, and radiator 9 includes radiator shell 91, a left side for the top and bottom of radiator shell 91 Right both sides have been fixedly connected with heat dissipation contiguous block 92, and heat-dissipating casing 91 passes through four heat dissipation contiguous blocks 92 and side heat-dissipating pipe 8 Inner wall is fixedly connected, and the surface of heat-dissipating casing 91 offers venthole 93, and heat-dissipating casing 91 is internally provided with radiator-grid 94, bottom The bottom of seat 1 inner wall of shell offers mounting groove 10, and the position of the bottom of 1 inner wall of base shell and corresponding mounting groove 10 is fixed It is connected with transmission shell 11, the bottom of 10 inner wall of mounting groove and is fixedly connected with the electricity of motor 12 positioned at the inside of transmission shell 11 Machine shaft 13 is fixedly connected with the output shaft of machine 12, the one end of machine shaft 13 away from motor 12 is fixedly connected with driving cone Shape gear 14, the top of driving angular wheel 14 are fixedly connected with the first heat dissipation axis 15, and the first heat dissipation axis 15 is away from driving taper One end of gear 14 through transmission 11 inner wall of shell top and extend to top heat dissipation pipe 7 inside be fixedly connected with first dissipate Hot-air fan 16, is driven the top of shell 11 and the position of corresponding first heat dissipation axis 15 is fixedly connected with clutch shaft bearing 24, and first Heat dissipation axis 15 is flexibly connected by clutch shaft bearing 24 with transmission shell 11, is dissipated by setting clutch shaft bearing 24 to play reduction first The effect of frictional force when hot axis 15 rotates, drives the left and right sides of angular wheel 14 and is passed positioned at the inside of transmission shell 11 Dynamic to be connected with transmission angular wheel 17, side of the transmission angular wheel 17 away from driving angular wheel 14 is fixedly connected with second and dissipates Hot axis 18, the one end of the second heat dissipation axis 18 away from transmission angular wheel 17 through the inner wall for being driven shell 11 and are extended to outside it The second radiator fan 19 is fixedly connected with, the left and right sides of shell 11 and the position of corresponding second heat dissipation axis 18 is driven and fixes Second bearing 25 is connected with, the second heat dissipation axis 18 is flexibly connected by second bearing 25 with transmission shell 11, by setting second Bearing 25 play the role of reduce by second heat dissipation axis 18 rotate when frictional force, the bottom of 1 inner wall of base shell and positioned at pass The left and right sides of dynamic shell 11 offers bottom heat radiation hole 20, and the inner wall in bottom heat radiation hole 20 is fixedly connected with heat conduction ring 21, The left and right sides of heat conduction ring 21 has been fixedly connected with heat conduction fixator 23, and heat conduction ring 21 passes through heat conduction fixator 23 and bottom heat radiation The inner wall in hole 20 is fixedly connected, and heat conduction fixator 23 includes heat conduction fixed block 231, the table of heat conduction fixed block 231 and heat conduction ring 21 Face is fixedly connected, and side of the heat conduction fixed block 231 away from heat conduction ring 21 is fixedly connected with heat conduction contiguous block 232, heat conduction contiguous block 232 side away from heat conduction fixed block 231 is fixedly connected with the inner wall in bottom heat radiation hole 20, by setting heat conduction fixator 23 to make Heat conduction ring 21 more convenient fixation and installation, base shell have been fixedly connected with ground supports block 22 at left and right sides of 1 bottom, By setting ground supporting block 22 to play the role of stable and support base shell 1, base shell 1 is set to be connected with ground surely It is fixed, by set heat transfer device 5, thermal conductivity hole 6, top heat dissipation pipe 7, side heat-dissipating pipe 8, radiator 9, motor 12, machine shaft 13, The heat dissipation of angular wheel 14, first axis 15, the first radiator fan 16, the transmission heat dissipation axis 18, second of angular wheel 17, second is driven to dissipate Mutual cooperation between Hot-air fan 19, bottom heat radiation hole 20 and heat conduction ring 21, makes numerically-controlled machine tool base effectively possess and dissipates The function of heat, can allow heat caused by numerically-controlled machine tool inside timely to be dispersed, make again occur inside numerically-controlled machine tool The phenomenon of heat aggregation, make transmission component inside numerically-controlled machine tool will not temperature distortion again, so as to improve each transmission zero The service life of part, also improves the machining accuracy of numerically-controlled machine tool.

In use, when producing heat inside numerically-controlled machine tool, by starting motor 12, first is driven at the same time by motor 12 The heat dissipation heat dissipation axis 18 of axis 15 and second rotates, so that the first radiator fan 16 and the second radiator fan 19 carry out rotation heat extraction, Heat loss through conduction is carried out by heat transfer device 5, radiator 9 and heat conduction ring 21 respectively during heat extraction.

In summary：The numerically-controlled machine tool heat dissipation base, by setting heat transfer device 5, thermal conductivity hole 6, top heat dissipation pipe 7, side Face heat-dissipating pipe 8, radiator 9, motor 12, machine shaft 13, the driving heat dissipation of angular wheel 14, first axis 15, the first radiator fan 16th, it is driven the phase that angular wheel 17, second radiates between axis 18, the second radiator fan 19, bottom heat radiation hole 20 and heat conduction ring 21 Mutually coordinate, solve the problems, such as that traditional numeric-control machine base can not radiate.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of changes, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims (6)

1. a kind of numerically-controlled machine tool heat dissipation base, including base shell (1), it is characterised in that：The top of the base shell (1) Installing machine tool plate (2) is fixedly connected with, machine tool enclosure (3), the lathe are fixedly connected with the top of the Installing machine tool plate (2) The inside of installing plate (2) is equidistant to offer five hot-fluid holes (4), and the inner wall of the hot-fluid hole (4) is fixedly connected with heat transfer device (5), the position of the five hot-fluid holes (4) in the top of the base shell (1) and correspondence offers thermal conductivity hole (6), the base The position of the top of shell (1) inner wall and corresponding thermal conductivity hole (6) is fixedly connected with top heat dissipation pipe (7), the base shell (1) side heat-dissipating pipe (8) has been fixedly connected with left and right sides of, base shell (1) is run through in one end of the side heat-dissipating pipe (8) And extend to inside it and be secured to connect, the inner wall of the side heat-dissipating pipe (8) is fixedly connected with radiator (9), the bottom The bottom of seat shell (1) inner wall offers mounting groove (10), the bottom of base shell (1) inner wall and corresponding mounting groove (10) position be fixedly connected with transmission shell (11), the bottom of mounting groove (10) inner wall and positioned at transmission shell (11) Inside be fixedly connected with the output shaft of motor (12) motor (12) and be fixedly connected with machine shaft (13), the motor The one end of shaft (13) away from motor (12) is fixedly connected with driving angular wheel (14), the top of the driving angular wheel (14) Portion is fixedly connected with the first heat dissipation axis (15), and the described one end of first heat dissipation axis (15) away from driving angular wheel (14) is through biography The top of dynamic shell (11) inner wall and extend to the inside of top heat dissipation pipe (7) and be fixedly connected with the first radiator fan (16), institute State the left and right sides of driving angular wheel (14) and be sequentially connected with transmission conical tooth positioned at the inside of transmission shell (11) Take turns (17), the side of the transmission angular wheel (17) away from driving angular wheel (14) is fixedly connected with the second heat dissipation axis (18), inner wall and extension of the described one end of second heat dissipation axis (18) away from transmission angular wheel (17) through transmission shell (11) The second radiator fan (19) is connected with to its external stability, the bottom of base shell (1) inner wall and positioned at transmission shell (11) the left and right sides offers bottom heat radiation hole (20), and the inner wall of the bottom heat radiation hole (20) is fixedly connected with heat conduction ring (21), ground supports block (22) has been fixedly connected with it at left and right sides of base shell (1) bottom.

A kind of 2. numerically-controlled machine tool heat dissipation base according to claim 1, it is characterised in that：The heat transfer device (5) includes Supporting rack (51), the left and right sides of support frame as described above (51) is fixedly connected with left and right sides of hot-fluid hole (4) inner wall respectively, described The surface of supporting rack (51) is fixedly connected with thermally conductive sheet (52).

A kind of 3. numerically-controlled machine tool heat dissipation base according to claim 1, it is characterised in that：The radiator (9) includes Radiator shell (91), the left and right sides at the top and bottom of the radiator shell (91) have been fixedly connected with heat dissipation contiguous block (92), the heat-dissipating casing (91) is fixedly connected by four heat dissipation contiguous blocks (92) with the inner wall of side heat-dissipating pipe (8), described The surface of heat-dissipating casing (91) offers venthole (93), and the heat-dissipating casing (91) is internally provided with radiator-grid (94).

A kind of 4. numerically-controlled machine tool heat dissipation base according to claim 1, it is characterised in that：A left side for the heat conduction ring (21) Right both sides have been fixedly connected with heat conduction fixator (23), and the heat conduction ring (21) passes through heat conduction fixator (23) and bottom heat radiation hole (20) inner wall is fixedly connected, and the heat conduction fixator (23) includes heat conduction fixed block (231), the heat conduction fixed block (231) It is fixedly connected with the surface of heat conduction ring (21), side of the heat conduction fixed block (231) away from heat conduction ring (21) is fixedly connected with Heat conduction contiguous block (232), side of the heat conduction contiguous block (232) away from heat conduction fixed block (231) and bottom heat radiation hole (20) Inner wall be fixedly connected.

A kind of 5. numerically-controlled machine tool heat dissipation base according to claim 1, it is characterised in that：The transmission shell (11) Top and the position of corresponding first heat dissipation axis (15) are fixedly connected with clutch shaft bearing (24), and the first heat dissipation axis (15) passes through Clutch shaft bearing (24) is flexibly connected with transmission shell (11).

A kind of 6. numerically-controlled machine tool heat dissipation base according to claim 1, it is characterised in that：The transmission shell (11) The left and right sides and the position of corresponding second heat dissipation axis (18) have been fixedly connected with second bearing (25), the second heat dissipation axis (18) it is flexibly connected by second bearing (25) with transmission shell (11).