CN113427319B

CN113427319B - Microcomputer numerical control machine tool control device

Info

Publication number: CN113427319B
Application number: CN202110985053.3A
Authority: CN
Inventors: 李健
Original assignee: Jiangsu Yingjia Intelligent Equipment Technology Co ltd
Current assignee: Jiangsu Yingjia Intelligent Equipment Technology Co ltd
Priority date: 2021-08-26
Filing date: 2021-08-26
Publication date: 2021-11-16
Anticipated expiration: 2041-08-26
Also published as: CN113427319A

Abstract

The invention is suitable for the technical field of numerical control machine tools, and particularly relates to a microcomputer numerical control machine tool control device, which comprises a control box main body and a heat dissipation vent hole, wherein the heat dissipation vent hole is formed in the surface of the control box main body, and the microcomputer numerical control machine tool control device also comprises: the heat conduction structure is arranged on the control box main body and is used for fully contacting with the control elements at different positions in the control box main body so as to transfer away heat generated by the control elements at different positions, and the heat conduction structure can be separated from the control elements under the condition that the control elements are not required to be cooled by external force, so that the influence on normal heat dissipation of the control elements is avoided. By arranging the heat conduction structure, the heat generated by the control element in the control box main body can be fully absorbed by fully contacting the control element at different positions in the control box main body, so that the heat dissipation efficiency of the control device is improved.

Description

Microcomputer numerical control machine tool control device

Technical Field

The invention relates to the technical field of numerical control machine tools, in particular to a microcomputer numerical control machine tool control device.

Background

The numerical control lathe and the turning center are high-precision and high-efficiency automatic machine tools. The multi-station tool turret or the power tool turret is equipped, so that the machine tool has wide processing technological performance, can process complex workpieces such as straight-line cylinders, oblique-line cylinders, circular arcs, various threads, grooves, worms and the like, and has good economic effect in the batch production of complex parts.

At present, a numerical control machine tool is controlled digitally, the numerical control can control mechanical equipment in real time, the numerical control generally comprises complex control elements, and at the moment, an independent control box is required to be arranged to accommodate the control elements and support the control elements to work.

Because the control element in the control box can produce heat when carrying out the during operation, and the control box is comparatively airtight, lead to the temperature in the control box higher, consequently need set up heat dissipation cooling measure on the control box, in order to avoid control element to damage, current heat dissipation measure is usually for blowing or water-cooling mode, and the wind blows the radiating efficiency low, coolant liquid in the water-cooling radiating mode is difficult with the abundant contact of the control element of different positions in the control box, and under the condition that the water-cooling radiating work is being carried out for a long time, efficiency also can the step-down.

Disclosure of Invention

The embodiment of the invention aims to provide a microcomputer numerical control machine tool control device, aiming at solving the following problems: the existing heat dissipation measures are generally in an air blowing or water cooling mode, the air blowing heat dissipation efficiency is low, cooling liquid in the water cooling heat dissipation mode is difficult to be in full contact with control elements at different positions in a control box, and the efficiency of the water cooling heat dissipation is lowered under the condition of long-time heat dissipation.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a computer numerical control machine tool controlling means, includes control box main part and heat dissipation ventilation hole, and the surface at the control box main part is seted up in the heat dissipation ventilation hole, computer numerical control machine tool controlling means still includes:

the heat conduction structure is arranged on the control box main body and is used for fully contacting with the control elements at different positions in the control box main body so as to transfer heat generated by the control elements at different positions away, and the heat conduction structure can be separated from the control elements under the condition that the control elements do not need to dissipate heat by means of external force, so that the influence on the normal heat dissipation of the control elements is avoided; and

the heat dissipation structure is arranged on the control box main body and used for uniformly spraying the cooling liquid on the heat conduction structures at different positions by taking the heat conduction structure as power input, and then, the cooling liquid is rapidly evaporated so as to eliminate the heat absorbed by the heat conduction structure from the control element.

Further, the heat conductive structure includes:

the heat conduction assembly is arranged on the control box main body and is used for absorbing heat generated by control elements at different positions in the control box main body;

the traction assembly is arranged on the control box main body and the heat conduction assembly and is used for driving the heat conduction assembly to move so as to enable the heat conduction assembly to be separated from the control element; and

the first transmission assembly is arranged on the control box main body and used for driving the traction assembly to move through mechanical transmission.

Further, the heat conducting assembly includes:

a heat-conducting member for absorbing heat generated by the control element in the control box main body; and

the extensible member is arranged on the control box main body and used for installing the heat conducting member and driving the heat conducting member to move in the control box main body.

Further, the pulling assembly comprises:

the traction part is connected with the heat conduction assembly and is used for driving the heat conduction assembly to move; and

the winding part is connected to the control box main body, and a first rolling part is arranged at the joint of the winding part and the control box main body and used for winding or unfolding the traction part.

Further, the first transmission assembly includes:

the second transmission part is arranged on the traction component and is used for driving the traction component to rotate on the control box main body;

the first transmission piece is connected with the second transmission piece and used for driving the second transmission piece to move; and

the driving source is arranged on the control box main body, is used for installing the first transmission piece and can also drive the first transmission piece to move.

Further, the heat dissipation structure includes:

the spraying assembly is arranged on the control box main body and is used for spraying the cooling liquid on the heat conducting structure;

the second transmission assembly is arranged on the control box main body and the spraying assembly and is used for driving the spraying assembly to move by taking the heat conduction structure as power input, so that the spraying assembly can uniformly spray the cooling liquid on the heat conduction structure; and

and the air inducing piece is arranged on the control box main body and is used for blowing air to the control element and the heat conducting structure so as to accelerate the evaporation of the cooling liquid on the heat conducting structure.

Further, the spray assembly includes:

the opening position of the spraying piece corresponds to the position of the heat conduction structure and is used for spraying the cooling liquid on the heat conduction structure;

the liquid injection part is communicated with the spraying part; and

the water storage piece is installed on the control box main body and is communicated with the liquid injection piece for storing cooling liquid, and the liquid injection piece is used for injecting the cooling liquid in the water storage piece into the spraying piece.

Further, the second transmission assembly comprises:

the moving piece is connected with the spraying assembly and is used for driving the spraying assembly to move along the vertical direction;

the third transmission part is arranged on the control box main body, and a first rolling part is arranged at the joint of the third transmission part and the control box main body and is used for driving the moving part to move;

the fifth transmission piece is arranged on the third transmission piece and used for driving the third transmission piece to rotate; and

and the fourth transmission part is arranged on the heat conduction structure, is connected with the fifth transmission part and is used for driving the fifth transmission part to move by taking the heat conduction structure as power input.

Further, the microcomputer numerical control machine tool control device further comprises: and the dust filtering structure is arranged on the control box main body and is used for filtering air entering the control box main body, so that dust in the air is prevented from being accumulated on the control element.

Further, the dust filter structure includes:

the covering piece is covered on the heat dissipation vent hole and used for preventing air from entering the control box main body through the heat dissipation vent hole under the condition that the air is not filtered;

a filter member slidably coupled to the cover member for filtering air entering the cover member;

the resetting piece is arranged between the covering piece and the filtering piece and is used for driving the filtering piece to move in the covering piece; and

the knocking piece is connected to the heat dissipation structure and used for moving as power input by the heat dissipation structure and knocking the filtering piece, so that the filtering piece vibrates, and the dust filtering piece is prevented from being blocked by the scraps.

According to the microcomputer numerical control machine tool control device, the heat conducting structure is arranged, the heat conducting structure can be in full contact with the control elements at different positions in the control box main body, so that heat generated by the control elements in the control box main body is fully absorbed, and the heat dissipation efficiency of the control device is improved.

Drawings

Fig. 1 is a schematic structural view of a cnc control device.

Fig. 2 is an enlarged view of a point a in a cnc control apparatus.

FIG. 3 is a side view of a first drive assembly and a drag assembly in a CNC machine control apparatus.

FIG. 4 is a partial structural view of a moving member, a third transmission member and a knocking member in a CNC machine control apparatus.

In the figure: 1. a control box main body; 2. a heat dissipation vent; 3. a heat conducting structure; 31. a heat conducting component; 311. a heat conductive member; 312. a telescoping member; 32. a pulling assembly; 321. a pulling member; 322. rolling up the part; 33. a first transmission assembly; 331. a drive member; 332. a rotating member; 333. a first transmission member; 334. a second transmission member; 4. a heat dissipation structure; 41. an air inducing piece; 411. a first vent; 412. a wind-making piece; 413. a second ventilation member; 414. a third ventilation member; 42. a spray assembly; 421. a first water passage member; 422. a water pumping member; 423. a water storage member; 424. a spraying member; 425. a second water passage member; 43. a second transmission assembly; 431. a moving member; 432. a third transmission member; 433. a first rolling member; 434. a fourth transmission member; 435. a fifth transmission member; 5. a dust filtration structure; 51. a cover; 52. a reset member; 53. a filter member; 54. and a knocking piece.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below 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 invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 4, a microcomputer numerical control machine tool control device provided in an embodiment of the present invention includes a control box main body 1 and a heat dissipation vent hole 2, and the heat dissipation vent hole 2 is opened on a surface of the control box main body 1, and the microcomputer numerical control machine tool control device further includes:

the heat conducting structure 3 is arranged on the control box main body 1 and is used for fully contacting with the control elements at different positions in the control box main body 1 so as to transfer heat generated by the control elements at different positions away, and the control elements can be separated from the control elements under the condition that the control elements do not need to be subjected to external heat dissipation, so that the influence on the normal heat dissipation of the control elements is avoided; and

the heat dissipation structure 4 is installed on the control box main body 1 and used for uniformly spraying the cooling liquid on the heat conduction structures 3 at different positions by taking the heat conduction structures 3 as power input, and then, the cooling liquid is rapidly evaporated so as to fully eliminate the heat absorbed by the heat conduction structures 3 from the control element.

In an embodiment of the present invention, the heat conducting structure 3 can move the positions of the heat absorbing objects to enable the heat absorbing objects to contact with the control element in the control box body 1, so as to achieve the purpose of fully absorbing the heat generated by the control element at different positions in the control box body 1, or a refrigerator can be used to create a low temperature environment at one side of the control element to absorb the heat of the control element, and the heat dissipating structure can spray the cooling liquid onto the heat conducting structure 3 first, and then quickly evaporate the cooling liquid or contact the heat conducting structure 3 with the flowing cooling liquid, so as to take away the heat absorbed by the heat conducting structure 3 from the control element.

As shown in fig. 1-3, in one embodiment of the present invention, the heat conducting structure 3 includes:

a heat conduction assembly 31 installed on the control box body 1 for absorbing heat generated by control elements at different positions in the control box body 1;

the traction assembly 32 is arranged on the control box main body 1 and the heat conduction assembly 31 and is used for driving the heat conduction assembly 31 to move so that the heat conduction assembly 31 can be separated from the control element; and

and the first transmission assembly 33 is arranged on the control box main body 1 and is used for driving the traction assembly 32 to move through mechanical transmission.

In this embodiment, the heat conducting assembly 31 may adopt a mode that an elastic object drives the heat absorbing object to move or an electric telescopic rod drives the heat absorbing object to move, so that the plurality of control box main bodies 1 can all contact with the control element, the pulling assembly 32 may adopt a mode that a plurality of heat absorbing objects are pulled simultaneously or a mode that a plurality of telescopic objects are utilized to drive different heat absorbing objects to move, so that the heat absorbing object can be close to or away from the control element, and the first transmission assembly 33 may drive the heat conducting assembly 31 to move through a mode that the telescopic rod is pulled or a pull rope is lifted.

In this embodiment, the heat conducting assembly 31 includes:

a heat conductive member 311 for absorbing heat generated by the control elements in the control box main body 1; and

the telescopic member 312 is mounted on the control box body 1, and is used for mounting the heat conducting member 311 and driving the heat conducting member 311 to move in the control box body 1.

In this embodiment, the heat conducting member 311 may be a heat conducting plate or a heat conducting sheet, the expansion member 312 may be a spring or an electric telescopic rod, and the expansion member 312 is used to drive the heat conducting member 311 to approach or be away from the control element, and when the heat conducting member 311 is attached to the control element, the heat absorbing the control element can be taken away.

In this embodiment, the dragging assembly 32 includes:

the pulling part 321 is connected with the heat conducting assembly 31 and used for pulling the heat conducting assembly 31 to move; and

the winding member 322 is connected to the control box body 1, and a first rolling member is disposed at a connection position of the winding member and the control box body 1, and is used for winding or unwinding the pulling member 321.

In this embodiment, the driving member 321 may be a waterproof tape or a flexible cloth strip, and the driving member 321 may prevent the cooling liquid from passing through a gap between two adjacent heat conducting members 311 and contacting the control element when the heat dissipation structure 4 sprays the cooling liquid on the plurality of heat conducting members 311, the winding member 322 may be a winding rod or a connection column, the first rolling member is an axle seat or a rolling bearing, and the winding member 322 is used for storing or extending the driving member 321 by rotating on the control box main body 1.

In this embodiment, the first transmission assembly 33 includes:

the second transmission piece 334 is arranged on the traction component 32 and is used for driving the traction component 32 to rotate on the control box main body 1;

the first transmission piece 333 is connected with the second transmission piece 334 and is used for driving the second transmission piece 334 to move; and

and the driving source is arranged on the control box main body 1, is used for installing the first transmission piece 333 and can also drive the first transmission piece 333 to move.

In this embodiment, the second transmission member 334 may be a bevel gear or a transmission gear ring, the first transmission member 333 may be a bevel gear or a transmission gear disc, the driving source may be composed of a rotation member 332 and a driving member 331, the rotation member 332 may be a rotation rod or a transmission cylindrical rod, the driving member 331 may be a driving motor or a stepping motor, the driving member 331 may drive the rotation member 332 to rotate, so that the rotation member 332 drives the first transmission member 333 to rotate, and the first transmission member 333 drives the second transmission member 334 to rotate, so that the second transmission member 334 may drive the winding member 322 to wind or unwind the pulling member 321.

As shown in fig. 1 and 2, in one embodiment of the present invention, the heat dissipation structure 4 includes:

the spraying assembly 42 is arranged on the control box main body 1 and is used for spraying cooling liquid on the heat conducting structure 3;

the second transmission assembly 43 is arranged on the control box main body 1 and the spraying assembly 42 and is used for driving the spraying assembly 42 to move by taking the heat conduction structure 3 as power input, so that the spraying assembly 42 can uniformly spray the cooling liquid on the heat conduction structure 3; and

and the air inducing piece 41 is installed on the control box main body 1 and is used for blowing air to the control element and the heat conducting structure 3 so as to accelerate the evaporation of the cooling liquid on the heat conducting structure 3.

In this embodiment, the spraying assembly 42 may atomize and spray the cooling liquid on the heat conducting member 311, or the cooling liquid is coated on the heat conducting member 311 to make the cooling liquid spread on the surface of the heat conducting member 311, the second transmission assembly 43 may drive the spraying assembly 42 to move in a screw nut transmission or a rack and pinion transmission manner, so that the spraying assembly 42 can uniformly spray the cooling liquid on the heat conducting structure 3, the air inducing member 41 may be composed of a first ventilating member 411, an air inducing member 412, a second ventilating member 413 and a third ventilating member 414, the first ventilating member 411 may be an air exhausting pipe or an air sucking cover, the air inducing member 412 may be a negative pressure fan or an air inducing fan, the second ventilating member 413 may be a blowing nozzle or a blowing nozzle, the third ventilating member 414 may be a ventilating pipe or a blowing pipe, the air inducing member 412 extracts air in the control box main body 1 through the first ventilating member 411 and sends the air into the third ventilating member 414, so that the wind blows on the surface of the heat conductive member 311 or the surface of the control member through the second ventilation member 413 to which the third ventilation member 414 is connected.

In this embodiment, the shower assembly 42 includes:

a spray member 424 having an opening position corresponding to the position of the heat conductive structure 3, for spraying the cooling liquid on the heat conductive structure 3;

a liquid injection member communicated with the spray member 424; and

the water storage piece 423 is installed on the control box main body 1, is communicated with the liquid injection piece and is used for storing cooling liquid, and the liquid injection piece is used for injecting the cooling liquid in the water storage piece 423 into the spraying piece 424.

In this embodiment, the spraying member 424 may be an atomizing nozzle or a three-hole nozzle, the liquid injection member may be composed of a second water passage member 425, a first water passage member 421 and a water pumping member 422, the second water passage member 425 may be a water passage pipe, the first water passage member 421 may be a flexible hose or a water delivery narrow pipe, the water pumping member 422 may be a water pump or a submersible pump, the water storage member 423 may be a water storage tank or a water storage barrel, the water pumping member 422 extracts the cooling liquid in the water storage member 423 and injects the cooling liquid into the first water passage member 421, and then feeds the cooling liquid into the moving member 431, and finally sprays the cooling liquid on the surface of the heat conduction member 311 through the spraying member 424.

In this embodiment, the second transmission assembly 43 includes:

the moving part 431 is connected with the spraying assembly 42 and is used for driving the spraying assembly 42 to move along the vertical direction;

the third transmission part 432 is installed on the control box main body 1, and a first rolling part 433 is arranged at the joint of the third transmission part 432 and the control box main body 1 and is used for driving the movement part 431 to move;

the fifth transmission piece 435 is arranged on the third transmission piece 432 and is used for driving the third transmission piece 432 to rotate on the control box main body 1 through the first rolling piece 433; and

the fourth transmission member 434 is mounted on the heat conducting structure 3, and connected to the fifth transmission member 435, and is used for driving the fifth transmission member 435 to move by using the heat conducting structure 3 as a power input.

In this embodiment, the moving member 431 may be a ball nut or a threaded ring, the third transmission member 432 may be a ball screw or a threaded rod, the first rolling member 433 may be a bearing or a shaft seat, the fourth transmission member 434 may be a bevel gear or a transmission gear ring, when the winding member 322 rotates, the fourth transmission member 434 may be driven to rotate, so that the fourth transmission member 434 drives the fifth transmission member 435 to rotate, so that the fifth transmission member 435 drives the third transmission member 432 to rotate on the control box body 1 through the first rolling member 433, and further, the moving member 431 may drive the spraying assembly 42 to move for spraying.

As shown in fig. 1, in an embodiment of the present invention, the cnc machine control apparatus further includes: and the dust filtering structure 5 is arranged on the control box main body 1 and is used for filtering air entering the control box main body 1 to prevent dust in the air from being accumulated on a control element.

The dust filter structure 5 includes:

a cover member 51 covering the heat dissipation vent hole 2 for preventing air from entering the control box main body 1 through the heat dissipation vent hole 2 without being filtered;

a filter member 53 slidably coupled to the cover member 51 for filtering air introduced into the cover member 51;

a reset element 52, arranged between the covering element 51 and the filtering element 53, for driving the filtering element 53 to move inside the covering element 51; and

knocking piece 54, connected to heat dissipation structure 4, for knocking filter piece 53 by using heat dissipation structure 4 as power input motion, so that filter piece 53 vibrates to prevent the dust filter from being clogged by the scraps.

In this embodiment, the dust filtering structure 5 can prevent dust from entering the control box main body 1 by arranging a filtering object at the heat dissipation vent hole 2 and vibrating the filtering object, or a dust removing fan can be installed on the control box main body 1 and blow air into the control box main body 1 by using the dust removing fan;

the cover 51 may be a cover box or a ventilation hood, the filter member 53 may be a filter plate or a dust screen, the reset member 52 may be a spring or an elastic damping block, the knocking member 54 may be an eccentric impact block or a cam, and the knocking member 54 vibrates inside the cover 51 by impacting the second transmission assembly 43 and causing the filter member 53 to pass through the reset member 52, so that dust on the surface of the filter member 53 can be shaken off.

The working mode of the invention is as follows: when the control element inside the control box body 1 needs to be cooled, the driving element 331 can be opened, the driving element 331 drives the rotating element 332 to rotate, the first driving element 333 sleeved outside the rotating element 332 can drive the second driving element 334 to rotate, the winding element 322 connected to the second driving element 334 rotates, the driving element 321 is unfolded on the winding element 322, so that the heat conducting element 311 on the driving element 321 is not bound by the driving element 321, the telescopic element 312 can drive the heat conducting element 311 to move, so that the heat conducting element 311 can be attached to the control element and absorb heat, then the water pumping element 422 is opened, the water pumping element 422 pumps the cooling liquid in the water storage element 423 and injects the cooling liquid into the first water passing element 421, then the cooling liquid is sent into the moving element 431, and finally is sprayed on the surface of the heat conducting element 311 through the spraying element 424, and when the winding element 322 rotates, the fourth driving element 434 can be driven to rotate, so that the fourth driving element 434 drives the fifth driving element 435 to rotate, so that the fifth transmission member 435 drives the third transmission member 432 to rotate on the control box main body 1 through the first rolling member 433, so that the moving member 431 can drive the spraying member 424 to move for spraying, thereby achieving the purpose of uniformly spraying the cooling liquid on the surface of the heat conducting member 311, then, the wind making member 412 is opened, the wind making member 412 draws the air in the control box main body 1 through the first ventilating member 411 and sends into the third ventilating member 414, so that the wind blows on the surface of the heat conductive member 311 or the surface of the control member through the second ventilation member 413 to which the third ventilation member 414 is connected, so as to accelerate the evaporation of the cooling liquid on the surface of the heat-conducting member 311, and further quickly take away the heat on the heat-conducting member 311, under the condition that the control element does not need to dissipate heat by means of external force, the rotating rod 322 can be reversely rotated, so that the traction part 321 drives the heat conduction part 311 to return to the original position, the heat conduction part 311 is separated from the control element, and the influence on the normal heat dissipation of the control element is avoided;

when the third transmission member 432 rotates, the knocking member 54 is driven by the third transmission member 432 to intermittently impact the filtering member 53, so that the filtering member 53 vibrates inside the covering member 51 through the restoring member 52, and the dust on the surface of the filtering member 53 can be shaken off.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a computer numerical control machine tool controlling means, includes control box main part and heat dissipation ventilation hole, and the surface at the control box main part is seted up in the heat dissipation ventilation hole, its characterized in that, computer numerical control machine tool controlling means still includes:

the heat conduction structure is arranged on the control box main body and is used for fully contacting with the control elements at different positions in the control box main body so as to transfer heat generated by the control elements at different positions away, and the heat conduction structure can be separated from the control elements under the condition that the control elements do not need to dissipate heat by means of external force, so that the influence on the normal heat dissipation of the control elements is avoided;

the heat dissipation structure is arranged on the control box main body and used for uniformly spraying cooling liquid on the heat conduction structures at different positions by taking the heat conduction structure as power input, and then fully eliminating the heat absorbed by the heat conduction structure from the control element in a manner of quickly evaporating the cooling liquid;

the heat conductive structure includes:

the traction assembly is arranged on the control box main body and the heat conduction assembly and is used for driving the heat conduction assembly to move so as to enable the heat conduction assembly to be separated from the control element;

the first transmission assembly is arranged on the control box main body and is used for driving the traction assembly to move through mechanical transmission; and

the pulling assembly comprises:

2. The cnc control apparatus according to claim 1, wherein the heat conducting assembly comprises:

the extensible member is installed in the control box main part for install heat conduction spare, and still be used for driving heat conduction spare and remove in the control box main part.

3. The cnc control device according to claim 1, wherein the first transmission assembly comprises:

the driving source is arranged on the control box main body and used for mounting the first transmission piece and driving the first transmission piece to move.

4. The cnc machine control apparatus according to claim 1, wherein the heat dissipating structure comprises:

5. The cnc machine control apparatus according to claim 4, wherein the spray assembly comprises:

the liquid injection part is communicated with the spraying part; and

6. The cnc control apparatus according to claim 4, wherein the second transmission assembly comprises:

7. The cnc control apparatus according to claim 1, characterized in that the cnc control apparatus further comprises: and the dust filtering structure is arranged on the control box main body and is used for filtering air entering the control box main body, so that dust in the air is prevented from being accumulated on the control element.

8. The cnc control apparatus according to claim 7, wherein the dust filtering structure comprises: