CN219562380U - Cooling mechanism of metal numerical control machining center - Google Patents

Abstract

The utility model discloses a cooling mechanism of a metal numerical control machining center, which comprises a water cooling mechanism, wherein the top and the bottom of the water cooling mechanism are fixedly connected with a second installation frame, one side of the water cooling mechanism is fixedly connected with two groups of positioning rods, and the outer surfaces of the positioning rods are slidably connected with an air blowing mechanism. According to the utility model, the water cooling mechanism for cooling by using the water cooling mode is arranged, so that the water cooling mechanism can continuously cool, then the air blowing mechanism can timely convey air cooled by the air cooling mechanism to the surface of a corresponding metal piece, when small-size metal pieces are cooled, the air blowing mechanism can be driven by the adjusting mechanism to extend out along the locating rod, thereby being capable of cooling the small-size metal pieces by concentrating wind force, and when large-size metal pieces are cooled, the air blowing mechanism can be driven by the adjusting mechanism to move backwards along the locating rod, so that the air blowing area can be enlarged to carry out full-face coverage cooling on the large-size metal pieces.

Description

Cooling mechanism of metal numerical control machining center

Technical Field

The utility model relates to the technical field of numerical control machining, in particular to a cooling mechanism of a metal numerical control machining center.

Background

The hardware is a tool obtained by processing and casting metals such as gold, silver, copper, iron, tin and the like, and is used for fixing things, processing things, decorating and the like.

The method is characterized in that the numerical control center is required to be used for polishing, slotting and the like in the metal hardware processing process, the steps are required to be subjected to cooling treatment after the processing is finished, an air cooling mode is usually utilized in the cooling treatment process, most of air cooling equipment of existing equipment is fixedly arranged, the equipment cannot be fully covered when the large-size metal part is subjected to air cooling, and the small-size metal part cannot be subjected to concentrated wind power for cooling, so that the cooling mechanism of the metal numerical control processing center is provided.

Disclosure of Invention

The utility model aims to provide a cooling mechanism of a metal numerical control machining center, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a metal numerical control machining center cooling body, includes water-cooling body, the equal fixedly connected with second mounting bracket in top and bottom of water-cooling body, one side fixedly connected with two sets of locating levers of water-cooling body, the surface sliding connection of locating lever has blast mechanism, fixedly mounted has the adjustment mechanism that drive blast mechanism removed along the surface of locating lever between water-cooling body and the blast mechanism.

Further, the water cooling mechanism comprises a first conveying pipe and a second conveying pipe, the first conveying pipe and the second conveying pipe are fixedly communicated through a plurality of groups of connecting pipes, one end of the first conveying pipe is fixedly communicated with a water inlet pipe, and one end of the second conveying pipe is fixedly communicated with a water outlet pipe.

Further, the blast mechanism includes mounting panel, first mount, first mounting bracket and servo motor, mounting panel slidable mounting is in the surface of locating lever, the surface of mounting panel runs through and is provided with first mount, the inside of first mount has servo motor through first mounting bracket fixed mounting, servo motor's surface fixed mounting has the flabellum.

Further, adjustment mechanism includes fixed block, double-end screw rod, threaded sleeve, second mount, third mount and actuating lever, the fixed block sets up to two sets of and fixed mounting in one side of first conveyer pipe, two sets of the double-end screw rod is installed in the opposite side rotation of fixed block, the surface of double-end screw rod is provided with two sets of threaded sleeve rather than looks adaptation, one side fixedly connected with second mount of threaded sleeve, the inside fixedly connected with first pivot of second mount, the surface rotation of first pivot is connected with first sleeve pipe, third mount fixed mounting is in one side of mounting panel, the inside fixedly connected with second pivot of third mount, the surface rotation of second pivot is connected with the second sleeve pipe, the surface fixedly connected with actuating lever of first sleeve pipe and second sleeve pipe.

Further, the cross section of the threaded sleeve is rectangular, one side of the threaded sleeve is attached to the side wall of the first conveying pipe, and one end of the double-end screw is fixedly connected with a rotating block.

Further, one end of the locating rod, which is far away from the first conveying pipe, is fixedly connected with a limiting plate.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the water cooling mechanism for cooling by using the water cooling mode is arranged to continuously cool the water cooling mechanism, then the air blowing mechanism can timely convey the air cooled by the air cooling mechanism to the surface of a corresponding metal piece, when the small-size metal piece is cooled, the air blowing mechanism is driven by the adjusting mechanism to extend out along the locating rod, so that the small-size metal piece can be cooled by concentrated wind force, and when the large-size metal piece is cooled, the air blowing mechanism is driven by the adjusting mechanism to move backwards along the locating rod, so that the whole coverage cooling can be carried out on the large-size metal piece by enlarging the air blowing area, and the application range of the cooling of the metal piece can be wider.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of the blower mechanism removed;

FIG. 3 is an enlarged schematic view of the structure A of the present utility model.

In the figure: 1 water cooling mechanism, 2 locating rods, 3 blast mechanism, 4 adjustment mechanism, 5 first conveyer pipe, 6 second conveyer pipe, 7 outlet pipe, 8 inlet tube, 9 connecting pipe, 10 mounting panel, 11 first mount, 12 first mounting bracket, 13 servo motor, 14 flabellum, 15 fixed block, 16 double-end screw rod, 17 screw sleeve, 18 second mount, 19 first pivot, 20 first sleeve, 21 third mount, 22 second pivot, 23 second sleeve, 24 actuating lever, 25 rotary block, 26 second mounting bracket, 27 limiting plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, the present utility model provides a technical solution: the utility model provides a metal numerical control machining center cooling body, includes water-cooling body 1, the equal fixedly connected with second mounting bracket 26 in top and bottom of water-cooling body 1, one side fixedly connected with two sets of locating lever 2 of water-cooling body 1, the surface sliding connection of locating lever 2 has blast mechanism 3, fixed mounting has the adjustment mechanism 4 that drive blast mechanism 3 removed along the surface of locating lever 2 between water-cooling body 1 and the blast mechanism 3.

The water cooling mechanism 1 for cooling by means of water cooling can be arranged to enable the water cooling mechanism 1 to continuously cool, then the air blowing mechanism 3 can timely convey air cooled by the air cooling mechanism 1 to the surface of a corresponding metal piece, when small-size metal pieces are cooled, the air blowing mechanism 3 can be driven by the adjusting mechanism 4 to extend out along the positioning rod 2, so that small-size metal pieces can be cooled by concentrated wind force, and when large-size metal pieces are cooled, the air blowing mechanism 3 can be driven by the adjusting mechanism 4 to move backwards along the positioning rod 2, so that the whole coverage cooling of the large-size metal pieces can be carried out by enlarging the air blowing area, and the application range of the cooling of the metal pieces can be wider.

Referring to fig. 1 and 2, the water cooling mechanism 1 includes a first conveying pipe 5 and a second conveying pipe 6, the first conveying pipe 5 and the second conveying pipe 6 are fixedly communicated through a plurality of groups of connecting pipes 9, one end of the first conveying pipe 5 is fixedly communicated with a water inlet pipe 8, and one end of the second conveying pipe 6 is fixedly communicated with a water outlet pipe 7.

Wherein, the one end of inlet tube 8 passes through the working shaft and is fixed intercommunication with the water tank, and then the working shaft can carry the inside cooling water of water tank to the inside of first conveyer pipe 5, and then first conveyer pipe 5 alright carry to the inside of multi-group connecting pipe 9 to can utilize connecting pipe 9 to cool off the surrounding air, then the cooling water after passing through connecting pipe 9 can be through second conveyer pipe 6 and outlet pipe 7 and discharge to the inside recovery of water tank again.

Referring to fig. 1, the blower mechanism 3 includes a mounting plate 10, a first fixing frame 11, a first mounting frame 12 and a servo motor 13, the mounting plate 10 is slidably mounted on the outer surface of the positioning rod 2, the surface of the mounting plate 10 is provided with the first fixing frame 11 in a penetrating manner, the servo motor 13 is fixedly mounted in the first fixing frame 11 through the first mounting frame 12, and the fan blades 14 are fixedly mounted on the outer surface of the servo motor 13.

After the water cooling mechanism 1 cools the air on the back of the air blowing mechanism 3, the servo motor 13 is started to operate, and the servo motor 13 can drive the fan blades 14 to rotate, so that the cooled air can be discharged to the surface of the metal piece for cooling.

Referring to fig. 1, 2 and 3, the adjusting mechanism 4 includes a fixing block 15, a double-end screw rod 16, a threaded sleeve 17, a second fixing frame 18, a third fixing frame 21 and a driving rod 24, where the fixing block 15 is two groups and is fixedly installed on one side of the first conveying pipe 5, the double-end screw rod 16 is rotatably installed on opposite sides of the fixing block 15, two groups of threaded sleeves 17 adapted to the double-end screw rod 16 are provided on the outer surface of the double-end screw rod 16, one side of the threaded sleeve 17 is fixedly connected with the second fixing frame 18, a first rotating shaft 19 is fixedly connected with the inside of the second fixing frame 18, a first sleeve 20 is rotatably connected with the outer surface of the first rotating shaft 19, the third fixing frame 21 is fixedly installed on one side of the mounting plate 10, a second rotating shaft 22 is fixedly connected with the inside of the third fixing frame 21, a second sleeve 23 is rotatably connected with the outer surface of the second sleeve 23, one end of the double-end screw rod 16 is fixedly connected with a rotating block 25.

The rotating block 25 can be rotated when the small-size metal piece is cooled, the rotating block 25 can drive the double-end screw rod 16 to rotate, then the double-end screw rod 16 can drive the two sets of threaded sleeves 17 to be close to each other, then the driving rod 24 and the first sleeve 20 and the second sleeve 23 at two ends of the driving rod 24 can be driven to gradually trend to be horizontal along the first rotating shaft 19 and the second rotating shaft 22, the air blowing mechanism 3 can be driven to extend along the positioning rod 2, so that the small-size metal piece can be cooled by concentrated wind force, the rotating block 25 can be reversely rotated when the large-size metal piece is cooled, the reverse rotating block 25 can drive the double-end screw rod 16 to reversely rotate, then the double-end screw rod 16 can drive the two sets of threaded sleeves 17 to be mutually separated, so that the driving rod 24 and the first sleeve 20 and the second sleeve 23 at two ends of the driving rod 24 can be driven to gradually incline along the first rotating shaft 19 and the second rotating shaft 22, the air blowing mechanism 3 can be driven to be far away from the surface of the metal piece, so that the air blowing range can be expanded, and the large-size metal piece can be comprehensively cooled.

Referring to fig. 1, 2 and 3, the cross section of the threaded sleeve 17 is rectangular, and one side of the threaded sleeve 17 is attached to the side wall of the first conveying pipe 5.

Wherein, one side of screw sleeve 17 is laminated with the lateral wall of first conveyer pipe 5 mutually, can guarantee that double-end screw rod 16 can not make it take place to rock when driving screw sleeve 17 motion.

Referring to fig. 1, a limiting plate 27 is fixedly connected to an end of the positioning rod 2 away from the first conveying pipe 5, and the limiting plate 27 is configured to prevent the air blowing mechanism 3 from being separated from the positioning rod 2 when moving.

When in use, firstly, one end of the water inlet pipe 8 is fixedly communicated with the water tank through the water supply pump, then the water supply pump can convey cooling water in the water tank to the inside of the first conveying pipe 5, then the first conveying pipe 5 can convey the cooling water to the inside of the plurality of groups of connecting pipes 9, thereby the surrounding air can be cooled by the connecting pipes 9, then the cooling water after passing through the connecting pipes 9 can be discharged again to the inside of the water tank through the second conveying pipe 6 and the water outlet pipe 7 for recycling, after the cooling of the air at the back of the air blowing mechanism 3 by the water cooling mechanism 1 is completed, the servo motor 13 is started to operate, the fan blades 14 can be driven to rotate by the operation of the servo motor 13, so that the cooled air can be discharged to the surface of a metal piece for cooling, the rotating block 25 can be rotated when the small-sized metal piece is cooled, the rotating block 25 can drive the double-end screw 16 to rotate, then the double-end screw 16 can drive the two sets of threaded sleeves 17 to approach each other, then the driving rod 24 and the first sleeve 20 and the second sleeve 23 at two ends of the driving rod 24 can be driven to gradually trend to be horizontal along the first rotating shaft 19 and the second rotating shaft 22, the air blowing mechanism 3 can be driven to extend along the positioning rod 2 by such arrangement, so that the small-size metal piece can be concentrated by wind force to cool, and the large-size metal piece can be cooled, the rotating block 25 can be reversely rotated, the reverse rotating block 25 can drive the double-end screw 16 to reversely rotate, then the double-end screw 16 can drive the two sets of threaded sleeves 17 to be mutually far away, so that the driving rod 24 and the first sleeve 20 and the second sleeve 23 at two ends of the driving rod 24 can be driven to gradually incline along the first rotating shaft 19 and the second rotating shaft 22, therefore, the air blowing mechanism 3 can be driven to be far away from the surface of the metal piece, the air blowing range can be enlarged, and the large-size metal piece can be comprehensively cooled.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a metal numerical control machining center cooling body, includes water-cooling body (1), the equal fixedly connected with second mounting bracket (26) in top and bottom of water-cooling body (1), its characterized in that: two sets of locating levers (2) of one side fixedly connected with of water-cooling mechanism (1), the surface sliding connection of locating lever (2) has blast mechanism (3), fixed mounting has adjustment mechanism (4) that drive blast mechanism (3) removed along the surface of locating lever (2) between water-cooling mechanism (1) and blast mechanism (3), water-cooling mechanism (1) include first conveyer pipe (5) and second conveyer pipe (6), through multiunit connecting pipe (9) fixed intercommunication between first conveyer pipe (5) and second conveyer pipe (6), the one end fixed intercommunication of first conveyer pipe (5) has inlet tube (8), the one end fixed intercommunication of second conveyer pipe (6) has outlet pipe (7).

2. The metal numerically controlled machining center cooling mechanism according to claim 1, wherein: the air blowing mechanism (3) comprises a mounting plate (10), a first fixing frame (11), a first mounting frame (12) and a servo motor (13), wherein the mounting plate (10) is slidably mounted on the outer surface of the positioning rod (2), the surface of the mounting plate (10) is provided with the first fixing frame (11) in a penetrating mode, the servo motor (13) is fixedly mounted in the first fixing frame (11) through the first mounting frame (12), and fan blades (14) are fixedly mounted on the outer surface of the servo motor (13).

3. The metal numerically controlled machining center cooling mechanism according to claim 2, wherein: adjustment mechanism (4) are including fixed block (15), double-end screw rod (16), screw thread sleeve (17), second mount (18), third mount (21) and actuating lever (24), fixed block (15) set up to two sets of and fixed mounting in one side of first conveyer pipe (5), two sets of opposite side rotation of fixed block (15) is installed double-end screw rod (16), the surface of double-end screw rod (16) is provided with two sets of screw thread sleeve (17) rather than the looks adaptation, one side fixedly connected with second mount (18) of screw thread sleeve (17), the inside fixedly connected with first pivot (19) of second mount (18), the surface rotation of first pivot (19) is connected with first sleeve (20), one side of third mount (21) fixed mounting in mounting panel (10), the inside fixedly connected with second pivot (22) of third mount (21), the surface rotation of second pivot (22) is connected with second sleeve (23), the surface fixedly connected with actuating lever (24) of first sleeve (20) and second sleeve (23).

4. A metal numerically controlled machining center cooling mechanism according to claim 3, wherein: the cross section of screw sleeve (17) sets up to the rectangle, one side of screw sleeve (17) is laminated with the lateral wall of first conveyer pipe (5), the one end fixedly connected with rotary block (25) of double-end screw rod (16).

5. The cooling mechanism of a metal numerically controlled machining center according to claim 4, wherein: one end of the locating rod (2) far away from the first conveying pipe (5) is fixedly connected with a limiting plate (27).