CN112170591B

CN112170591B - Stamping production cooling machine tool

Info

Publication number: CN112170591B
Application number: CN202010924293.8A
Authority: CN
Inventors: 朱同田
Original assignee: Longsheng Tongda Tianjin Steel Co ltd
Current assignee: Longsheng Tongda Tianjin Steel Co ltd
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2024-09-06
Anticipated expiration: 2040-09-04
Also published as: CN112170591A

Abstract

The invention discloses a stamping production cooling machine tool, which comprises a support, wherein a fixed base is arranged on the support, a movable base is arranged on the fixed base, a mounting frame is arranged on the movable base, a sliding die positioning block is arranged on the mounting frame, stamping supports distributed in an array are further arranged on the fixed base, a stamping assembly is arranged in front of the stamping supports, a cooling assembly is further arranged on the support, the cooling assembly comprises side supports distributed in a mirror image mode, radiating cylinders distributed in an array are arranged on the side supports, and a water-cooling motor is arranged between the side supports. The invention has reliable structure, practical function and simple operation, is provided with the die positioning block, the die positioning block can slide and position, the lower part of the die positioning block is provided with the fixed threaded column, the positioning effect is good, the cooling effect is good, the two sides of the die positioning block are provided with the side brackets, the heat dissipation cylinder arranged on the side brackets can effectively cool the stamping assembly, the water spraying port sprays water, and the cooling effect of the stamping part is good.

Description

Stamping production cooling machine tool

Technical Field

The invention relates to a stamping machine tool, in particular to a cooling machine tool for stamping production.

Background

The stamping production is mainly aimed at the plate material. Through the mould, blanking, punching, forming, deep drawing, trimming, fine blanking, shaping, riveting, extrusion and the like can be performed, and the die is widely applied to various fields. The punching machine is widely applied to punching and forming of electronic, communication, computer, household appliances, furniture, vehicles, (automobiles, motorcycles, bicycles) hardware parts and the like, and when in punching, a production machine tool can generate a large amount of heat, the temperature of punching positions is higher, the operation state of personnel is influenced, the punching appliances are deformed, and the punching effect is influenced. In view of this situation, a press-production cooling machine tool is proposed.

Disclosure of Invention

The invention aims to provide a cooling machine tool for stamping production, which has the advantages of reliable structure, practical function and simple operation, and is provided with a die positioning block, wherein the die positioning block can be slidably positioned, a fixed threaded column is arranged below the die positioning block, the positioning effect is good, the cooling effect is good, side brackets are arranged on two sides of the die positioning block, a cooling cylinder arranged on each side bracket can effectively cool a stamping component, water is sprayed from a water spray port, and the cooling effect at a stamping position is good.

The aim of the invention can be achieved by the following technical scheme:

The utility model provides a stamping production cooling lathe, cooling lathe includes the support, be equipped with unable adjustment base on the support, be equipped with the removal base on the unable adjustment base, be equipped with the mounting bracket on the removal base, be equipped with gliding mould locating piece on the mounting bracket, still be equipped with the punching press pillar of array distribution on the unable adjustment base, the punching press pillar the place ahead is equipped with the punching press subassembly, still is equipped with cooling module on the support, cooling module includes the side support of mirror image distribution, is equipped with the heat dissipation drum of array distribution on the side support, is equipped with water-cooling motor between the side support.

Further, the support is provided with the landing leg that the array distributes, is equipped with the T type fixed slot that the array distributes on the unable adjustment base, and unable adjustment base both sides all are equipped with the first fixed plate that the array distributes, all are equipped with the first trompil that the array distributes on the first fixed plate, and the fastener passes first trompil to be fixed on the support, makes unable adjustment base fix on the support, and the punching press pillar is equipped with first backup pad jointly, is equipped with the second trompil in the first backup pad.

Further, remove the base lower both sides and all be equipped with the third trompil, all be equipped with the fixed screw thread post in the third trompil, be equipped with the hexagon head under the fixed screw thread post, the hexagon head is installed in T type fixed slot, be equipped with the nut on the fixed screw thread post, screw up the nut and make and remove the base fixed with the fixed base, remove the last mounting bracket that is equipped with of base, be equipped with the row material spout in the mounting bracket center, be equipped with the punching press mouth on the row material spout, be equipped with the first slide rail of array distribution on the mounting bracket, the mounting bracket top is equipped with the mould locating piece, mould locating piece central point puts and is equipped with punching press locating mouth, be equipped with first spout under the mould locating piece, first spout and first slide rail sliding fit.

Further, the punching press subassembly includes the lifter block, and the lifter block goes up and down in the punching press pillar, is equipped with the rotation hole on the lifter block, is equipped with first fluting on the lifter block, is equipped with the fourth trompil in the first fluting, and lifter block one side is equipped with the shrouding, is equipped with the fifth trompil of array distribution on the shrouding, and fastening screw passes the fifth trompil to be fixed on the lifter block, is equipped with the lead screw in the rotation hole, and lead screw one end is equipped with the commentaries on classics handle, and the lead screw passes the second trompil, rotates the commentaries on classics handle and drives the lifter block and reciprocate.

Further, be equipped with down towards the piece in the first fluting, be equipped with the drift under the down towards the piece, be equipped with the connecting block on the down towards the piece, be equipped with the first pivot of mirror image distribution on the connecting block, a set of first pivot and down towards piece normal running fit, be equipped with the briquetting on the connecting block, another set of first pivot and last briquetting normal running fit, upward be equipped with down the depression bar on the briquetting, upward the briquetting both sides all are equipped with the axis of rotation, the axis of rotation is installed at the downthehole normal running fit of fourth, draws down the depression bar, upward the briquetting rotates and drives down towards the piece undershoot, the drift punches the material in the punching press locating hole.

Further, the side support is provided with second grooves, as shown in the figure and the drawing, the side support is also provided with third grooves distributed in an array, round blocks distributed in mirror images are arranged in the third grooves, the round blocks are provided with axially distributed anti-slip grooves, a second rotating shaft is arranged between the round blocks, the third grooves are internally provided with heat dissipation cylinders, rotating holes are formed in the heat dissipation cylinders, two ends of each heat dissipation cylinder are provided with axially distributed anti-slip blocks, the anti-slip blocks are matched with the anti-slip grooves, the heat dissipation cylinders are prevented from deflecting during use, and the heat dissipation cylinders are also provided with air outlets distributed in an array.

Further, be equipped with the crossbeam between the side support, the crossbeam both ends all are equipped with the second fixed plate, and the second fixed plate is fixed on the second fluting, is equipped with water-cooling motor on the crossbeam, and water-cooling motor one end is equipped with the water inlet, and the water-cooling motor other end is equipped with the water pipe of mirror image distribution, and water pipe one end is equipped with the water jet jointly.

The invention has the beneficial effects that:

1. The invention has reliable structure, practical function and simple operation, is provided with the die positioning block, can slide and position, and has good positioning effect due to the fixed threaded column arranged below the die positioning block;

2. The cooling device has good cooling effect, the side brackets are arranged on the two sides, the heat dissipation cylinder arranged on the side brackets can effectively cool the stamping assembly, the water spraying port sprays water, and the cooling effect of the stamping part is good.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a cooling machine according to the present invention;

FIG. 2 is a cooling of the present invention schematic diagram of machine tool part structure;

FIG. 3 is a cooling of the present invention schematic diagram of machine tool part structure;

FIG. 4 is a schematic view of a portion of the structure of the cooling machine of the present invention;

FIG. 5 is a cooling of the present invention schematic diagram of machine tool part structure;

FIG. 6 is a cooling of the present invention schematic diagram of machine tool part structure;

FIG. 7 is a schematic view of a part of the structure of the cooling machine of the present invention.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

The utility model provides a punching press production cooling machine bed, the cooling machine bed includes support 1, as shown in fig. 1, fig. 5, be equipped with unable adjustment base 12 on the support 1, unable adjustment base 12 is last to be equipped with and remove base 2, be equipped with mounting bracket 23 on removing base 2, be equipped with gliding mould locating piece 24 on the mounting bracket 23, still be equipped with the punching press pillar 13 of array distribution on the unable adjustment base 12, punching press pillar 13 the place ahead is equipped with punching press subassembly 3, still be equipped with cooling module 4 on the support 1, cooling module 4 includes the side support 41 of mirror image distribution, be equipped with the heat dissipation drum 43 of array distribution on the side support 41, be equipped with water-cooling motor 45 between the side support 41.

The support 1 is provided with the landing leg 11 that the array distributes, as shown in fig. 2, be equipped with the T type fixed slot 121 that the array distributes on the unable adjustment base 12, unable adjustment base 12 both sides all are equipped with the first fixed plate 122 that the array distributes, all are equipped with the first trompil 123 that the array distributes on the first fixed plate 122, and the fastener passes first trompil 123 to be fixed on support 1, makes unable adjustment base 12 fix on support 1, and punching press pillar 13 is equipped with first backup pad 131 jointly, is equipped with second trompil 132 in the first backup pad.

The lower two sides of the movable base 2 are respectively provided with a third opening 21, as shown in fig. 3, the third opening 21 is internally provided with a fixed threaded column 22, the lower part of the fixed threaded column 22 is provided with a hexagon head 221, the hexagon head 221 is arranged in the T-shaped fixed groove 121, and the fixed threaded column 22 is provided with

The movable base 2 and the fixed base 12 are fixed by the nuts 222, the mounting frame 23 is arranged on the movable base 2, the discharging chute 231 is arranged in the center of the mounting frame 23, the punching opening 232 is arranged on the discharging chute 231, the first slide rails 233 distributed in an array are arranged on the mounting frame 23, the die positioning block 24 is arranged above the mounting frame 23, the punching positioning opening 241 is arranged in the center of the die positioning block 24, the first slide chute is arranged below the die positioning block 24, and the first slide chute is in sliding fit with the first slide rails 233.

The punching assembly 3 includes a lifting block 31, as shown in fig. 4, the lifting block 31 lifts in the punching strut 13, a rotation hole 311 is formed in the lifting block 31, a first slot 312 is formed in the lifting block 31, a fourth hole 313 is formed in the first slot 312, a sealing plate 32 is formed on one side of the lifting block 31, a fifth hole 321 distributed in an array is formed in the sealing plate 32, a fastening screw 322 passes through the fifth hole 321 and is fixed on the lifting block 31, a screw rod 33 is formed in the rotation hole 311, a rotating handle 331 is formed at one end of the screw rod 33, the screw rod 33 passes through the second hole 132, the rotating handle 331 drives the lifting block 31 to move up and down, a lower punch 34 is arranged in the first slot 312, a punch 341 is arranged under the lower punch 34, a connecting block 35 is arranged on the lower punch 34, a first rotating shaft 351 distributed in a mirror image is arranged on the connecting block 35, a group of first rotating shafts 351 are in rotating fit with the lower punch 34, an upper press block 36 is arranged on the connecting block 35, another group of first rotating shafts 351 are in rotating fit with the upper press block 36, lower press rods 361 are arranged on both sides of the upper press block 36, the rotating shafts 362 are respectively, the rotating shafts 362 are arranged in the rotating shafts 313 are rotatably, the rotating shafts 313 are arranged in the fourth holes 313, the rotating shafts are arranged in the rotating shafts and are arranged under the lower punch shafts 241, and are in the lower punch holes 241, and are matched with the lower punch holes 241, and are positioned under the lower punch holes and are positioned.

The side brackets 41 are respectively provided with a second open slot 411, and as shown in fig. 5, 6 and 7, the side brackets 41 are respectively provided with third open slots 412 distributed in array, round blocks 42 distributed in mirror image are respectively arranged in the third open slots 412, and the round blocks 42 are respectively provided with an axial distribution

A second rotating shaft 422 is arranged between the round blocks 42, a heat dissipation cylinder 43 is arranged in the third groove 412, a rotating opening 431 is arranged in the heat dissipation cylinder 43, axially distributed anti-slip blocks 432 are arranged at two ends of the heat dissipation cylinder 43, the anti-slip blocks 432 are matched with the anti-slip grooves 421 to prevent the heat dissipation cylinder 43 from deflecting when in use, and air ports 433 distributed in an array are also arranged on the heat dissipation cylinder 43;

be equipped with crossbeam 44 between the side support 41, crossbeam 44 both ends all are equipped with second fixed plate 441, and second fixed plate 441 is fixed on second fluting 411, is equipped with water-cooling motor 45 on the crossbeam 44, and water-cooling motor 45 one end is equipped with water inlet 451, and the water-cooling motor 45 other end is equipped with the water pipe 452 of mirror image distribution, and water pipe 452 one end is equipped with water jet 453 jointly.

When the cooling device is used, the cooling cylinder 43 is rotated to adjust the angle of the air outlet 433, cold air cooling is performed, the water jet 453 sprays water to the stamping part for cooling, the die positioning block 24 is used for adjusting the position, the punch 341 is used for stamping, and the stamping part slides out of the discharge chute 231.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims

1. The utility model provides a stamping production cooling machine tool, cooling machine tool includes support (1), its characterized in that, be equipped with unable adjustment base (12) on support (1), be equipped with on unable adjustment base (12) and remove base (2), be equipped with mounting bracket (23) on removing base (2), be equipped with gliding mould locating piece (24) on mounting bracket (23), still be equipped with stamping support (13) of array distribution on unable adjustment base (12), stamping support (13) the place ahead is equipped with punching press subassembly (3), still be equipped with cooling module (4) on support (1), cooling module (4) include mirror image distributed side support (41), be equipped with radiating cylinder (43) of array distribution on side support (41), be equipped with water-cooling motor (45) between side support (41);

The side support (41) is provided with second slots (411), the side support (41) is also provided with third slots (412) distributed in an array, round blocks (42) distributed in a mirror image mode are arranged in the third slots (412), the round blocks (42) are provided with axially distributed anti-slip slots (421), second rotating shafts (422) are also arranged between the round blocks (42), the third slots (412) are internally provided with heat dissipation cylinders (43), the heat dissipation cylinders (43) are internally provided with rotating holes (431), two ends of each heat dissipation cylinder (43) are respectively provided with axially distributed anti-slip blocks (432), the anti-slip blocks (432) are matched with the anti-slip slots (421), and when the heat dissipation cylinders (43) are prevented from deflecting, and the heat dissipation cylinders (43) are also provided with air ports (433) distributed in an array mode;

Be equipped with crossbeam (44) between side support (41), crossbeam (44) both ends all are equipped with second fixed plate (441), and second fixed plate (441) are fixed on second fluting (411), are equipped with water-cooled motor (45) on crossbeam (44), and water-cooled motor (45) one end is equipped with water inlet (451), and water-cooled motor (45) other end is equipped with water pipe (452) of mirror image distribution, and water pipe (452) one end is equipped with water jet (453) jointly.

2. The stamping production cooling machine tool according to claim 1, wherein the support (1) is provided with the supporting legs (11) distributed in an array, the fixing base (12) is provided with the T-shaped fixing grooves (121) distributed in an array, the two sides of the fixing base (12) are provided with the first fixing plates (122) distributed in an array, the first fixing plates (122) are provided with the first holes (123) distributed in an array, the fasteners penetrate through the first holes (123) to be fixed on the support (1), the fixing base (12) is fixed on the support (1), the stamping support (13) is jointly provided with the first supporting plates (131), and the second holes (132) are formed in the first supporting plates.

3. The stamping production cooling machine tool according to claim 2, wherein the lower two sides of the movable base (2) are respectively provided with a third opening (21), fixed threaded columns (22) are respectively arranged in the third openings (21), a hexagon head (221) is arranged below the fixed threaded columns (22), the hexagon head (221) is arranged in a T-shaped fixed groove (121), nuts (222) are arranged on the fixed threaded columns (22), the nuts (222) are screwed down to fix the movable base (2) and the fixed base (12), a mounting frame (23) is arranged on the movable base (2), a discharging chute (231) is arranged in the center of the mounting frame (23), stamping openings (232) are formed in the discharging chute (231), first slide rails (233) distributed in an array are arranged on the mounting frame (23), a die positioning block (24) is arranged above the mounting frame (23), stamping positioning openings (241) are formed in the center of the die positioning block (24), and a first slide groove is formed in the center of the die positioning block (24) and is in sliding fit with the first slide rails (233).

4. The stamping production cooling machine tool according to claim 1, wherein the stamping assembly (3) comprises a lifting block (31), the lifting block (31) is lifted in the stamping support column (13), a rotating hole (311) is formed in the lifting block (31), a first slot (312) is formed in the lifting block (31), a fourth hole (313) is formed in the first slot (312), a sealing plate (32) is arranged on one side of the lifting block (31), fifth holes (321) distributed in an array are formed in the sealing plate (32), fastening screws (322) penetrate through the fifth holes (321) to be fixed on the lifting block (31), a screw rod (33) is arranged in the rotating hole (311), a rotating handle (331) is arranged at one end of the screw rod (33), the screw rod (33) penetrates through the second hole (132), and the rotating handle (331) drives the lifting block (31) to move up and down.

5. The stamping production cooling machine tool according to claim 4, wherein a lower punch block (34) is arranged in the first slot (312), a punch head (341) is arranged below the lower punch block (34), a connecting block (35) is arranged on the lower punch block (34), first rotating shafts (351) distributed in a mirror image mode are arranged on the connecting block (35), one group of the first rotating shafts (351) are in rotating fit with the lower punch block (34), an upper pressing block (36) is arranged on the connecting block (35), the other group of the first rotating shafts (351) are in rotating fit with the upper pressing block (36), a lower pressing rod (361) is arranged on the upper pressing block (36), rotating shafts (362) are arranged on two sides of the upper pressing block (36) and are in rotating fit in a fourth hole (313), the lower pressing rod (361) is pulled down, the upper pressing block (36) is driven to rotate, the lower punch block (34) is driven to perform punching on materials in the stamping locating opening (241).