CN210160333U - Device for multi-directional die forging spraying and cooling die - Google Patents

Abstract

The utility model relates to a device for multidirectional die forging spraying and cooling mould and application method thereof. The support of the device is a section of channel steel arranged laterally at a notch, an upper flange plate of the support is provided with a first hole through hole and a second hole through hole, the first hole is provided with an upper water spray nozzle with a nozzle outwards, the upper water spray nozzle is communicated with an outlet of an upper water spray nozzle body at the inner side of the support, and a water inlet and an air inlet of the upper water spray nozzle body are respectively communicated with a water inlet pipeline and an air inlet pipeline; the second hole through hole is provided with an upper lubricant nozzle with a nozzle outward, the upper lubricant nozzle is communicated with an outlet of an upper lubricant nozzle body on the inner side of the bracket, and an air inlet and a lubricant inlet of the upper lubricant nozzle body are respectively communicated with an air inlet pipeline and a lubricant pipeline; the support is of an up-and-down symmetrical structure. The utility model discloses can improve the life of production efficiency and mould.

Description

Device for multi-directional die forging spraying and cooling die

Technical Field

The utility model relates to a forge mould, especially a device that is used for multidirectional die forging spraying and cooling mould.

Background

The die of the multidirectional die forging press is one of the most important parts in the whole forging process, the temperature of the die is a main factor for forming the forge piece, the forming of the forge piece is not good when the temperature of the die is too low, and the loss of the die is too large when the temperature of the die is higher, so that the control of the temperature is very important and necessary. The mold is generally divided into two half molds, and the mold is manually cooled by a spray gun after forging and pressing are finished, so that the requirement on the technical level of manual work is high, and the workload is very large. Because the operation space is limited, only one spray gun can be used for operation, the time is wasted in the production process, and the temperature is measured in manual cooling.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a device that is used for multidirectional die forging spraying and cooling mould, can improve the life of production efficiency and mould.

The utility model provides a technical scheme that its technical problem adopted is:

a device for multi-directional die forging spraying and mold cooling comprises a support, wherein the support is a section of channel steel with a notch arranged laterally, an upper flange plate of the support is provided with a first hole through hole and a second hole through hole, an upper water spray nozzle with an outward nozzle is arranged at the first hole through hole, the upper water spray nozzle is communicated with an outlet of an upper water spray nozzle body on the inner side of the support, and a water inlet and an air inlet of the upper water spray nozzle body are respectively communicated with an air inlet pipeline through a water inlet pipeline; the second hole through hole is provided with an upper lubricant nozzle with a nozzle outward, the upper lubricant nozzle is communicated with an outlet of an upper lubricant nozzle body on the inner side of the bracket, and an air inlet and a lubricant inlet of the upper lubricant nozzle body are respectively communicated with an air inlet pipeline and a lubricant pipeline; the support is of an up-and-down symmetrical structure.

Adopt above-mentioned technical scheme the utility model discloses, compare with prior art, beneficial effect is:

the upper die and the lower die are simultaneously cooled and sprayed with the lubricant, so that the production interval time is reduced, the production efficiency is improved, the safety of workers is guaranteed, and the service life of the dies is prolonged.

Further, the utility model discloses an optimization scheme is:

the lower flange plate of the bracket is provided with a third through hole and a fourth through hole, the third through hole is symmetrical to the first through hole, the fourth through hole is symmetrical to the second through hole, the third through hole is provided with a lower water spray nozzle with a nozzle outwards, the lower water spray nozzle is communicated with the water outlet of the lower water spray nozzle body on the inner side of the bracket, and the water inlet and the air inlet of the lower water spray nozzle body are respectively communicated with the water inlet pipeline and the air inlet pipeline; and a lower lubricant nozzle with a nozzle outwards is arranged in the fourth through hole, the lower lubricant nozzle is communicated with an outlet of a lower lubricant nozzle body on the inner side of the bracket, and an air inlet and a lubricant inlet of the lower lubricant nozzle body are respectively communicated with an air inlet pipeline and a lubricant pipeline.

Drawings

Fig. 1 is a front view of an embodiment of the present invention;

FIG. 2 is a left side view of FIG. 1;

in the figure, a bracket 1; an upper flange plate 1-1; a lower flange plate 1-2; a first through aperture 1-3; a second through aperture 1-4; a third through aperture 1-5; a fourth through aperture 1-6; an upper water spray nozzle 2; an upper water spray nozzle body 3; a lower water spray nozzle 4; a lower water spray nozzle body 5; an upper lubricant nozzle 6; upper lubricant nozzle 7 body; a lower lubricant nozzle 8; lower lubricant nozzle body 9.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1 and 2, the device for multi-directional die forging spraying and cooling of the die is composed of a support 1, an upper water spray nozzle 2, an upper water spray nozzle body 3, a lower water spray nozzle 4, a lower water spray nozzle body 5, an upper lubricant spray nozzle 6, an upper lubricant spray nozzle body 7, a lower lubricant spray nozzle 8 and a lower lubricant spray nozzle body 9. The bracket 1 is a section of channel steel arranged laterally on a notch, a first through hole 3 and a second through hole 1-4 are processed on an upper flange plate 1-1 of the bracket 1, and the first through hole 3 and the second through hole 1-4 are longitudinally arranged.

The first through hole 1-3 is provided with an upper water spray nozzle 2, the nozzle of the upper water spray nozzle 2 is arranged outwards, the nozzle of the upper water spray nozzle 2 is arranged at the outer side of the upper flange plate 1-1, the upper water spray nozzle 2 is communicated with the outlet of an upper water spray nozzle body 3 at the inner side of the support 1, the upper water spray nozzle body 3 is connected with the support 1 through a bolt, and the water inlet and the air inlet of the upper water spray nozzle body 3 are respectively communicated with a water inlet pipeline and an air inlet pipeline. The second hole through hole 1-4 is provided with an upper lubricant nozzle 6, the nozzle of the upper lubricant nozzle 6 is arranged outwards, the nozzle of the upper lubricant nozzle 6 is arranged on the outer side of the upper flange plate 1-1, the upper lubricant nozzle 6 is communicated with the outlet of an upper lubricant nozzle body 7 on the inner side of the support 1, the upper lubricant nozzle body 7 is connected with the support 1 through bolts, and the air inlet and the lubricant inlet of the upper lubricant nozzle body 7 are respectively communicated with an air inlet pipeline and a lubricant pipeline.

The bracket 1 is in an up-and-down symmetrical structure. The lower flange plate 1-2 of the bracket 1 is provided with a third through hole 1-5 and a fourth through hole 1-6, wherein the third through hole 1-5 is symmetrical to the first through hole 1-3, and the fourth through hole 1-6 is symmetrical to the second through hole 1-4. The third through hole 1-5 is provided with a lower water spray nozzle 4, the nozzle of the lower water spray nozzle 4 is arranged outwards, the nozzle of the lower water spray nozzle 4 is arranged at the outer side of the lower flange plate 1-2 of the bracket 1, the lower water spray nozzle 4 is communicated with the water outlet of the lower water spray nozzle body 5 at the inner side of the bracket 1, and the water inlet and the air inlet of the lower water spray nozzle body 5 are respectively communicated with a water inlet pipeline and an air inlet pipeline; the fourth hole through hole 1-6 is provided with a lower lubricant nozzle 8, the nozzle of the lower lubricant nozzle 8 is arranged outwards, the nozzle of the lower lubricant nozzle 8 is arranged at the outer side of the lower flange plate 1-2 of the bracket 1, the lower lubricant nozzle 8 is communicated with the outlet of a lower lubricant nozzle body 9 at the inner side of the bracket 1, the lower lubricant nozzle body 9 is connected with the bracket 1 through a bolt, and the air inlet and the lubricant inlet of the lower lubricant nozzle body 9 are respectively communicated with an air inlet pipeline and a lubricant pipeline.

The device for multi-directional die forging spraying and die cooling described in the embodiment is used according to the following steps:

A. the device is welded on an arm extension rod of a manipulator, each inlet of the device is communicated with a corresponding pipeline, and automatic action is finished by means of automatic programming of the manipulator;

B. after the press finishes forging, an upper die and a lower die of the die are separated, and the forge piece is taken out by a blanking manipulator;

C. the manipulator device extends into the die, water spraying is started after the upper water spraying nozzle 2 and the lower water spraying nozzle 4 respectively align to the upper punch and the lower ejection position, after water spraying is carried out for a period of time, the manipulator is controlled to carry out flowing water spraying along the edge of the die cavity of the die until the temperature of the die is reduced to a required range, and water spraying is stopped;

D. the upper and lower lubricant nozzles 6, 8 spray graphite or other release agents directly onto the inner surface of the mold.

The above description is only a preferred and practical embodiment of the present invention, and not intended to limit the scope of the present invention, and all structural equivalents made by using the contents of the specification and drawings are included in the scope of the present invention.

Claims (2)

1. A device for spraying and cooling a die by multi-directional die forging comprises a bracket and is characterized in that the bracket is a section of channel steel with a notch arranged laterally, an upper flange plate of the bracket is provided with a first hole through hole and a second hole through hole, the first hole through hole is provided with an upper water spray nozzle with an outward nozzle, the upper water spray nozzle is communicated with an outlet of an upper water spray nozzle body on the inner side of the bracket, and a water inlet and an air inlet of the upper water spray nozzle body are respectively communicated with a water inlet pipeline and an air inlet pipeline; the second hole through hole is provided with an upper lubricant nozzle with a nozzle outward, the upper lubricant nozzle is communicated with an outlet of an upper lubricant nozzle body on the inner side of the bracket, and an air inlet and a lubricant inlet of the upper lubricant nozzle body are respectively communicated with an air inlet pipeline and a lubricant pipeline; the support is of an up-and-down symmetrical structure.

2. The apparatus for multi-directional die forging spraying and cooling of a die as set forth in claim 1, wherein the lower flange plate of the bracket is provided with a third through hole and a fourth through hole, the third through hole being symmetrical to the first through hole, the fourth through hole being symmetrical to the second through hole, the third through hole being provided with a lower water jet nozzle having an outward opening, the lower water jet nozzle being communicated with a water outlet of a lower water jet nozzle body inside the bracket, a water inlet and an air inlet of the lower water jet nozzle body being communicated with the water inlet pipe and the air inlet pipe, respectively; and a lower lubricant nozzle with a nozzle outwards is arranged in the fourth through hole, the lower lubricant nozzle is communicated with an outlet of a lower lubricant nozzle body on the inner side of the bracket, and an air inlet and a lubricant inlet of the lower lubricant nozzle body are respectively communicated with an air inlet pipeline and a lubricant pipeline.

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