CN217617327U - Blanking cooling system of stamping equipment - Google Patents

Abstract

The utility model provides a stamping equipment blanking cooling system belongs to the mould field of making, the utility model discloses a: the system comprises a charging chute, a radiator, an elastic expansion pipe, a circulating booster pump and a heat exchanger; the heat exchanger is provided with a liquid inlet pipe and a liquid outlet pipe; the circulating booster pump and the elastic expansion pipe are both fixed on the liquid outlet pipe; the radiator is arranged on the elastic expansion pipe and is close to the charging chute; the heat exchanger is connected with the elastic expansion pipe through the liquid outlet pipe, and the radiator is connected with the heat exchanger through the liquid inlet pipe; the elastic expansion pipe expands or contracts so that the radiator is in contact with or far away from the charging chute. The utility model discloses a circulation booster pump pours into the cooling water into to the radiator, simultaneously because the higher elastic expansion pipe that can make of cooling water pressure takes place to expand to make the radiator press close to the charging chute and dispel the heat, simplified system architecture, and can cool off rapidly when the stamping workpiece passes through the charging chute.

Description

Blanking cooling system of stamping equipment

Technical Field

The utility model relates to a mould manufacturing technology especially relates to a stamping equipment blanking cooling system, belongs to punching press auxiliary assembly and makes technical field.

Background

Metal stamping is a relatively common metal processing method, and has the advantages of low cost, high production efficiency, convenient operation and the like.

For the workpiece formed by rapid press molding, a natural cooling mode is generally adopted for cooling. However, the stamping die has high temperature in the working process and a large amount of oil vapor, and natural volatilization of the oil vapor can pollute the environment and has certain potential safety hazards.

However, the cooling system in the prior art is not suitable for cooling a large number of stamping parts, and the stamping parts are not suitable for being cooled directly in an air cooling mode due to high temperature in the flowing process, so that oil vapor can be blown out by air cooling, and the working environment is seriously affected. When water cooling is adopted, the water cooling system is complex and the energy consumption is high because the feeding of the stamping equipment has certain intervals.

Therefore, there is a need in the art for a device for rapidly cooling a stamping part for a short period of time.

SUMMERY OF THE UTILITY MODEL

The utility model provides a new stamping equipment blanking cooling system is through setting up the cooling line and utilizing water pressure to laminate radiator and charging chute to can take away the heat rapidly when the stamping workpiece circulation, with the stamping workpiece is difficult to the refrigerated technical problem of short time among the solution prior art.

The utility model discloses stamping equipment blanking cooling system, include: the system comprises a charging chute, a radiator, an elastic expansion pipe, a circulating booster pump and a heat exchanger; the heat exchanger is provided with a liquid inlet pipe and a liquid outlet pipe; the circulating booster pump and the elastic expansion pipe are both fixed on the liquid outlet pipe; the radiator is arranged on the elastic expansion pipe and is close to the charging chute;

the heat exchanger is connected with the elastic expansion pipe through the liquid outlet pipe, and the radiator is connected with the heat exchanger through the liquid inlet pipe;

the elastic expansion pipe expands or contracts so that the radiator is in contact with or far away from the charging chute.

The blanking cooling system of the stamping equipment, wherein the blanking groove is provided with a guide rod; the radiator is sleeved on the guide rod and can slide along the guide rod to be far away from or contact with the charging conduit.

The blanking cooling system of the stamping device, wherein one end of the elastic expansion pipe is provided with a limiting ring which is fixed on the guide rod;

the elastic expansion pipe is sleeved on the guide rod; the elastic expansion pipe expands, so that the other end of the elastic expansion pipe drives the radiator to slide on the guide rod.

The blanking cooling system of the stamping equipment, wherein a plurality of heat conducting pipes are arranged in the blanking groove; the bottom of the inner side of the charging chute is provided with a soaking block;

the heat conduction pipe is fixed in the charging conduit through the soaking block.

The blanking cooling system of the stamping equipment, wherein the radiator is of an umbrella structure; the center of the umbrella-shaped structure is provided with an inlet, and the edge of the umbrella-shaped structure is provided with an outlet; the inlet is connected with the liquid outlet pipe through the elastic expansion pipe, and the outlet is connected with the liquid inlet pipe.

The blanking cooling system of the stamping equipment, wherein the outlets are provided with a plurality of outlets which are uniformly distributed on the edge of the umbrella-shaped structure; the liquid inlet pipe is an elastic pipe.

The blanking cooling system of the stamping equipment, wherein a cooling pipe is arranged in the heat exchanger; the system further includes a refrigeration circuit; the heat exchanger is communicated with the refrigeration pipeline through the cooling pipe.

The blanking cooling system of the stamping equipment, wherein one end of the blanking groove is in a conical structure; the elastic expansion pipe expands to enable the radiator to be sleeved on the conical structure.

The blanking cooling system of the stamping equipment, wherein the elastic expansion pipe is an elliptical elastic capsule; the elastic expansion pipe is connected with the circulating booster pump through the liquid outlet pipe and expands along the flowing direction of the liquid.

In the embodiment of the utility model, the cooling water is injected into the radiator through the circulating booster pump, and meanwhile, because the cooling water is pressurized by the circulating booster pump, the high-pressure cooling water can expand the elastic expansion pipe so as to drive the radiator to be close to the blanking groove for heat dissipation, and in the actual use process, the stamping part can be rapidly cooled only by starting the circulating booster pump when the stamping part passes through the blanking groove; and in the material changing process, the circulating booster pump is closed, and the radiator is automatically far away from the charging chute due to the shrinkage of the elastic expansion pipe, so that the energy is not wasted in the non-working state of the charging chute.

Drawings

Fig. 1 is a side structure diagram of a blanking cooling system of a stamping apparatus according to an embodiment of the present invention in a closed state;

fig. 2 is a side structure diagram of the starting state of the blanking cooling system of the stamping device according to the embodiment of the present invention.

Detailed Description

Stamping equipment blanking cooling system can adopt following material to make, and be not limited to following material, for example: circulating water pump, hose, metal guide rail, mould, radiator, heat exchanger etc..

Fig. 1 is a side view of a closed state of a blanking cooling system of a stamping apparatus according to an embodiment of the present invention; and refer to fig. 2.

The utility model discloses stamping equipment blanking cooling system, include: the system comprises a charging chute 1, a radiator 2, an elastic expansion pipe 3, a circulating booster pump 4 and a heat exchanger 5; the heat exchanger 5 is provided with a liquid inlet pipe 42 and a liquid outlet pipe 41; the elastic expansion tube 3 is directionally expanded after being injected with high-pressure liquid.

The radiator is a closed metal cavity, and cooling water flows in the radiator; the radiator of this embodiment is contact radiator, can contact with the external world and carry out the heat transfer, takes away the heat of external object.

Generally, the elastic expansion tube 3 is an elliptical elastic capsule; the elastic expansion pipe 3 is connected with the circulating booster pump 4 through the liquid outlet pipe 41, and the elastic expansion pipe 3 expands along the liquid flowing direction.

The circulating booster pump 4 and the elastic expansion 3 pipe are both fixed on the liquid outlet pipe 41 and are communicated with the liquid outlet pipe 41; the radiator 2 is arranged on the elastic expansion pipe 3 and is close to the charging chute 1; the radiator 2 is generally opposite to one end of the charging chute 1 and is spaced by 10-25mm.

The heat exchanger 5 is connected with the elastic expansion pipe 3 through the liquid outlet pipe 41, and the radiator 2 is connected with the heat exchanger 5 through the liquid inlet pipe 42; normally, a cooling pipe is arranged in the heat exchanger 5; the embodiment also comprises a refrigeration pipeline; the heat exchanger 5 is communicated with the refrigerating pipeline through the cooling pipe so as to obtain the refrigerating capacity of an external air conditioner.

In the practical use process, the radiator is used for radiating heat for the charging chute and taking away redundant heat on the charging chute, the redundant heat flows into the heat exchanger 5 through the liquid inlet pipe, is cooled by the cold air pipe in the heat exchanger 5, and is discharged through the liquid outlet pipe 41.

The elastic expansion pipe 3 expands or contracts to make the radiator 2 contact with or separate from the charging chute 1.

In the embodiment of the utility model, the cooling water is injected into the radiator through the circulating booster pump, and meanwhile, because the cooling water is pressurized by the circulating booster pump, the high-pressure cooling water can expand the elastic expansion pipe so as to drive the radiator to be close to the charging chute for heat dissipation, and in the actual use process, the stamping part can be rapidly cooled only by starting the circulating booster pump during blanking (when the stamping part flows in the charging chute); after blanking, the circulating booster pump is closed, and the radiator is automatically far away from the blanking groove due to the shrinkage of the elastic expansion pipe, so that energy is saved.

In the blanking cooling system of the stamping equipment of the embodiment, the blanking groove 1 is provided with a guide rod 10; the radiator 2 is sleeved on the guide rod 10 and can slide along the guide rod 10 to be far away from or contact with the charging chute. The direction of the guide rod 10 is consistent with the expansion direction of the elastic expansion tube for ensuring the stable sliding of the elastic expansion tube 3 and the radiator 2.

Further, one end of the elastic expansion pipe 3 is provided with a limiting ring 30, and the limiting ring 30 is fixed on the guide rod 10; thereby avoiding the elastic expansion pipe from deforming in the direction of the limit ring.

The elastic expansion pipe 3 is sleeved on the guide rod 10; the elastic expansion pipe 2 expands, so that the other end of the elastic expansion pipe 2 drives the radiator 2 to slide on the guide rod 10. This design has guaranteed that only need produce high-pressure cooling water, the radiator then can be automatic through predetermined slip orbit and silo in close contact with.

In the blanking cooling system of the stamping equipment of the embodiment, the blanking groove 1 is also internally provided with a plurality of heat conducting pipes 90; the bottom of the inner side of the charging chute 1 is provided with a soaking block 91; the heat conducting pipe 90 is fixed in the charging chute 1 through the heat equalizing block 91.

The heat conducting pipe 90 is typically a heat conducting copper pipe, and the soaking block 91 is a bottom plate made of aluminum alloy.

Because tiny stamping workpiece can pile up in the charging conduit, can not contact with the bottom of charging conduit at the blanking in-process, consequently need set up the area of contact with the stamping workpiece in order to increase in the heat pipe, simultaneously, set up the homothermal piece, guarantee to have certain cold-storage effect, the stability of reinforcing system.

In the blanking cooling system of the stamping equipment in the embodiment, the radiator 2 is in an umbrella-shaped structure; the center of the umbrella-shaped structure is provided with an inlet, and the edge of the umbrella-shaped structure is provided with an outlet; the inlet is connected with the liquid outlet pipe 41 through the elastic expansion pipe 3, and the outlet is connected with the liquid inlet pipe 42.

Generally, the outlet is provided with a plurality of outlets which are uniformly distributed on the edge of the umbrella-shaped structure; the liquid inlet pipe 42 is an elastic pipe and can move synchronously with the radiator.

In the blanking cooling system of the stamping equipment of the embodiment, further, in order to improve the heat dissipation efficiency, one end of the blanking groove 1 is of a conical structure; the elastic expansion pipe 3 expands to enable the radiator 2 to be sleeved on the conical structure, so that the heat transfer area is increased to the maximum extent.

Additionally, the utility model discloses a stamping equipment blanking cooling system cost of manufacture is not high, small and exquisite exquisiteness, and structural design is compact, and the operation is stable, and automatic transformation degree is high, is applicable to the quick cooling in the various tiny stamping workpiece production processes.

The above embodiment numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments. Through the above description of the embodiments, those skilled in the art will clearly understand that the above embodiment method can be implemented by some modifications plus the necessary general technical overlap; of course, the method can also be realized by simplifying some important technical features in the upper level. Based on such understanding, the technical solution of the present invention essentially or the part contributing to the prior art is: holistic effect and structure to the cooperation the utility model discloses each embodiment the structure.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the scope of the invention in its corresponding aspects.

Claims (8)

1. The utility model provides a stamping equipment blanking cooling system which characterized in that includes: the system comprises a charging chute, a radiator, an elastic expansion pipe, a circulating booster pump and a heat exchanger; the heat exchanger is provided with a liquid inlet pipe and a liquid outlet pipe; the circulating booster pump and the elastic expansion pipe are both fixed on the liquid outlet pipe; the radiator is arranged on the elastic expansion pipe and is close to the charging chute;

the heat exchanger is connected with the elastic expansion pipe through the liquid outlet pipe, and the radiator is connected with the heat exchanger through the liquid inlet pipe;

the elastic expansion pipe expands or contracts so that the radiator is in contact with or far away from the charging chute.

2. The blanking cooling system of the stamping equipment as claimed in claim 1, wherein a guide rod is arranged on the blanking groove; the radiator is sleeved on the guide rod and can slide along the guide rod to be far away from or contact with the charging chute.

3. The blanking cooling system of the stamping equipment as claimed in claim 2, wherein one end of the elastic expansion tube is provided with a limiting ring, and the limiting ring is fixed on the guide rod;

the elastic expansion pipe is sleeved on the guide rod; the elastic expansion pipe expands, so that the other end of the elastic expansion pipe drives the radiator to slide on the guide rod.

4. The blanking cooling system of the stamping equipment as claimed in any one of claims 1 to 3, wherein a plurality of heat conducting pipes are arranged in the blanking groove; the bottom of the inner side of the charging chute is provided with a soaking block;

the heat conduction pipe is fixed in the charging chute through the heat equalizing block.

5. The blanking cooling system of the stamping equipment as claimed in claim 2, wherein the heat sink is of an umbrella structure; the center of the umbrella-shaped structure is provided with an inlet, and the edge of the umbrella-shaped structure is provided with an outlet; the inlet is connected with the liquid outlet pipe through the elastic expansion pipe, and the outlet is connected with the liquid inlet pipe.

6. The blanking cooling system of the stamping device as claimed in claim 5, wherein the outlets are provided in a plurality and uniformly distributed at the edge of the umbrella-shaped structure; the liquid inlet pipe is an elastic pipe.

7. The blanking cooling system of the stamping device as claimed in any one of claims 1 to 3, wherein a cooling pipe is arranged in the heat exchanger; the system further includes a refrigeration circuit; the heat exchanger is communicated with the refrigeration pipeline through the cooling pipe.

8. The blanking cooling system of the stamping device as recited in claim 5, wherein one end of the blanking groove is of a conical structure; the elastic expansion pipe expands to enable the radiator to be sleeved on the conical structure.

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