CN211758390U - Extrusion casting drift cooling device - Google Patents

Abstract

The utility model discloses an extrusion casting drift cooling device, including top punch, lower punch, heat pipe and push rod, top punch and lower punch coaxial arrangement form between top punch and the lower punch and deposit the waters, and the push rod is installed in the lower part of lower punch, and the evaporating end of heat pipe is installed in the top punch, and the condensation end of heat pipe is located the lower punch. The utility model discloses utilize extremely strong heat dispersion that the heat pipe has, see through outside the heat pipe is transmitted the heat pipe rapidly with the heat of top punch, its heat conductivity exceeds the heat conductivity of any known metal, let in the cooling water simultaneously inside the top punch and accelerated the top punch cooling, set up delivery port and water inlet, through control aperture size, effectively avoid cold water to reveal, save the cool time, help evenly dispel the heat, the stability of squeeze casting has been improved greatly to the effective control drift temperature.

Description

Extrusion casting drift cooling device

Technical Field

The utility model relates to an extrusion casting equipment technical field, in particular to extrusion casting drift cooling device.

Background

The extrusion casting equipment is key equipment for realizing the extrusion casting process and ensuring the forming quality of parts. The injection mechanism is a core component of extrusion casting equipment, is an important device for pushing molten metal into a die cavity and carrying out pressure maintaining forming, directly influences the forming quality of a casting, and mainly comprises a pressure chamber, a punch and a push rod. In the continuous production process, in order to ensure the quality of products and the stability of the casting process, the clearance between a pressing chamber and a punch must be controlled within a reasonable range, the key is to control the expansion amount of a punch part in a mechanism due to high temperature and high pressure, and the most effective method is to reduce the temperature of the punch. In the extrusion casting process, the punch works under the working condition of high temperature and high pressure, and is in a closed limited space, and a human body cannot approach the extrusion casting equipment, so the improvement of the punch structure is the simplest and direct method.

The existing cooling method for the punch component is less, and mainly adopts a method of introducing water into the interior of the punch to realize cooling, and although the method is simple to operate, the method has the following obvious defects and shortcomings:

firstly, the temperature of the axis of the punch is low, and the temperature of the periphery of the punch is high, so that the punch is easy to be uneven in cold and hot, and the service life of the punch is reduced;

and secondly, the water supply process is controlled by personnel in real time in the extrusion casting process, only one water channel is provided, water supply can be stopped after water supply, cold water can be waited to flow out completely, the next water supply can be carried out, the efficiency is reduced, certain risk exists, and certain influence is caused on the stability of the injection process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a safe and reliable, use and maintain convenient and effective accuse temperature control's a control extrusion casting drift part temperature device, guarantee equipment stability.

The technical scheme of the utility model is that: the cooling device for the punch of the extrusion casting comprises an upper punch, a lower punch, a heat pipe and a push rod, wherein the upper punch and the lower punch are coaxially arranged, a water storage area is formed between the upper punch and the lower punch, the push rod is arranged at the lower part of the lower punch, the evaporation end of the heat pipe is arranged in the upper punch, and the condensation end of the heat pipe is positioned in the lower punch. The heat pipe is a heat transfer element, has excellent super-heat conductivity, and can conduct heat of the punch, the lower punch can effectively support the upper punch, and the push rod can push the upper punch and the lower punch to move up and down.

The lower punch is internally provided with a water inlet hole and a water outlet hole which are communicated with the water storage area, the water inlet hole is positioned at the center of the upper part of the lower punch, and the water inlet hole to the water outlet hole are downward inclined planes on the end surface of the lower punch forming the water storage area. Wherein, adopt this structure, the up end of lower punch is middle height, low structure all around, and the apopore distributes around the inlet opening, does benefit to the downward apopore that flows to of cooling water, the circulation of the cooling water of being convenient for.

The upper punch is internally provided with a cylindrical deep hole for installing the evaporation end of the heat pipe, the evaporation end of the heat pipe is in transition fit with the deep hole, and the bottom of the lower punch is provided with a groove for fixing the condensation end of the heat pipe. The evaporation end of the heat pipe is in contact with the upper punch, the condensation end of the heat pipe is in contact with the groove, the groove is close to the hole wall of the water outlet hole, the energy of the heat pipe is convenient to transfer to the water outlet hole, and heat can be effectively dissipated.

The outer side wall of the lower punch is axially and hermetically connected with the inner side wall of the upper punch. By adopting the structure, water leakage can be effectively avoided.

The lower center of the lower punch is provided with a threaded hole, the outer side wall of the push rod is provided with an external thread matched with the threaded hole, and the lower punch is in threaded sealing connection with the push rod. By adopting the structure, water leakage can be effectively avoided.

The center of the push rod is provided with a through hole communicated with the water inlet hole, the push rod is further provided with a chute inclined downwards, and the chute corresponds to the position of the water outlet hole. Wherein, outside cooling water passes through the through-hole and flows to the inlet opening, and reentrant water storage cavity has absorbed thermal cooling water and has flowed out from the apopore, and the flow direction chute, chute are favorable to the cooling water to slowly flow out.

The tip of the evaporating terminal of heat pipe and the condensation end of heat pipe is the taper shape, and the evaporating terminal absorbs the heat of last drift and conducts the condensation end, and the cell wall of the recess of fixed condensation end is at most 3mm with the distance of the pore wall of apopore to the heat of the condensation end of heat pipe is taken away to the cooling water of apopore, improves the radiating effect.

The distance between the axis of the deep hole and the axis of the upper punch is 5/7-4/5 of the radius of the end face of the upper punch, and the radius of the deep hole is 1/14-1/8 of the radius of the end face of the upper punch.

The radius of the water inlet hole is 1/6-1/4 of the radius of the upper end face of the lower punch, and the radius of the water outlet hole is 1/9-1/8 of the radius of the upper end face of the lower punch.

The aperture of the through hole of the push rod is not smaller than that of the water inlet hole, and the diameter of the inclined groove is not smaller than that of the water outlet hole. By adopting the structure, the leakage of cooling water can be effectively avoided.

Compared with the prior art, the utility model, following beneficial effect has:

the utility model takes the heat pipe as the direct heat transfer medium, greatly improves the heat dissipation efficiency and better controls the working temperature of the punch; the heat pipe is utilized to dissipate heat, and simultaneously, cooling water is introduced to cool the temperature of the punch, so that the temperature of the punch is greatly reduced.

The utility model reasonably sets the position of the heat pipe, the evaporation end of the heat pipe is arranged on the upper punch, the condensation end of the heat pipe is arranged on the lower punch, and the lower punch is adjacent to the water outlet hole, thereby ensuring the uniform heat dissipation of the punches; the central point of lower punch is the inlet opening, and the lower punch is the apopore all around, guarantees that the lower punch evenly dispels the heat, and inlet opening and apopore can lead to water in succession, have improved the radiating efficiency.

The utility model discloses a drift cooling device possesses reasonable structure, and the installation is dismantled conveniently, and from control aperture size and set up the effectual circumstances such as rivers impact and cold water leakage of having controlled of methods such as inclined plane, makes whole process steadily go on, and whole process does not need manual operation and is close to equipment, and personal safety is effectively guaranteed, has reduced the cost of labor.

Drawings

Fig. 1 is a schematic structural view of the extrusion casting punch cooling device.

Fig. 2 is a cross-sectional view of the upper punch.

Fig. 3 is a cross-sectional view of the lower punch.

Fig. 4 is a cross-sectional view of the push rod.

Fig. 5 is a sectional view of a heat pipe.

In the figure, 1 is an upper punch, 2 is a lower punch, 3 is a heat pipe, 4 is a push rod, 5 is a deep hole, 6 is a water storage area, 7 is a water inlet, 8 is a water outlet, 9 is a groove, 10 is a through hole, 11 is an evaporation end of the heat pipe, 12 is a condensation end of the heat pipe, 13 is an inclined plane, and 14 is an inclined groove.

Detailed Description

The present invention will be described in further detail with reference to examples, but the present invention is not limited thereto.

Examples

The cooling device for the extrusion casting punch comprises an upper punch 1, a lower punch 2, a heat pipe 3 and a push rod 4, wherein the upper punch and the lower punch are coaxially installed, a water storage area 6 is formed between the upper punch and the lower punch, the push rod is installed at the lower part of the lower punch, an evaporation end of the heat pipe is installed in the upper punch, a condensation end of the heat pipe is located in the lower punch, the heat pipe is a heat transfer element and has excellent super heat conductivity, the heat of the punches is conducted out, the evaporation end of the heat pipe absorbs the heat of the upper punch and conducts the heat to the lower punch to dissipate the heat, the lower punch can effectively support the upper punch, and the push rod can push the upper punch and the lower punch to move up and down. In order to ensure the sealing performance and avoid water leakage, the outer side wall of the lower punch is axially and hermetically connected with the inner side wall of the upper punch, a threaded hole is formed in the center of the lower part of the lower punch, an external thread matched with the threaded hole is formed in the outer side wall of the push rod, and the lower punch is in threaded and hermetically connected with the push rod.

As shown in fig. 2 and 3, a cylindrical deep hole 5 for installing the evaporation end of the heat pipe is arranged in the upper punch, the evaporation end of the heat pipe is in transition fit with the deep hole, a groove 9 for fixing the condensation end of the heat pipe is arranged at the bottom of the lower punch, the deep hole corresponds to the groove in position, and after the upper punch and the lower punch are installed, the deep hole and the groove are in tight fit. The evaporating end of the heat pipe is contacted with the upper punch, the condensing end of the heat pipe is contacted with the groove, and the groove is tightly close to the hole wall of the water outlet hole, so that the energy of the heat pipe can be conveniently transferred to the water outlet hole, and the heat dissipation efficiency can be improved.

As shown in fig. 3, be equipped with in the lower punch with deposit the inlet opening 7 and the apopore 8 of water territory intercommunication, the inlet opening is located the upper portion center department of lower punch, on the terminal surface in the water territory is deposited in the formation of lower punch, inlet opening to apopore are decurrent inclined plane 13, the up end of lower punch is middle height, low structure all around, the apopore distributes around the inlet opening, does benefit to the downward flow direction apopore of cooling water, the circulation of the cooling water of being convenient for.

As shown in fig. 4, the center department of push rod is equipped with the through-hole 10 with the inlet opening intercommunication, still is equipped with the chute 14 of downward sloping on the push rod, and the chute corresponds with the position of apopore, and outside cooling water passes through-hole flow direction inlet opening, and reentrant water storage cavity has absorbed thermal cooling water and has flowed out from the apopore, flow direction chute, and the chute is favorable to the cooling water to slowly flow out.

As shown in fig. 5, the evaporation end 11 of the heat pipe and the condensation end 12 of the heat pipe are both conical, the evaporation end absorbs the heat of the upper punch and conducts the heat to the condensation end, the groove for fixing the condensation end is tightly close to the water outlet hole for heat dissipation, so that the heat at the condensation end of the heat pipe can be taken away through the water outlet hole.

The distance between the axis of the deep hole and the axis of the upper punch is 4/5 of the radius of the end face of the upper punch, and the radius of the deep hole is 1/8 of the radius of the end face of the upper punch. The radius of the water inlet hole is 1/6 of the radius of the upper end face of the lower punch, and the radius of the water outlet hole is 1/9 of the radius of the upper end face of the lower punch. The aperture of the through hole of the push rod is not smaller than that of the water inlet hole, and the diameter of the inclined groove is not smaller than that of the water outlet hole. By adopting the structure, the leakage of cooling water in the flowing process can be effectively avoided.

The utility model discloses utilize extremely strong heat dispersion that the heat pipe has, see through outside the heat pipe is transmitted the heat pipe rapidly with the heat of top punch, its heat conductivity exceeds the heat conductivity of any known metal, let in the inside cooling water that lets in of top punch simultaneously and accelerated the cooling of top punch, set up delivery port and water inlet, through control aperture size, effectively avoid cold water to reveal, save the cool-down time, help evenly dispel the heat, effective control drift temperature has improved squeeze casting's stability greatly.

As described above, the present invention can be realized well, and the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention; all equivalent changes and modifications made according to the present invention are intended to be covered by the scope of the claims of the present invention.

Claims (10)

1. The cooling device for the extrusion casting punch is characterized by comprising an upper punch, a lower punch, a heat pipe and a push rod, wherein the upper punch and the lower punch are coaxially arranged, a water storage area is formed between the upper punch and the lower punch, the push rod is arranged at the lower part of the lower punch, the evaporation end of the heat pipe is arranged in the upper punch, and the condensation end of the heat pipe is positioned in the lower punch.

2. The extrusion casting punch cooling device according to claim 1, wherein the lower punch is provided therein with a water inlet hole and a water outlet hole communicating with the water storage region, the water inlet hole being located at an upper center of the lower punch, and the water inlet hole to the water outlet hole being inclined downward on an end surface of the lower punch forming the water storage region.

3. The squeeze casting punch cooling device as claimed in claim 1, wherein the upper punch is provided therein with a cylindrical deep hole for installing the evaporation end of the heat pipe, the evaporation end of the heat pipe is in transition fit with the deep hole, and the bottom of the lower punch is provided with a groove for fixing the condensation end of the heat pipe.

4. The extrusion casting punch cooling apparatus of claim 1, wherein the outer sidewall of the lower punch is axially sealingly connected to the inner sidewall of the upper punch.

5. The extrusion casting punch cooling device as claimed in claim 1, wherein a threaded hole is formed at the center of the lower portion of the lower punch, an external thread matching with the threaded hole is formed on the outer side wall of the push rod, and the lower punch is in threaded sealing connection with the push rod.

6. The squeeze casting punch cooling device as claimed in claim 2, wherein the push rod has a through hole at its center communicating with the water inlet hole, and a downwardly inclined chute corresponding to the position of the water outlet hole.

7. The squeeze casting punch cooling device according to claim 3, wherein the evaporating end of the heat pipe and the condensing end of the heat pipe are both conical, the evaporating end absorbs heat from the upper punch and conducts the heat to the condensing end, and the distance between the wall of the groove for fixing the condensing end and the wall of the hole for the outlet hole is at most 3 mm.

8. The squeeze casting punch cooling device as claimed in claim 3, wherein the distance between the axis of the deep hole and the axis of the upper punch is 5/7-4/5 of the radius of the end face of the upper punch, and the radius of the deep hole is 1/14-1/8 of the radius of the end face of the upper punch.

9. The extrusion casting punch cooling device of claim 2, wherein the radius of the water inlet hole is 1/6-1/4 of the radius of the upper end face of the lower punch, and the radius of the water outlet hole is 1/9-1/8 of the radius of the upper end face of the lower punch.

10. The squeeze casting punch cooling device as claimed in claim 6, wherein the diameter of the through hole of the push rod is not smaller than the diameter of the water inlet hole, and the diameter of the chute is not smaller than the diameter of the water outlet hole.

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