CN210208618U - Water cooling mechanism based on tin-copper alloy target production device - Google Patents

Abstract

The utility model relates to the technical field of metal casting, concretely relates to water cooling mechanism based on tin-copper alloy target apparatus for producing, including the support frame, set up in the fixed bolster of support frame, set up in the forming device that the fixed bolster is used for tin-copper alloy target shaping, set up in the support frame and link up in the water cooling plant of forming device, set up in the drive arrangement that the support frame links to each other with the water cooling plant drive, the forming device is the tubular mould, the water cooling plant link up in for the water pipe the tubular mould internal diameter, flow cooling liquid in the water pipe, drive arrangement drive water pipe is in the activity of tubular mould internal diameter; the utility model discloses a coolant liquid that flows on the water pipe cools off the mould, and then accelerates the design time to the alloy target, improves production efficiency, and it is effectual to take shape, and practical good reliability is strong.

Description

Water cooling mechanism based on tin-copper alloy target production device

Technical Field

The utility model relates to a metal casting technical field especially relates to a water-cooling mechanism based on tin-copper alloy target apparatus for producing.

Background

Metal casting is one of the basic processes of modern device manufacturing industry, and is a technological process of smelting metal into liquid meeting certain requirements, pouring the liquid into a mould, and cooling and solidifying the liquid to obtain a casting with a preset shape, size and performance. The metal casting is a manufacturing process of pouring molten metal into a casting mold, and cooling and solidifying the molten metal to obtain a part with a required shape. The method has the advantages of low manufacturing cost, high process flexibility and capability of obtaining castings with complex shapes and large castings, and is widely applied to manufacturing of mechanical parts.

The casting space of the cast tube target is a deep tube with the thickness of 20mm and the length of 4m, the tube target needs to be cooled after casting is finished, and a cast product is formed through cooling, wherein in the traditional method, natural cooling or casting water cooling is adopted, so that on one hand, the natural cooling time is too long, the casting cannot continue to work in the cooling process, the production efficiency is low, and on the other hand, the casting water cooling is adopted, the solidification process is difficult to accurately control, and the shrinkage stress causes the serious deformation of the whole target tube; new solutions are therefore proposed to the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an adopt the coolant liquid that flows on the water pipe to cool off the mould, and then accelerate the design time to the alloy target, improve production efficiency, take shape effectual, practical good reliability's water-cooling mechanism based on tin-copper alloy target apparatus for producing.

The utility model adopts the technical proposal that: the utility model provides a water-cooling mechanism based on tin copper alloy target apparatus for producing, includes the support frame, sets up in the fixed bolster of support frame, sets up in the fixed bolster and is used for the fashioned forming device of tin copper alloy target, sets up in the support frame and link up in forming device's water cooling plant, sets up in the drive arrangement that support frame and water cooling plant drive link to each other, forming device is the tubulose mould, water cooling plant link up for the water pipe in tubulose mould internal diameter, flow cooling liquid in the water pipe, drive arrangement drive water pipe is at tubulose mould internal diameter activity.

The further improvement of the scheme is that the fixing support is provided with a plurality of fixing rods, and the fixing rods are arranged on fixing rings used for fixing the forming device.

The further improvement of the scheme is that the driving device comprises an upright post arranged on the supporting frame, a driving motor arranged on the upright post and a linkage part in transmission connection with the driving motor, and the linkage part is in driving connection with a first chain and a second chain.

The further improvement of the scheme is that the first chains are provided with two groups which are positioned at two sides of the forming device, and the tail ends of the two groups of first chains are connected with a fixing platform used for fixing the forming device.

The further improvement of the scheme is that the second chain penetrates through the inner diameter of the forming device, and the water pipe is connected with the second chain.

The utility model has the advantages that:

the fixing support is arranged for fixing the forming device through the integral supporting function of the supporting frame, so that the tin-copper alloy is conveniently cast on the forming device, the stability of the alloy target in the production and casting process is ensured, the casting effect is good, and the forming effect is good; in addition, the water cooling device is arranged, and particularly, after the tin-copper alloy is cast, water can be condensed and solidified through the water cooling device, so that the forming efficiency of the alloy target is improved, the shaping effect is good, and the production effect is improved; the water cooling device penetrates through the forming device, and particularly, the water cooling effect can be realized in the largest range, the cooling effect is good, and the reliability is strong; the driving device is arranged and connected with the water pipe, the forming device is arranged into a tubular mold, and the water pipe penetrates through the tubular mold for cooling, so that the high-efficiency cooling solidification forming of the alloy target is realized, the forming effect is good, and the production efficiency is improved; the cooling liquid flows in the water pipe, the water pipe is driven by the driving device in the inner diameter of the tubular mold, the flowing of the cooling liquid can be ensured, the mold can be cooled by circulating water cooling, and then the alloy target in the mold is cooled and formed.

The utility model discloses in, adopt the coolant liquid that flows on the water pipe to cool off the mould, and then accelerate the design time to the alloy target, improve production efficiency, it is effectual to take shape, practical good reliability.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of another perspective of the present invention;

fig. 3 is a schematic perspective view of another perspective of the present invention.

Description of reference numerals: the water cooling device comprises a water cooling mechanism 100, a support frame 110, a fixing support 120, a fixing rod 121, a fixing ring 122, a forming device 130, a water cooling device 140, a driving device 150, a vertical column 151, a driving motor 152, a linkage part 153, a first chain 154, a second chain 155 and a fixing platform 156.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 3, a water cooling mechanism 100 based on a tin-copper alloy target production device includes a support frame 110, a fixing support 120 disposed on the support frame 110, a forming device 130 disposed on the fixing support 120 and used for forming a tin-copper alloy target, a water cooling device 140 disposed on the support frame 110 and penetrating through the forming device 130, and a driving device 150 disposed on the support frame 110 and connected to the water cooling device 140 in a driving manner, wherein the forming device 130 is a tubular mold, the water cooling device 140 is a water pipe penetrating through the inner diameter of the tubular mold, a cooling liquid flows in the water pipe, and the driving device 150 drives the water pipe to move in the inner diameter of the tubular mold.

Fixed bolster 120 sets up a plurality of dead levers 121, sets up in dead lever 121 and is used for the solid fixed ring 122 fixed with forming device 130, and fixed bolster 120 is used for solid fixed ring 122 through dead lever 121 to fix, fixes the tubular mould through solid fixed ring 122, guarantees the stability in the casting process, also makes things convenient for the cooling to take shape simultaneously, and the casting is effectual, takes shape effectually.

Drive arrangement 150 is including installing in the stand 151 of support frame 110, installing in the driving motor 152 of stand 151, the linkage part 153 that links to each other with driving motor 152 transmission, the drive of linkage part 153 is connected with first chain 154 and second chain 155, specifically drives the transmission of first chain 154 and second chain 155 through driving motor 152 drive linkage part 153, realizes to tubular product mould's correction and water-cooling for the cooling effect improves production efficiency, and it is effectual to take shape.

The first chains 154 are provided with two groups which are positioned at two sides of the forming device 130, the tail ends of the two groups of first chains 154 are connected with the fixing platforms 156 used for fixing the forming device 130, the fixing platforms 156 are used for fixing the forming device 130, the casting precision is improved, and meanwhile, the water pipe can conveniently penetrate through the forming device for cooling.

Second chain 155 link up in forming device 130 internal diameters, the water pipe links to each other with second chain 155, drives the water pipe activity through second chain 155, realizes the efficient cooling effect, and cooling range is big, improves the shaping effect, improves production efficiency.

The fixing support 120 is arranged for fixing the forming device 130 through the integral supporting function of the support frame 110, so that the tin-copper alloy is conveniently cast on the forming device 130, the stability of the alloy target in the production and casting process is ensured, the casting effect is good, and the forming effect is good; in addition, the water cooling device 140 is arranged, and particularly, after the tin-copper alloy is cast, water can be condensed and solidified through the water cooling device 140, so that the forming efficiency of the alloy target is improved, the shaping effect is good, and the production effect is improved; the water cooling device 140 penetrates through the forming device 130, and particularly, the water cooling effect can be realized in the largest range, the cooling effect is good, and the reliability is strong; the driving device 150 is arranged, the driving device 150 is connected with a water pipe, the forming device 130 is arranged into a tubular mold, and the water pipe penetrates through the tubular mold for cooling, so that the high-efficiency cooling solidification forming of the alloy target is realized, the forming effect is good, and the production efficiency is improved; the water pipe is internally provided with cooling liquid in a flowing manner, the water pipe is driven in the inner diameter of the tubular mold through the driving device 150, the flowing of the cooling liquid can be ensured, the mold can be cooled by circulating water cooling, and then the alloy target in the mold is ensured to be cooled and formed.

The utility model discloses in, adopt the coolant liquid that flows on the water pipe to cool off the mould, and then accelerate the design time to the alloy target, improve production efficiency, it is effectual to take shape, practical good reliability.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (5)

1. The utility model provides a water-cooling mechanism based on tin copper alloy target apparatus for producing which characterized in that: including the support frame, set up in the fixed bolster of support frame, set up in the forming device that the fixed bolster is used for the fashioned target of tin copper alloy, set up in the support frame and link up in forming device's water cooling plant, set up in the drive arrangement that support frame and water cooling plant drive link to each other, forming device is the tubulose mould, water cooling plant link up for the water pipe in tubulose mould internal diameter, flow cooling liquid in the water pipe, drive arrangement drive water pipe is at the activity of tubulose mould internal diameter.

2. The water cooling mechanism of claim 1, wherein the water cooling mechanism comprises: the fixed support is provided with a plurality of fixed rods, and the fixed rods are arranged on a fixed ring used for fixing the forming device.

3. The water cooling mechanism of claim 1, wherein the water cooling mechanism comprises: the driving device comprises an upright post arranged on the supporting frame, a driving motor arranged on the upright post and a linkage part connected with the driving motor in a transmission way, wherein the linkage part is connected with a first chain and a second chain in a driving way.

4. The water cooling mechanism of claim 3, wherein the water cooling mechanism comprises: the first chains are provided with two groups which are positioned at two sides of the forming device, and the tail ends of the two groups of first chains are connected with a fixing platform used for fixing the forming device.

5. The water cooling mechanism of claim 4, wherein the water cooling mechanism comprises: the second chain is run through the inner diameter of the forming device, and the water pipe is connected with the second chain.

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