Indium-based alloy target material static press forming device

By designing a static pressing device for indium-based alloy targets, the problem of insufficient adaptability to the forming of target blanks of different thicknesses was solved, and the versatility and stability of the equipment were improved.

CN224463626UActive Publication Date: 2026-07-07SHIGAO (ZHEJIANG) NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHIGAO (ZHEJIANG) NEW MATERIALS CO LTD
Filing Date
2025-08-07
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing technologies are insufficient to meet the forming requirements of target blanks of different thicknesses, the equipment lacks versatility, and the stability and smoothness of operation of the equipment need to be improved.

Method used

A static pressure forming device for indium-based alloy targets was designed, including a frame, a lifting assembly, and a pressure-bearing assembly. By adjusting the initial height of the target blank and adding symmetrically distributed protective structures, flexible forming and stress balance of the target blank can be achieved.

Benefits of technology

The height of the target blank is adjustable, which can meet the forming requirements of target blanks of different thicknesses, improves the versatility and stability of the equipment, and enhances the smoothness of the equipment operation.

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Abstract

The utility model discloses an indium base alloy target material static pressure forming device, including stand, jacking assembly and pressure -bearing subassembly, the stand includes the top platform and two stand columns, and the top platform includes the locating block, and two stand columns are separately arranged in the both sides of top platform and are fixedly connected with top platform respectively, the jacking assembly includes the jacking machine and static pressure platform, and the jacking machine includes the jacking rod, and the jacking rod is inducted in the locating block and is fixedly connected with the locating block, and the static pressure platform includes the locating plate, static pressure plate and two clamps, and the locating plate is located in the middle part of static pressure plate and is fixedly connected with static pressure plate, and two clamps are separately arranged in the both sides of static pressure plate and are fixedly connected with static pressure plate respectively, and two clamps are clamped respectively in the stand column of same side. The utility model discloses an indium base alloy target material static pressure forming device, and its beneficial effect lies in, and the initial height of target material blank can be adjusted flexibly, thereby adapts the forming demand of different thickness target material blank, and improves the equipment versatility.
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Description

Technical Field

[0001] This utility model belongs to the field of target material processing, and specifically relates to an indium-based alloy target material static pressing forming device. Background Technology

[0002] The patent, with publication number CN209532069U, is entitled "A utility model patent for a crude indium electrode forming device". Its IPC classification number is [not specified], and its technical solution discloses that "the crude indium electrode forming device includes n partitions and n-1 model plates. The model plate includes a main plate and side plates disposed on opposite sides of the main plate. The main plate and the two side plates form a semi-enclosed cavity. The partitions are disposed at one open end of the model plate and connected to the two side plates of the model plate and the main plate. The partitions and model plates are alternately arranged, and the partitions are located at both ends of the crude indium electrode forming device. Wherein n is an integer not less than 2".

[0003] Therefore, the above utility model patents have disclosed one technical solution for a coarse indium electrode forming device. However, the technical solutions disclosed in these utility model patents focus on saving space, improving production efficiency, and enhancing production safety, but do not further address the issues of adapting to the forming requirements of target blanks of different thicknesses, and therefore require further improvement. Utility Model Content

[0004] This invention addresses the shortcomings of the existing technology by providing a static pressing device for indium-based alloy targets.

[0005] This utility model adopts the following technical solution: an indium-based alloy target static pressure forming device, comprising a frame, a lifting assembly, and a pressure-bearing assembly, wherein:

[0006] The frame includes a top platform and two columns. The top platform includes a positioning block. The two columns are located on both sides of the top platform and are fixedly connected to the top platform respectively.

[0007] The lifting assembly includes a lifting device and a static pressure platform. The lifting device includes a lifting rod, which is internally connected to and fixedly connected to the positioning block. The static pressure platform includes a positioning plate, a static pressure plate, and two clamping plates. The positioning plate is located in the middle of the static pressure plate and is fixedly connected to the static pressure plate. The two clamping plates are located on both sides of the static pressure plate and are fixedly connected to the static pressure plate respectively. The two clamping plates clamp the columns located on the same side respectively.

[0008] The pressure-bearing components are detachably connected to the support frame.

[0009] As a preferred technical solution to the above technical solutions, the pressure-bearing component includes two pressure plates with a gap between them, and the two pressure plates are detachably connected to two columns respectively.

[0010] As a preferred technical solution to the above technical solutions, the pressure-bearing component also includes two partition plates, both of which are located in the space between the two pressure plates. The two partition plates are fixedly connected to the two pressure plates respectively, and there is a gap between the two partition plates and the columns located on the same side.

[0011] As a preferred technical solution to the above technical solutions, the lifting assembly also includes two protective structures, which are respectively located on both sides of the lifting device and are symmetrically distributed with respect to the lifting device.

[0012] As a preferred technical solution to the above technical solutions, the protective structure includes a spring and a hanger rod. One end of the spring is fixedly connected to the top platform, the other end of the spring is fixedly connected to one end of the hanger rod, and the other end of the hanger rod is fixedly connected to the static pressure plate.

[0013] The indium-based alloy target static pressing forming device disclosed in this utility model has the advantage that the initial height of the target blank can be flexibly adjusted, thereby adapting to the forming requirements of target blanks of different thicknesses and improving the versatility of the equipment. In addition, the addition of a symmetrically distributed protective structure effectively balances the force distribution of the static pressure plate during the application of force, enhancing the stability and smoothness of the equipment operation. Attached Figure Description

[0014] Figure 1 This is the main view of this application.

[0015] Figure 2 This is a perspective view of this application.

[0016] Figure 3 This is a three-dimensional view from another perspective of this application.

[0017] Figure 4 This is a side view of this application.

[0018] Figure 5 This is a perspective view of the frame of this application.

[0019] Figure 6 This is a perspective view of the lifting component of this application.

[0020] Figure 7 yes Figure 2 A magnified view of a portion of region A.

[0021] Figure 8 yes Figure 3 A magnified view of a portion of region B.

[0022] The reference numerals in the attached drawings include: 100-upright frame; 110-top platform; 111-positioning block; 120-column; 200-lifting assembly; 210-lifting device; 211-lifting rod; 212-lifting actuator; 220-static pressure platform; 221-positioning plate; 222-static pressure plate; 223-clamping plate; 230-protective structure; 231-spring; 232-suspender rod; 300-pressure bearing assembly; 310-pressure bearing plate; 320-separation plate. Detailed Implementation

[0023] This utility model discloses a hydrostatic pressing device for indium-based alloy target materials. The following description, in conjunction with a preferred embodiment (Example 1), is shown in the accompanying drawings. Figures 1 to 8 The specific embodiments of this utility model will be further described below.

[0024] See attached diagram. Figures 1 to 8 , Figures 1 to 4 The static pressing apparatus for indium-based alloy targets is shown from different perspectives. Figure 5 The stand was shown. Figure 6 The lifting assembly is shown. Figure 7 and Figure 8 Partial structures of the indium-based alloy target static pressing forming apparatus are shown.

[0025] Example 1.

[0026] Preferably, the indium-based alloy target static pressing forming device includes a frame 100, a lifting assembly 200, and a pressure-bearing assembly 300, wherein:

[0027] The support frame 100 includes a top platform 110 and two columns 120. The top platform 110 includes a positioning block 111. The two columns 120 are respectively located on both sides of the top platform 110 and are fixedly connected to the top platform 110.

[0028] The lifting assembly 200 includes a lifting device 210 and a static pressure platform 220. The lifting device 210 includes a lifting rod 211, the top of which is internally connected to and fixedly connected to the positioning block 111. The static pressure platform 220 includes a positioning plate 221, a static pressure plate 222, and two clamping plates 223. The positioning plate 221 is located in the middle of the static pressure plate 222 and is fixedly connected to it. The two clamping plates 223 are located on both sides of the static pressure plate 222 and are fixedly connected to it. The two clamping plates 223 clamp the column 120 located on the same side (the two clamping plates 223 are slidably connected to the column 120 located on the same side, so that under the action of the lifting device 210, the clamping plates 223 slide up and down relative to the column 120, thereby causing the static pressure plate 222 to apply force to the target blank, which is not shown in the figure).

[0029] The pressure-bearing component 300 is detachably connected to the support frame 100, so that the target blank is located between the pressure-bearing component 300 and the lifting component 200. The initial height of the target blank is adjustable by means of the detachable connection between the pressure-bearing component 300 and the two columns 120, so as to accommodate target blanks of different thicknesses.

[0030] The pressure-bearing component 300 includes two pressure-bearing plates 310 with a gap between them, and the two pressure-bearing plates 310 are detachably connected to two columns 120 respectively, so as to realize the detachable connection between the pressure-bearing component 300 and the frame 100.

[0031] The pressure-bearing component 300 also includes two partition plates 320, which are located in the space between the two pressure plates 310. The two partition plates 320 are fixedly connected to the two pressure plates 310 respectively, and there is a gap between the two partition plates 320 and the column 120 located on the same side respectively, so as to enhance the overall pressure-bearing capacity of the pressure-bearing component 300 through the partition plates 320.

[0032] The lifting assembly 200 also includes two protective structures 230, which are respectively disposed on both sides of the lifting device 210 and are symmetrically distributed with respect to the lifting device 210. This is so that, between the top platform 110 and the static pressure platform 220, in addition to the lifting device 210, the two symmetrically distributed protective structures 230 can balance the force distribution of the static pressure plate 222 during the force application process.

[0033] The protective structure 230 includes a spring 231 and a rod 232. One end of the spring 231 is fixedly connected to the top platform 110, and the other end of the spring 231 is fixedly connected to one end of the rod 232. The other end of the rod 232 is fixedly connected to the static pressure plate 222, so as to achieve the effect of balancing the force distribution of the static pressure plate 222 during the application of force.

[0034] The lifting device 210 also includes a lifting driver 212, which is connected to the lifting rod 211 in a transmission manner.

[0035] It is worth mentioning that the specific structure and other technical features of the lifting drive 212 involved in this utility model patent application should be regarded as prior art. The specific structure, working principle and possible control method and spatial arrangement of these technical features can be adopted by conventional choices in the field and should not be regarded as the inventive point of this utility model patent. This utility model patent will not elaborate further.

[0036] For those skilled in the art, modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A hydrostatic pressing apparatus for indium-based alloy targets, characterized in that, Includes the frame, lifting assembly, and pressure-bearing assembly, among which: The frame includes a top platform and two columns. The top platform includes a positioning block. The two columns are located on both sides of the top platform and are fixedly connected to the top platform respectively. The lifting assembly includes a lifting device and a static pressure platform. The lifting device includes a lifting rod, which is internally connected to and fixedly connected to the positioning block. The static pressure platform includes a positioning plate, a static pressure plate, and two clamping plates. The positioning plate is located in the middle of the static pressure plate and is fixedly connected to the static pressure plate. The two clamping plates are located on both sides of the static pressure plate and are fixedly connected to the static pressure plate respectively. The two clamping plates clamp the columns located on the same side respectively. The pressure-bearing components are detachably connected to the support frame.

2. The indium-based alloy target static pressing forming apparatus according to claim 1, characterized in that, The pressure-bearing assembly includes two pressure plates with a gap between them, and the two pressure plates are detachably connected to two columns respectively.

3. The indium-based alloy target static pressing forming apparatus according to claim 2, characterized in that, The pressure-bearing component also includes two partition plates, both of which are located in the space between the two pressure plates. The two partition plates are fixedly connected to the two pressure plates respectively, and there is a gap between the two partition plates and the columns located on the same side.

4. The indium-based alloy target static pressing forming apparatus according to claim 1, characterized in that, The lifting assembly also includes two protective structures, which are located on both sides of the lifting device and are symmetrically distributed relative to the lifting device.

5. The indium-based alloy target static pressing apparatus according to claim 4, characterized in that, The protective structure includes a spring and a hanger rod. One end of the spring is fixedly connected to the top platform, and the other end of the spring is fixedly connected to one end of the hanger rod, which is then fixedly connected to the static pressure plate.