Satellite antenna component production and processing equipment and method

By combining a fixed fan, a stirring device, and a clamping device, the cumbersome process of mold clamping and injection material handling is solved, enabling efficient mass production of satellite antenna components.

CN117921934BActive Publication Date: 2026-06-30YINHE HANGTIAN (XIAN) TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
YINHE HANGTIAN (XIAN) TECHNOLOGY CO LTD
Filing Date
2023-12-19
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing satellite antenna component manufacturing equipment suffers from cumbersome processes in mold clamping and injection material handling, which affects processing efficiency.

Method used

The combination of a fixed fan, a stirring device, a conversion driver, and a clamping device is used to achieve mold clamping and injection material stirring. The stirring device is rotated by gas-driven blades, and the mold is clamped and ejected by the clamping device.

Benefits of technology

It has improved the efficiency of mass production of satellite antenna components, simplified the processing flow, and increased production efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a satellite antenna component manufacturing and processing equipment and method, belonging to the field of satellite antenna components. The satellite antenna component manufacturing and processing equipment further includes: a fixed fan and a stirring device, fixedly installed on the inner bottom wall of the processing platform. A speed regulator is fixedly connected to the side of the fixed fan via a pipe. A conversion driver is provided between the fixed fan and the stirring device. Drive blades are provided on the inner wall of the conversion driver. A connecting rod is installed at one end of the drive blades passing through the conversion driver, and the connecting rod is installed between the conversion driver and the stirring device. This invention, through the coordinated use of the fixed fan, stirring device, conversion driver, and clamping device, facilitates the simultaneous clamping of injection-molded component molds and the clamping of injection-molded materials. Compared with existing satellite antenna component manufacturing and processing equipment, this device can effectively improve the mass production of components.
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Description

Technical Field

[0001] This invention relates to the field of satellite antenna component technology, and in particular to a satellite antenna component manufacturing and processing equipment. Background Technology

[0002] A common type of equipment for manufacturing satellite antenna components is the CNC machine tool. A CNC machine tool is a machine tool that uses computer programs as control instructions and drives machining tools through servo systems or stepper systems. It can precisely control the machining process, improve production efficiency and machining accuracy. For the manufacturing of satellite antenna components, CNC machine tools can perform machining operations with various complex shapes and precision requirements. For example, injection molding equipment is a key piece of equipment used to produce plastic parts. Injection molding equipment injects molten plastic into a mold, which is then cooled and solidified to finally form the required parts.

[0003] For example, in the prior art, Chinese patent authorization number CN202221416129.7 discloses an intelligent injection molding equipment for automobile parts production, including a support base. Guide groups are fixedly connected to both sides of the top of the support base, and an upper mold is fixedly connected to the top of the guide groups. A mold groove is opened on the top of the support base, and a bottom plate is set inside the mold groove. An outer wall is set inside the mold groove. Discharge mechanisms are set on both sides inside the support base. The discharge mechanism includes an air pipe, and a slot is opened on the side of the air pipe near the mold groove. This solves the current problem of preventing materials from sticking to the top of the bottom plate due to overheating, thus making them difficult to remove.

[0004] While the aforementioned patents can improve production and processing quality, they cannot simultaneously clamp the mold and process the injection material during processing, resulting in a cumbersome processing procedure and reduced processing efficiency. Summary of the Invention

[0005] The technical problem to be solved by the present invention is to overcome the shortcomings of the prior art and provide a satellite antenna component manufacturing and processing equipment that can overcome the above problems or at least partially solve the above problems.

[0006] To achieve the above objectives, the present invention adopts the following technical solution: a satellite antenna component manufacturing and processing equipment, comprising a processing platform, and further comprising: a fixed fan and a stirring device, fixedly installed on the inner bottom wall of the processing platform; a speed regulator fixedly connected to the side of the fixed fan via a pipe; a conversion driver provided between the fixed fan and the stirring device; drive blades provided on the inner wall of the conversion driver; a connecting rod installed at one end of the drive blades passing through the conversion driver; the connecting rod installed between the conversion driver and the stirring device, for use when gas is input through the fixed fan, the conversion driver is used to drive the stirring device to rotate. A mold frame is installed on the top of the processing platform, and a clamping device is installed on the inner wall of the mold frame; the clamping device is connected to the conversion driver via a pipe; a clamping plate is installed on the side of the clamping device, and the clamping plate moves within the inner wall of the mold frame.

[0007] Preferably, it further includes: a fixed pump, which is fixedly installed on the side of the clamping device, and an ejector airbag is installed at the bottom of the processing platform, with the fixed pump and the side of the ejector airbag being fixedly connected.

[0008] Preferably, the discharge pipe installed on the side of the stirring device has a rotating seat that rotates via a bearing, a top pipe installed on the top of the rotating seat, and a discharge cover fixedly connected to one end of the top pipe.

[0009] Preferably, an inlet pipe is fixedly connected to the side of the stirring device, and a funnel cover is installed on the top of the inlet pipe.

[0010] Preferably, the stirring device includes a stirring frame, and stirring blades are fixedly connected to the side of the stirring frame.

[0011] Preferably, the clamping device includes a telescopic airbag located inside the mold frame.

[0012] Preferably, a limiting groove is formed through the side of the mold frame, and a limiting plate is installed on the side of the clamping plate, with the limiting plate located inside the limiting groove.

[0013] Preferably, an adapter pipe is installed on the side of the clamping device, which is mounted on the side of the conversion driver to discharge gas into the clamping device.

[0014] Preferably, a support frame is installed at the bottom of the ejector airbag, the support frame is installed inside the processing platform, and a double-row groove plate is installed on the top of the processing platform, the double-row groove plate being located below the clamping device.

[0015] A satellite antenna component manufacturing and processing equipment mainly includes the following steps:

[0016] S1. By installing the conversion driver between the fixed fan and the mixing device, the fixed fan is started. The fixed fan injects gas into the speed controller through the pipe. The operator controls the flow rate of the gas entering the fixed fan through the speed controller. The flowing gas enters the interior of the conversion driver and pushes the drive blades to rotate. The rotating drive blades drive the mixing device through the connecting rod, thereby mixing the material stored inside the mixing device. At the same time, gas enters the interior of the clamping device, thereby inflating the clamping device and facilitating the clamping plate to clamp the mold.

[0017] S2. The staff injects the material into the mold. When the part is finished being injected, the fixed pump is started to discharge the gas inside the clamping device. The discharged gas enters the interior of the ejection air bladder through the pipe, thereby inflating the ejection air bladder to facilitate the ejection of the mold after use.

[0018] Compared with the prior art, the present invention has the following beneficial effects: the present invention, through the cooperation between the fixed fan, the stirring device, the conversion driver and the clamping device, can simultaneously clamp the injection mold of the parts and stir the injection material. Compared with the satellite antenna parts production and processing equipment in the prior art, this device can effectively improve the mass production of parts. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the structure of a satellite antenna component manufacturing and processing equipment proposed in this invention;

[0020] Figure 2 This is a structural cross-sectional view of a satellite antenna component manufacturing and processing equipment proposed in this invention;

[0021] Figure 3 This is a side view of the structure of a satellite antenna component manufacturing and processing equipment proposed in this invention;

[0022] Figure 4 This is a top view of the structure of a satellite antenna component manufacturing and processing equipment proposed in this invention;

[0023] Figure 5 This invention proposes a satellite antenna component manufacturing and processing equipment. Figure 1 Enlarged view of area A in the middle;

[0024] Figure 6 This invention proposes a satellite antenna component manufacturing and processing equipment. Figure 1 Enlarged view of area B in the middle;

[0025] Figure 7 This invention proposes a satellite antenna component manufacturing and processing equipment. Figure 2 Enlarged view of area C;

[0026] Figure 8 This is a schematic diagram of the clamping mechanism of a satellite antenna component manufacturing and processing equipment proposed in this invention.

[0027] In the diagram: 1. Processing platform; 101. Support frame; 102. Double-row trough plate; 2. Fixed fan; 3. Speed ​​regulator; 4. Stirring device; 401. Inlet pipe; 402. Funnel cover; 403. Stirring rack; 404. Stirring blades; 5. Conversion driver; 501. Drive blades; 502. Connecting rod; 6. Mold frame; 601. Limiting groove; 7. Clamping device; 701. Telescopic airbag; 702. Transfer pipe; 8. Clamping plate; 801. Limiting plate; 9. Fixed pump; 10. Ejection airbag; 11. Discharge pipe; 1101. Rotating seat; 1102. Top pipe; 1103. Discharge cover. Detailed Implementation

[0028] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.

[0029] In the description of this invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this invention.

[0030] Reference Figures 1-8 The present invention includes a processing platform 1, and further includes a fixed fan 2 and a stirring device 4, which are fixedly installed on the inner bottom wall of the processing platform 1. A speed regulator 3 is fixedly connected to the side of the fixed fan 2 through a pipe. A conversion driver 5 is provided between the fixed fan 2 and the stirring device 4. A drive blade 501 is provided on the inner wall of the conversion driver 5. A connecting rod 502 is installed at one end of the drive blade 501 that passes through the conversion driver 5. The connecting rod 502 is installed between the conversion driver 5 and the stirring device 4, so that when gas is input through the fixed fan 2, the gas is used to drive the stirring device 4 to rotate by setting the conversion driver 5.

[0031] The mold frame 6 is installed on the top of the processing platform 1, and the clamping device 7 is installed on the inner wall of the mold frame 6. The clamping device 7 is connected to the conversion driver 5 through a pipe. The clamping plate 8 is installed on the side of the clamping device 7 and moves on the inner wall of the mold frame 6.

[0032] In this invention, during use, the operator starts the fixed fan 2. The started fixed fan 2 injects the inhaled gas into the conversion driver 5 through the speed regulator 3, thereby facilitating the stirring of the material by driving the stirring device 4. The gas passes through the conversion driver 5 and is injected into the clamping device 7 through the pipe, thereby inflating it for use. This allows the user to quickly clamp the injection mold placed inside the mold frame 6. The clamping device 7 controls the gas injection to prevent gas from being discharged.

[0033] In one implementation scheme, refer to Figure 2 The present invention also includes a fixed pump 9, which is fixedly installed on the side of the clamping device 7, and an ejector airbag 10 is installed at the bottom of the processing platform 1. The fixed pump 9 and the side of the ejector airbag 10 are fixedly connected.

[0034] In this invention, when the injection molding process is completed, the gas inside the clamping device 7 is extracted by starting the fixed pump 9. The extracted clamping device 7 is injected into the ejection air bladder 10 through a pipe, thereby extracting the ejection air bladder 10 and making it convenient to eject the mold from the mold frame 6.

[0035] In one implementation scheme, refer to Figure 3 The present invention also includes a discharge pipe 11 installed on the side of the stirring device 4. The discharge pipe 11 is rotatably mounted on a rotating seat 1101 via a bearing. A top pipe 1102 is mounted on the top of the rotating seat 1101. A discharge cover 1103 is fixedly connected to one end of the top pipe 1102.

[0036] In this invention, the material inside the stirring device 4 is extracted by activating the discharge pipe 11. The operator rotates the rotating seat 1101 and the discharge pipe 11 to facilitate the adjustment of the position of the discharge cover 1103, thus avoiding obstruction during use and affecting the operator's normal processing speed.

[0037] In one implementation scheme, refer to Figure 3 A discharge pipe 401 is fixedly connected to the side of the stirring device 4, and a funnel cover 402 is installed on the top of the discharge pipe 401.

[0038] In this invention, the funnel cover 402 facilitates the addition of materials or other products that need to be injection molded to the inside of the mixing device 4 by the operator, thereby avoiding any impact on the feeding process.

[0039] In one implementation scheme, refer to Figure 7 The stirring device 4 includes a stirring frame 403, and stirring blades 404 are fixedly connected to the side of the stirring frame 403.

[0040] In this invention, the rotating connecting rod 502 drives the stirring frame 403 to rotate, and the rotating stirring frame 403 facilitates the rotation of the stirring blades 404, thereby facilitating the stirring of the materials inside the stirring device 4 and avoiding incomplete mixing, which would delay the normal use of the equipment by the operators.

[0041] In one implementation scheme, refer to Figure 8 The clamping device 7 includes a telescopic airbag 701, which is located inside the mold frame 6.

[0042] In this invention, the telescopic airbag 701 is located inside the mold frame 6, thereby avoiding the need to limit the inflation position of the telescopic airbag 701 during use, preventing displacement of the position and delaying the use effect.

[0043] In one implementation scheme, refer to Figure 8 A limiting groove 601 is provided through the side of the mold frame 6, and a limiting plate 801 is installed on the side of the clamping plate 8. The limiting plate 801 is located inside the limiting groove 601.

[0044] In this invention, the limiting plate 801 slides inside the limiting groove 601, which facilitates the adjustment of the position of the clamping plate 8 when the clamping device 7 is inflated, thereby making it convenient for the operator to clamp the injection mold.

[0045] In one implementation scheme, refer to Figure 2 An adapter pipe 702 is installed on the side of the clamping device 7. The adapter pipe 702 is installed on the side of the conversion driver 5 and is used to discharge gas into the clamping device 7.

[0046] In this invention, a telescopic airbag 701 is installed on the side of the clamping device 7 and on the side of the conversion driver 5, so as to facilitate the injection of gas into the interior of the clamping device 7 and avoid gas overflow, which would delay the use effect.

[0047] In one implementation scheme, refer to Figure 6 A support frame 101 is installed at the bottom of the ejector airbag 10. The support frame 101 is installed inside the processing platform 1. A double-row groove plate 102 is installed on the top of the processing platform 1. The double-row groove plate 102 is located below the clamping device 7.

[0048] In this invention, the support frame 101 supports the use of the ejector airbag 10 and the double-row groove plate 102 supports the use of the clamping device 7, which facilitates the entry and exit of the ejector airbag 10 and avoids obstruction during use, thus preventing delays in the use effect.

[0049] Reference Figures 1-8The method of using the satellite antenna component manufacturing and processing equipment of the present invention mainly includes the following steps:

[0050] S1. By installing the conversion driver 5 between the fixed fan 2 and the stirring device 4, when the fixed fan 2 is started, the started fixed fan 2 injects gas into the speed regulator 3 through the pipeline. The operator controls the flow speed of the gas entering the fixed fan 2 through the speed regulator 3. The flowing gas enters the interior of the conversion driver 5 and pushes the drive blade 501, so that the drive blade 501 rotates under the drive of the gas. The rotating drive blade 501 drives the stirring device 4 through the connecting rod 502, which facilitates the stirring of the materials stored inside the stirring device 4. The gas enters the interior of the clamping device 7 to inflate the clamping device 7, which facilitates the clamping plate 8 to clamp the mold.

[0051] S2. The staff injects the material into the mold. When the part is finished being injected, the fixed pump 9 is started to discharge the gas inside the clamping device 7. The discharged gas enters the ejection air bladder 10 through the pipe to inflate the ejection air bladder 10, so as to facilitate the ejection of the mold after use.

[0052] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in the present invention, based on the technical solution and inventive concept of the present invention, should be covered within the scope of protection of the present invention.

Claims

1. A satellite antenna parts processing equipment, comprising a processing platform (1), characterized in that, Also includes: A fixed fan (2) and a stirring device (4) are fixedly installed on the inner bottom wall of the processing platform (1). A speed regulator (3) is fixedly connected to the side of the fixed fan (2) through a pipe. A conversion driver (5) is provided between the fixed fan (2) and the stirring device (4). A drive blade (501) is provided on the inner wall of the conversion driver (5). A connecting rod (502) is installed at one end of the drive blade (501) that passes through the conversion driver (5). The connecting rod (502) is installed between the conversion driver (5) and the stirring device (4) so ​​that when gas is input through the fixed fan (2), the gas is used to drive the stirring device (4) to rotate by setting the conversion driver (5). A mold frame (6) is installed on the top of the processing platform (1), and a clamping device (7) is installed on the inner wall of the mold frame (6). The clamping device (7) is connected to the conversion driver (5) through a pipe. A clamping plate (8) is installed on the side of the clamping device (7), and the clamping plate (8) moves on the inner wall of the mold frame (6). The clamping device (7) includes a telescopic airbag (701), which is located inside the mold frame (6); The clamping device (7) is equipped with a transfer tube (702) on its side. The transfer tube (702) is installed on the side of the conversion driver (5) and is used to discharge gas into the clamping device (7).

2. The satellite antenna parts processing equipment according to claim 1, characterized in that, Also includes: A fixed pump (9) is fixedly installed on the side of the clamping device (7), and an ejector airbag (10) is installed at the bottom of the processing platform (1). The fixed pump (9) and the ejector airbag (10) are fixedly connected on the side.

3. The satellite antenna parts processing equipment according to claim 1, characterized in that, Also includes: The discharge pipe (11) is installed on the side of the stirring device (4). The discharge pipe (11) is rotated by a bearing and has a rotating seat (1101). A top pipe (1102) is installed on the top of the rotating seat (1101). A discharge cover (1103) is fixedly connected to one end of the top pipe (1102).

4. The satellite antenna parts processing equipment according to claim 1, characterized in that, The side of the stirring device (4) is fixedly connected to an inlet pipe (401), and a funnel cover (402) is installed on the top of the inlet pipe (401).

5. The satellite antenna parts processing equipment according to claim 1, characterized in that, The stirring device (4) includes a stirring frame (403), and stirring blades (404) are fixedly connected to the side of the stirring frame (403).

6. The satellite antenna parts processing equipment according to claim 1, characterized in that, The mold frame (6) has a limiting groove (601) through its side, and the clamping plate (8) has a limiting plate (801) installed on its side. The limiting plate (801) is located inside the limiting groove (601).

7. The satellite antenna parts processing equipment according to claim 2, characterized in that, The bottom of the ejector airbag (10) is equipped with a support frame (101), which is installed inside the processing platform (1). The top of the processing platform (1) is equipped with a double-row groove plate (102), which is located below the clamping device (7).

8. A method for using the satellite antenna parts production and processing equipment, comprising the satellite antenna parts production and processing equipment of claim 2, characterized in that, The main steps include: S1. By installing the conversion driver (5) between the fixed fan (2) and the stirring device (4), when the fixed fan (2) is started, the started fixed fan (2) injects gas into the speed regulator (3) through the pipe. The operator controls the flow speed of the gas entering the fixed fan (2) through the speed regulator (3). The flowing gas enters the interior of the conversion driver (5) and pushes the drive blade (501), so that the drive blade (501) rotates under the drive of the gas. The rotating drive blade (501) drives the stirring device (4) through the connecting rod (502), so as to facilitate the stirring of the material stored inside the stirring device (4). The gas enters the interior of the clamping device (7), so as to inflate the clamping device (7), so as to facilitate the clamping plate (8) to clamp the mold. S2. The staff injects the material into the mold. When the part is finished being injected, the fixed pump (9) is started to discharge the gas inside the clamping device (7). The discharged gas enters the interior of the ejection air bladder (10) through the pipe, thereby inflating the ejection air bladder (10) and making it convenient to eject the mold after use.