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A fully automatic production equipment for copper tubes of compressors

A production equipment and fully automatic technology, applied in other manufacturing equipment/tools, metal processing, manufacturing tools, etc., can solve the problems of low processing rate of finished pipe fittings, limited processing accuracy, low processing efficiency, etc., and achieve effective control of processing costs , Improved processing efficiency and high production efficiency

Active Publication Date: 2016-04-20
绍兴汉立工业自动化科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the conventional processing method, the aperture size and the position of the bundle head are different based on different connection parts. The original parts are usually straight copper tubes with uniform diameters. The copper tubes are processed by hand or lathe for flaring processing, and then Beam joint processing, the flaring and beam joint of the copper tube are carried out separately, the processing process is discontinuous processing, the processing efficiency is low, and the processing accuracy is limited. When the machining deformation is caused by the friction of the lathe, it is easy to produce waste, and the processing rate of the finished pipe fittings is not high.

Method used

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  • A fully automatic production equipment for copper tubes of compressors
  • A fully automatic production equipment for copper tubes of compressors
  • A fully automatic production equipment for copper tubes of compressors

Examples

Experimental program
Comparison scheme
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Embodiment 1

[0032] This embodiment is a fully automatic production equipment for compressor copper tubes, combined with figure 1 , including the feeding station, the flaring station, the knotting station, the discharging station and the turntable 1, and the feeding station, the flaring station, the knotting station and the discharging station are installed on the turntable 1 in sequence On the side, the bottom of the turntable 1 is provided with a manipulator 2, which is used to move the pipe to be processed from the previous station to the next station, wherein:

[0033] combine figure 2 , the feeding station includes a vibrating plate 3, a spiral progressive trough 4, a metal hose 5, and a accommodating sleeve 6. The spiral progressive trough 4 is located above the vibrating plate 3, and is driven by the vibrating plate 3 to vibrate. The opening 41 of the progressive trough 4 is communicated with the upper end of the metal hose 5, the lower end of the metal hose 5 is located directly ...

Embodiment 2

[0043] The setting and working principle of this embodiment are the same as those of Embodiment 1, except that the left mold 15 and the right mold 16 are both composed of a core mold 19 with high rigidity and an outer mold 20 with low rigidity, and the core mold 19 is installed in the outer mold 20. , the matching hole is opened on the core mold 19, the core mold 19 and the outer mold 20 have different rigidity, and the core mold 19 has a higher rigidity than the outer mold 20; the second accommodating hole 102 is a through hole.

[0044] The production equipment of this embodiment is used to process the copper tube of the compressor. From the perspective of processing flow, the traditional discontinuous processing is transformed into continuous automatic processing; from the perspective of input cost, under the premise of meeting the processing needs, the maximum The cost input has been reduced to a certain extent; in terms of processing efficiency and processing accuracy, ful...

Embodiment 3

[0046] The setting and working principle of this embodiment are the same as those of the second embodiment, the difference is that the second accommodating hole 102 is a semi-through hole, and the bottom thereof is blocked.

[0047] The production equipment of this embodiment is used to process the copper tube of the compressor. From the perspective of processing flow, the traditional discontinuous processing is transformed into continuous automatic processing; from the perspective of input cost, under the premise of meeting the processing needs, the maximum The cost input has been reduced to a certain extent; in terms of processing efficiency and processing accuracy, fully automated continuous production ensures the improvement of processing efficiency, and the cooperation between each processing station and positioning mechanism, manipulator 2 and various power sources ensures processing accuracy. It not only improves the qualified rate of finished products, but also reduces ...

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Abstract

The invention relates to full-automatic production equipment for compressor copper pipes, and belongs to the technical field of machining devices for compressor parts. The full-automatic production equipment for the compressor copper pipes comprises a feeding station, a flaring station, a connector binding station, a discharging station and a turntable, wherein the feeding station, the flaring station, the connector binding station and the discharging station are arranged on the side edge of the turntable in sequence, and a mechanical arm is arranged on the bottom of the turntable and is used for moving a pipe fitting to be machined from a previous station to a next station. After the pipe fitting enters through the feeding station, the pipe fitting is moved to the flaring station by the mechanical arm, flaring machining is carried out on the pipe fitting to be machined at the flaring station, the mechanical arm moves the flared pipe fitting to the connector binding station to carry out connector binding machining, then the mechanical arm moves the flared and connector bound pipe fitting to the discharging station, and thus a finished product is obtained. Through the adoption of the production equipment, full-automatic consecutive production of the feeding, the flaring, the connector binding and the discharging of the compressor copper pipes can be achieved.

Description

technical field [0001] The invention relates to an automatic production equipment for compressor copper tubes, which belongs to the technical field of compressor component processing devices. Background technique [0002] Compressor copper tube is a common component in refrigeration equipment. In order to meet the requirements of installation and air tightness, it usually adopts a structure with a large hole diameter at one end and a small hole diameter at one end. At the same time, during the connection process of these components, pipes and components of different materials are connected. , such as connecting copper pipes with steel pipes or stainless steel pipes and aluminum pipes, and then welding them firmly. Based on the requirements of welding fastness, three points, knurling or processing of bundle joints will be performed on the copper pipes of the compressor. In the conventional processing method, the aperture size and the position of the bundle head are different ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23P23/02
CPCB23P23/00B23Q7/046B23Q7/10
Inventor 夏恒超付义林
Owner 绍兴汉立工业自动化科技有限公司
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