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CN-116511313-B - Intelligent production system and production method for underwater vehicle shell

CN116511313BCN 116511313 BCN116511313 BCN 116511313BCN-116511313-B

Abstract

The invention belongs to the technical field of stamping equipment, and particularly relates to an intelligent production system and a production method of an underwater vehicle shell, wherein the intelligent production system of the underwater vehicle shell comprises an oiling mechanism, a stamping oil coating mechanism and an oil coating mechanism, wherein when a steel belt enters the oiling mechanism, the oiling mechanism scrapes impurities on the steel belt, so that the oiling mechanism smears stamping oil on the steel belt, two opposite airflows are formed on the upper surface of the steel belt in the oiling mechanism, one airflows bring the impurities on the steel belt out of the oiling mechanism, and the other airflows obstruct the stamping oil on the steel belt from spreading; the invention can adjust the posture of the steel belt by arranging the oiling mechanism, the steel belt can be stably fed into the stamping mechanism, and meanwhile, the oil supply mechanism is matched to uniformly paint the stamping oil on two sides of the steel belt and lead the steel belt to the oiling mechanism for blowing, thereby realizing cleaning and collecting impurities on the surface of the steel belt.

Inventors

  • WU BIN
  • SHI ZHENPING

Assignees

  • 江苏恒盈动力科技有限公司

Dates

Publication Date
20260508
Application Date
20230504

Claims (10)

  1. 1. An underwater vehicle housing intelligent production system, comprising: The device comprises a frame, an unreeling mechanism, an oiling mechanism, an oil supply mechanism, an air blowing mechanism and a stamping mechanism, wherein The unreeling mechanism, the oiling mechanism and the stamping mechanism are sequentially arranged on the frame, and the oil supply mechanism and the air blowing mechanism are arranged on the frame and connected with the oiling mechanism; the steel strip discharged by the unreeling mechanism is sent to the stamping mechanism after the gesture is adjusted by the oiling mechanism, so that the stamping mechanism stamps out the underwater vehicle shell from the steel strip; The oil supply mechanism injects stamping oil into the oiling mechanism and the air blowing mechanism to blow air into the oiling mechanism, when the steel belt enters the oiling mechanism, the oiling mechanism scrapes impurities on the steel belt, so that the oiling mechanism smears the stamping oil on the steel belt, two opposite airflows are formed on the upper surface of the steel belt in the oiling mechanism, one airflows brings the impurities on the steel belt out of the oiling mechanism, and the other airflows obstruct the propagation of the stamping oil on the steel belt; When the steel belt is separated from the oiling mechanism, the air blowing mechanism blows air towards the lower surface of the steel belt through the oiling mechanism to support the steel belt to prevent the steel belt from bending, and When the oiling mechanism is empty, the air flow blown out from the oiling mechanism attracts and brings out impurities and punching oil.
  2. 2. The intelligent production system of an underwater vehicle housing as claimed in claim 1, wherein, The unreeling mechanism comprises an unreeling motor, an unreeling shaft and an unreeling frame; the unreeling motor is arranged on the rack, an output shaft of the unreeling motor is connected with the unreeling shaft, and the unreeling frame is sleeved on the unreeling shaft; The unreeling motor drives the unreeling shaft to rotate so as to drive the unreeling frame to unreel the steel belt.
  3. 3. The intelligent production system of an underwater vehicle housing as claimed in claim 2, wherein, A plurality of limit roller sets are arranged between the unreeling frame and the oiling mechanism and used for adjusting the conveying posture of the steel belt.
  4. 4. The intelligent production system of an underwater vehicle housing as claimed in claim 1, wherein, The oiling mechanism comprises a first oiling plate and a second oiling plate; the first oiling plate and the second oiling plate are both rotatably arranged on the frame, and the second oiling plate is positioned above the first oiling plate; a conveying channel is formed between the first oiling plate and the second oiling plate and is used for conveying the steel belt; a plurality of air holes are formed in the second oiling plate, and each air hole is communicated with the air blowing mechanism and the conveying channel; An air passage is formed in the first oiling plate at the position corresponding to each air hole, and an outlet of the air passage is positioned on the first rear end face of the first oiling plate; The first oiling plate is provided with a first oiling layer, the first oiling layer is positioned between an inlet of the air passage and a first rear end surface of the first oiling plate, a second oiling brush is arranged on a second rear end surface of the second oiling plate, and the oil supply mechanism is connected with the first oiling layer and the second oiling brush; The steel belt is fed into the stamping mechanism in a horizontal posture through the conveying channel, the first front end face of the first oiling plate and the second front end face of the second oiling plate respectively scrape impurities on the lower surface and the upper surface of the steel belt until the first oiling layer and the second oiling brush respectively smear the stamping materials on the lower surface and the upper surface of the steel belt; When the steel belt blocks the air passage, air blown in from each air hole forms two opposite air flows between the second oiling plate and the upper surface of the steel belt; when each air hole is communicated with the air passage, air blown in from each air hole is blown out from the first rear end face through the air passage, and air flow sucks impurities and punching oil in the conveying passage when the air flow is blown to the air passage from each air hole, so that the impurities and the punching oil are brought into the air passage.
  5. 5. The intelligent production system of an underwater vehicle housing as claimed in claim 4, wherein, The second front end face is provided with a collecting groove, the collecting groove is obliquely arranged, and the bottom edge of the second front end face is provided with a cutting edge; The second front end face scrapes impurities on the upper surface of the steel belt through the cutting edge, so that the impurities are pushed into the collecting groove, and the impurities are accumulated towards one side of the second oiling plate along the oblique direction of the collecting groove.
  6. 6. The intelligent production system of an underwater vehicle housing as claimed in claim 5, wherein, The first oiling plate and the second oiling plate are respectively installed on the frame in a rotating mode through corresponding rotating shafts, so that angles of the first oiling plate and the second oiling plate are adjusted until the top edge of the first front end face and the cutting edge of the second front end face respectively prop against the lower surface and the upper surface of the steel belt.
  7. 7. The intelligent production system of an underwater vehicle housing as claimed in claim 4, wherein, Each air hole is obliquely arranged; The inlet of the air passage is provided with a guide groove which is aligned with each air hole and used for guiding air flow to enter the air passage.
  8. 8. The intelligent production system of an underwater vehicle housing as claimed in claim 7, wherein, A plurality of guide pieces are arranged in the air passage, a notch is formed in each guide piece, and the notch is located at the guide groove.
  9. 9. The intelligent production system of an underwater vehicle housing as claimed in claim 4, wherein, A collecting box is arranged below the first oiling plate; the first oiling layer is obliquely arranged and used for guiding stamping oil to flow into the collecting box.
  10. 10. The intelligent production system of an underwater vehicle housing as claimed in claim 4, wherein, The oil supply mechanism comprises an oil tank, an oil supply pump and an oil supply pipe; The oil tank is arranged on the frame, the oil supply pump is connected with the oil tank and the oil supply pipe, and the output port of the oil supply pipe is connected with the first oiling layer and the second oiling brush; the oil supply pump pumps the stamping oil in the oil tank into the oil supply pipe so as to inject the first oiling layer and the second oiling brush; the air blowing mechanism comprises an air pump and an air pipe; The air pump is communicated with each air hole through an air pipe so as to blow air to each air hole.

Description

Intelligent production system and production method for underwater vehicle shell Technical Field The invention belongs to the technical field of stamping equipment, and particularly relates to an intelligent production system and method for an underwater vehicle shell. Background In the stamping forming process, stamping oil is required to be smeared on the surface of the steel belt, and a lubricating oil film is formed on the surface of the steel belt by smearing the stamping oil, so that the film has physical adsorption and chemical adsorption effects and plays a role in protecting in the stamping forming process. However, excessive stamping oil can affect stamping production, excessive stamping oil reduces local feeding resistance of the steel belt, local wrinkling and other conditions are caused, excessive stamping oil gathers in the drawing process to eject a large package of stamping parts, a very regular round large package is obtained, the vacuum effect in the stamping process is increased, air discharge of a die is affected, the phenomenon that the part is held up is aggravated, and when excessive stamping oil is used for a punching process, the situation that material beans and metal scraps are adhered to the die sometimes occurs, so that the part is damaged in a punching way is caused. Traditional stamping equipment can cause the steel band phenomenon of buckling at unreeling steel band in-process, and spouts the punching press oil on the steel band and flow along the steel band direction of buckling to cause the regional punching press oil gathering on the steel band, there is the impurity on the steel band surface in addition, if clear up the impurity, then influences the adhesion of punching press oil easily, and every section steel band is because gravity effect sags when the terminal entering punching machine simultaneously, and then influences the stability of punching press. Therefore, there is a need to develop a new intelligent production system and production method for underwater vehicle shells to solve the above problems. Disclosure of Invention The invention aims to provide an intelligent production system and method for an underwater vehicle shell. The invention provides an intelligent production system for an underwater vehicle shell, which comprises a frame, an unreeling mechanism, an oiling mechanism, an oil supply mechanism, an air blowing mechanism and a stamping mechanism, wherein the unreeling mechanism, the oiling mechanism and the stamping mechanism are sequentially arranged on the frame, the oil supply mechanism and the air blowing mechanism are arranged on the frame and connected with the oiling mechanism, a steel belt discharged by the unreeling mechanism is sent into the stamping mechanism after the posture of the steel belt is adjusted by the oiling mechanism so as to enable the stamping mechanism to punch the underwater vehicle shell out of the steel belt, the oil supply mechanism injects stamping oil into the oiling mechanism and the air blowing mechanism to blow air into the oiling mechanism, when the steel belt enters the oiling mechanism, the oiling mechanism scrapes impurities on the steel belt, so that the oiling mechanism smears the stamping oil on the steel belt, two opposite airflows are formed on the upper surface of the steel belt, one airflows take the impurities out of the oiling mechanism, the other airflows block the punching oil on the steel belt, when the steel belt is separated from the oiling mechanism, the airflows block the punching oil on the steel belt from the oiling mechanism, and the impurities are sucked from the air blowing mechanism to the surface of the steel belt when the steel belt is sucked into the oiling mechanism. The unreeling mechanism comprises an unreeling motor, an unreeling shaft and an unreeling frame, wherein the unreeling motor is arranged on the frame, an output shaft of the unreeling motor is connected with the unreeling shaft, the unreeling frame is sleeved on the unreeling shaft, and the unreeling motor drives the unreeling shaft to rotate so as to drive the unreeling frame to unreel the steel strip. Further, a plurality of limit roller sets are arranged between the unreeling frame and the oiling mechanism and used for adjusting the conveying posture of the steel belt. The first oiling plate and the second oiling plate are both rotatably arranged on the frame, the second oiling plate is located above the first oiling plate, a conveying channel is formed between the first oiling plate and the second oiling plate and is used for conveying the steel strip, a plurality of air holes are formed in the second oiling plate and are communicated with the air blowing mechanism and the conveying channel, air passages are formed in the first oiling plate at positions corresponding to the air holes, outlets of the air passages are located on the first rear end face of the first oiling plate, a first oiling layer is arranged on the fi