CN217647363U - Power tube forming device - Google Patents

Abstract

The utility model discloses a power tube forming processing device, which comprises a workbench, a feeding mechanism arranged on the workbench, a punch forming mechanism used for punch forming the power tube fed by the feeding mechanism, and a blanking mechanism used for automatic blanking of the power tube formed by the punch forming mechanism; the punch forming mechanism comprises a forming mechanism main body, wherein a forming positioning groove is formed in the forming mechanism main body and comprises an upper positioning groove and a lower positioning groove, and the blanking mechanism comprises a blanking mechanism main body and at least one blanking pipe assembled on the blanking mechanism main body; this power tube forming process device does not need the people to contact the power tube when making the power tube shaping, reduces the man-hour when the power tube is put, puts the risk of being punctured by the static after reducing the power tube shaping, avoids the power tube course of working to produce to pile up and the metal covering rubs and produces the fish tail, improves power tube shaping efficiency.

Description

Power tube forming device

Technical Field

The utility model relates to a power electronic device assembly processing technology field especially relates to a power tube forming process device.

Background

In the prior art, the power tube is formed by manually bending a jig or bending a pin by semi-automatic equipment. After the power tube is machined and molded, the power tube falls into the box freely, and the power tube needs to be manually placed on the tray. Static electricity generated in the placing process is easy to break down the power tube, meanwhile, the metal surface of the power tube is scratched due to scattering of the power tube, and after the metal surface of the power tube is scratched and assembled into a finished product, the finished product is possibly failed due to point discharge or crushing of the components, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a power tube forming device, this power tube forming device does not need the human contact power tube when making the power tube shaping, reduces the man-hour when the power tube is put, puts the risk by electrostatic breakdown after reducing the power tube shaping, avoids the power tube course of working to produce to pile up and the metal covering friction produces the fish tail, improves power tube shaping efficiency.

In order to solve the technical problem, the utility model provides a power tube forming device, which comprises a workbench, a feeding mechanism arranged on the workbench, a punch forming mechanism used for punch forming the power tube fed by the feeding mechanism, and a discharging mechanism used for automatically discharging the power tube formed by the punch forming mechanism; the feeding mechanism, the punch forming mechanism and the blanking mechanism are sequentially arranged along the inclined plane from top to bottom, and the power tube comprises a power tube main body and pins arranged at the lower part of the power tube main body; the feeding mechanism comprises a feeding mechanism main body and at least one feeding pipe assembled on the feeding mechanism main body, wherein the upper surface of the feeding mechanism main body is provided with at least one first assembling groove for placing the feeding pipe; the feeding pipe is provided with n power tubes; a through groove matched with the unformed power tube is formed along the cross section of the feeding tube, and first cross partition members for supporting the bottom surface of the power tube main body and carrying out power tube conveying and positioning are arranged on the inner walls of two sides in the middle of the through groove; the punch forming mechanism comprises a forming mechanism main body, a forming positioning groove is formed in the forming mechanism main body and comprises an upper positioning groove and a lower positioning groove, and second diaphragm components for supporting the bottom surface of the power tube main body and conveying and positioning the power tube are arranged on the inner walls of the two sides of the forming positioning groove between the upper positioning groove and the lower positioning groove; the bottom surface of the power tube main body abuts against the bottom surface of the forming positioning groove, the blanking mechanism comprises a blanking mechanism main body and at least one blanking tube assembled on the blanking mechanism main body, and the upper surface of the blanking mechanism main body is provided with at least one second assembling groove for placing the blanking tube; the feeding pipe is provided with n power tubes, the cross section of the feeding pipe is in an inverted L shape, a hollow inverted L-shaped groove is formed in the cross section of the feeding pipe and matched with the formed power tubes, the inverted L-shaped groove comprises a vertical side groove and a horizontal side groove, third transverse partition members used for supporting the bottom surfaces of the power tube main bodies and conducting power tube transmission and positioning are arranged on the inner walls of the two sides in the middle of the vertical side groove, the bottom surfaces of the power tube main bodies abut against the third transverse partition members, and pins of the power tubes penetrate through the third transverse partition members and are matched with the horizontal side grooves; the upper surfaces of the first diaphragm member, the second diaphragm member and the third diaphragm member are parallel to the inclined surface of the worktable 40 and pass through the same straight line, wherein n is more than or equal to 2.

Preferably, stamping forming mechanism still including set up in forming mechanism main part lower part and right the pin of power tube carries out the stamping structure of punching press, stamping structure is facing to lower part constant head tank.

Preferably, the stamping structure comprises a stamping block and a stamping cylinder arranged at the lower part of the forming mechanism body, and the stamping block is assembled on the stamping cylinder and acts towards the lower positioning groove to stamp the pin of the power tube.

Preferably, the upper portion of forming mechanism main part is provided with when the power tube conveys the shaping constant head tank is right when preparing stamping forming the compact structure that the upper portion of power tube main part compresses tightly, works as after the pin stamping forming of power tube is ended, compact structure removes the compressing tightly of power tube main part.

Preferably, the angle θ is 45 to 70 degrees.

Preferably, the exit of the conveying power tube of the feeding tube in the feeding mechanism main body is provided with a blocking block, when the punch forming mechanism is not started or between two conveying gaps of the power tube, the blocking block blocks the gliding power tube, and when the gliding power tube is conveyed to the punch forming mechanism, the blocking block removes the blocking of the gliding power tube.

Preferably, an outlet of the inverted L-shaped groove of the blanking tube is provided with a locking buckle for blocking the power tube from sliding downwards.

Preferably, the inclined plane of the workbench is provided with a first conveying structure for controlling the feeding mechanism main body to move back and forth on the lower portion of the feeding mechanism main body, and the first conveying structure controls the feeding mechanism main body to move back and forth longitudinally to convey the power tube of one feeding tube to the punch forming structure and then move to the next feeding tube to convey the power tube.

Preferably, a second conveying structure for controlling the feeding mechanism main body to move back and forth is arranged on the inclined surface of the workbench and below the feeding mechanism main body, and the second conveying structure controls the feeding mechanism main body to move back and forth longitudinally so as to convey the power tube which is formed by the punch forming structure and is filled with a feeding tube and then convey the power tube to the next feeding tube to convey the power tube.

After the structure is adopted, the power tube forming and processing device comprises a workbench, a feeding mechanism arranged on the workbench, a punch forming mechanism used for punch forming the power tube fed by the feeding mechanism, and a blanking mechanism used for automatically blanking the power tube formed by the punch forming mechanism; the feeding mechanism, the punch forming mechanism and the blanking mechanism are sequentially arranged along the inclined plane from top to bottom, and the power tube comprises a power tube main body and pins arranged at the lower part of the power tube main body; the feeding mechanism comprises a feeding mechanism main body and at least one feeding pipe assembled on the feeding mechanism main body, wherein the upper surface of the feeding mechanism main body is provided with at least one first assembling groove for placing the feeding pipe; the feeding pipe is provided with n power tubes; a through groove matched with the unformed power tube is formed along the cross section of the feeding tube, and first diaphragm components for supporting the bottom surface of the power tube main body and carrying out power tube transmission positioning are arranged on the inner walls of two sides in the middle of the through groove; the punch forming mechanism comprises a forming mechanism main body, a forming positioning groove is formed in the forming mechanism main body and comprises an upper positioning groove and a lower positioning groove, and second diaphragm components for supporting the bottom surface of the power tube main body and conveying and positioning the power tube are arranged on the inner walls of the two sides of the forming positioning groove between the upper positioning groove and the lower positioning groove; the bottom surface of the power tube main body abuts against the bottom surface of the forming positioning groove, the blanking mechanism comprises a blanking mechanism main body and at least one blanking tube assembled on the blanking mechanism main body, and the upper surface of the blanking mechanism main body is provided with at least one second assembling groove for placing the blanking tube; the feeding pipe is provided with n power tubes, the cross section of the feeding pipe is in an inverted L shape, a hollow inverted L-shaped groove is formed in the cross section of the feeding pipe and matched with the formed power tubes, the inverted L-shaped groove comprises a vertical side groove and a horizontal side groove, third transverse partition members used for supporting the bottom surfaces of the power tube main bodies and conducting power tube transmission and positioning are arranged on the inner walls of the two sides in the middle of the vertical side groove, the bottom surfaces of the power tube main bodies abut against the third transverse partition members, and pins of the power tubes penetrate through the third transverse partition members and are matched with the horizontal side grooves; the upper surfaces of the first, second and third diaphragm members are parallel to the inclined plane of the table 40 and pass through the same straight line; this power tube forming process device does not need the artificial contact power tube when making the power tube shaping, reduces the man-hour when the power tube is put, puts the risk of being punctured by the static after reducing the power tube shaping, avoids power tube course of working to produce to pile up and the metal covering friction produces the fish tail, improves power tube shaping efficiency.

Drawings

Fig. 1 is an overall structure diagram of a power tube forming device of the present invention;

fig. 2 is a structural diagram of a feeding mechanism main body of the power tube forming device of the present invention;

fig. 3 is a structural diagram of a blanking mechanism main body of the power tube forming device of the present invention;

fig. 4 is a left side view of the feeding tube of the power tube forming device of the present invention;

fig. 5 is a front view of a feeding tube of a power tube forming device according to the present invention;

fig. 6 is a left side view of a blanking tube of the power tube forming device of the present invention;

fig. 7 is a perspective view of a power tube of the power tube forming device of the present invention;

fig. 8 is a front view of the punch forming mechanism of the power tube forming device of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

Referring to fig. 1, fig. 1 is an overall structure diagram of a power tube forming device according to the present invention; the embodiment discloses a power tube forming and processing device, which comprises a workbench 4, a feeding mechanism 1 arranged on the workbench 4, a punch forming mechanism 2 used for punch forming a power tube 5 fed by the feeding mechanism 1, and a blanking mechanism 3 used for automatically blanking the power tube 5 formed by the punch forming mechanism 2; the workbench 4 is provided with an inclined plane, the inclined plane and the horizontal plane form an included angle of an angle theta, the feeding mechanism 1, the punch forming mechanism 2 and the blanking mechanism 3 are sequentially arranged along the inclined plane from top to bottom, and the power tube 5 comprises a power tube main body 51 and a pin 52 arranged at the lower part of the power tube main body 51; the feeding mechanism 1 comprises a feeding mechanism main body 11 and at least one feeding pipe 12 assembled on the feeding mechanism main body 11, wherein the upper surface of the feeding mechanism main body 11 is provided with at least one first assembling groove 111 for placing the feeding pipe 12; the feeding pipe is provided with n power tubes; a through groove 13 matched with the unformed power tube 5 is formed along the cross section of the feeding tube 12, and first transverse partition members 14 for supporting the bottom surface of the power tube main body 51 and transmitting and positioning the power tube 5 are arranged on the inner walls of two sides in the middle of the through groove 13; the punch forming mechanism 2 comprises a forming mechanism main body 20, a forming positioning groove 201 is formed in the forming mechanism main body 20, the forming positioning groove 201 comprises an upper positioning groove and a lower positioning groove, and second diaphragm components 202 used for supporting the bottom surface of the power tube main body 51 and carrying out transmission positioning on the power tube 5 are arranged on the inner walls of the forming positioning groove 201 between the upper positioning groove and the lower positioning groove on two sides; the bottom surface of the power tube main body 51 abuts against the bottom surface of the forming positioning groove 201, the blanking mechanism 3 comprises a blanking mechanism main body 31 and at least one blanking tube 32 assembled on the blanking mechanism main body 31, and the upper surface of the blanking mechanism main body 31 is provided with at least one second assembly groove 311 for placing the blanking tube 32; the n power tubes 5 are assembled on the blanking tube 32, the cross section of the blanking tube 32 is inverted L-shaped, a hollow inverted L-shaped groove is formed in the cross section of the blanking tube 32, the inverted L-shaped groove is matched with the formed power tube 5, the inverted L-shaped groove comprises a vertical side groove 321 and a horizontal side groove 322, third transverse partition members 323 used for supporting the bottom surface of the power tube main body 51 and conducting transmission and positioning on the power tube 5 are arranged on the inner walls of two sides in the middle of the vertical side groove 321, the bottom surface of the power tube main body 51 abuts against the third transverse partition members 323, and pins 52 of the power tube 5 penetrate through the third transverse partition members 323 to be matched with the horizontal side grooves 322; the upper surface of the first diaphragm member 14, the upper surface of the second diaphragm member 202, and the upper surface of the third diaphragm member 323 are parallel to the inclined surface of the table 40 and pass through the same straight line.

Example two

Referring to fig. 2 and 3, fig. 2 is a whole structure diagram of a water-cooling SVG container heat dissipation system according to the second embodiment of the present invention, and fig. 3 is a structure diagram of an internal water-air heat exchanger of the water-cooling SVG container heat dissipation system according to the present invention.

In this embodiment, based on the first embodiment, in this embodiment, the punch forming mechanism 2 further includes a punch structure 21 disposed at the lower portion of the forming mechanism body 20 and used for punching the pins 52 of the power tube 5, and the punch structure faces the lower positioning groove.

The stamping structure 21 comprises a stamping block and a stamping cylinder arranged at the lower part of the forming mechanism body, wherein the stamping block is assembled on the stamping cylinder and acts towards the lower positioning groove to stamp the pin 52 of the power tube 5.

The upper part of the forming mechanism body 20 is provided with a pressing structure for pressing the upper part of the power tube body 51 when the power tube 5 is conveyed to the forming positioning groove 201 and is ready for press forming, and the pressing structure releases the pressing of the power tube body 51 after the press forming of the pin 52 of the power tube 5 is finished.

In the present embodiment, it is preferable that the inclined surface of the table form an angle θ of 45 degrees to 70 degrees with the horizontal plane.

The exit of the conveying power tube 5 of the feeding tube 12 on the feeding mechanism body 11 is provided with a blocking block, when the punch forming mechanism 2 is not started or between two power tube conveying gaps, the blocking block blocks the power tube 5 which slides downwards, and when the power tube 5 can be conveyed to the punch forming mechanism 2, the blocking block removes the blocking of the power tube 5 which slides downwards.

The outlet of the inverted L-shaped groove of the blanking pipe 32 is provided with a locking buckle for blocking the power tube 5 from sliding downwards.

EXAMPLE III

In this embodiment, based on the first embodiment, in the first embodiment, the first conveying structure for controlling the feeding mechanism main body 11 to move back and forth is disposed on the inclined surface of the worktable 40 at the lower portion of the feeding mechanism main body 11, and the first conveying structure controls the feeding mechanism main body 11 to move back and forth in the longitudinal direction to convey the power tube of one feeding tube 12 to the punch forming structure 2, and then to move to the next feeding tube 12 to convey the power tube 5.

A second conveying structure for controlling the blanking mechanism main body 31 to move back and forth is arranged on the inclined surface of the workbench 40 and at the lower part of the blanking mechanism main body 31, and the second conveying structure controls the blanking mechanism main body 31 to move back and forth longitudinally to convey the power tube 5 which is punched and formed from the punch forming structure 2 to fill one blanking tube 32 and then to move to the next blanking tube 32 to convey the power tube 5.

This power tube forming process device does not need the artificial contact power tube when making the power tube shaping, reduces the man-hour when the power tube is put, puts the risk of being punctured by the static after reducing the power tube shaping, avoids power tube course of working to produce to pile up and the metal covering friction produces the fish tail, improves power tube shaping efficiency.

It should be understood that the above is only a preferred embodiment of the present invention, and the scope of the present invention should not be limited thereby, and all the equivalent structures or equivalent processes that are modified by the contents of the specification and the drawings of the present invention or directly or indirectly applied to other related technical fields are also covered by the scope of the present invention.

Claims (9)

1. A power tube forming and processing device is characterized by comprising a workbench, a feeding mechanism arranged on the workbench, a punch forming mechanism used for punch forming the power tube fed by the feeding mechanism, and a blanking mechanism used for automatically blanking the power tube formed by the punch forming mechanism; the feeding mechanism, the punch forming mechanism and the blanking mechanism are sequentially arranged along the inclined plane from top to bottom, and the power tube comprises a power tube main body and pins arranged at the lower part of the power tube main body; the feeding mechanism comprises a feeding mechanism main body and at least one feeding pipe assembled on the feeding mechanism main body, wherein the upper surface of the feeding mechanism main body is provided with at least one first assembling groove for placing the feeding pipe; the feeding pipe is provided with n power tubes; a through groove matched with the unformed power tube is formed along the cross section of the feeding tube, and first cross partition members for supporting the bottom surface of the power tube main body and carrying out power tube conveying and positioning are arranged on the inner walls of two sides in the middle of the through groove; the punch forming mechanism comprises a forming mechanism main body, a forming positioning groove is formed in the forming mechanism main body and comprises an upper positioning groove and a lower positioning groove, and second diaphragm components for supporting the bottom surface of the power tube main body and conveying and positioning the power tube are arranged on the inner walls of the two sides of the forming positioning groove between the upper positioning groove and the lower positioning groove; the bottom surface of the power tube main body abuts against the bottom surface of the forming positioning groove, the blanking mechanism comprises a blanking mechanism main body and at least one blanking tube assembled on the blanking mechanism main body, and the upper surface of the blanking mechanism main body is provided with at least one second assembling groove for placing the blanking tube; the feeding pipe is provided with n power tubes, the cross section of the feeding pipe is in an inverted L shape, a hollow inverted L-shaped groove is formed in the cross section of the feeding pipe and matched with the formed power tubes, the inverted L-shaped groove comprises a vertical side groove and a horizontal side groove, third transverse partition members used for supporting the bottom surfaces of the power tube main bodies and conveying and positioning the power tubes are arranged on the inner walls of two sides in the middle of the vertical side groove, the bottom surfaces of the power tube main bodies abut against the third transverse partition members, and pins of the power tubes penetrate through the third transverse partition members and are matched with the horizontal side grooves; the upper surface of the first diaphragm component, the upper surface of the second diaphragm component and the upper surface of the third diaphragm component are parallel to the inclined plane of the workbench and pass through the same straight line, wherein n is more than or equal to 2.

2. The power tube forming device according to claim 1, wherein the punch forming mechanism further includes a punch structure disposed at a lower portion of the forming mechanism body and configured to punch the pins of the power tube, and the punch structure faces the lower positioning groove.

3. The power tube forming device according to claim 2, wherein the stamping structure includes a stamping block and a stamping cylinder disposed at a lower portion of the forming mechanism body, and the stamping block is assembled on the stamping cylinder and acts toward the lower positioning groove to stamp the pin of the power tube.

4. The power tube forming device according to claim 3, wherein a pressing structure that presses the upper portion of the power tube main body when the power tube is conveyed to the forming positioning groove and is ready for press forming is provided on the upper portion of the forming mechanism main body, and when the pin press forming of the power tube is completed, the pressing structure releases the pressing of the power tube main body.

5. The power tube profiling device according to claim 3, wherein the angle θ is 45 degrees to 70 degrees.

6. The power tube forming processing device according to claim 3, wherein a blocking block is provided at an outlet of the feeding tube of the feeding mechanism main body for transmitting the power tube, when the punch forming mechanism is not started or between two power tube transmission gaps, the blocking block blocks the power tube which slides downwards, and when the power tube can be transmitted to the punch forming mechanism, the blocking block releases the blocking of the power tube which slides downwards.

7. The power tube forming and processing device according to claim 3, wherein a locking buckle for blocking the power tube from sliding downwards is arranged at an outlet of the inverted L-shaped groove of the blanking tube.

8. The power tube forming processing device according to claim 3, wherein a first conveying structure for controlling the feeding mechanism body to move back and forth is arranged on the inclined surface of the workbench below the feeding mechanism body, and the first conveying structure controls the feeding mechanism body to move back and forth longitudinally to convey the power tube of one feeding tube to the punch forming mechanism and then to the next feeding tube to convey the power tube.

9. The power tube forming processing device according to claim 3, wherein a second conveying structure for controlling the blanking mechanism body to move back and forth is arranged on the inclined surface of the workbench below the blanking mechanism body, and the second conveying structure controls the blanking mechanism body to move back and forth longitudinally so as to convey the power tube formed by the punch forming mechanism to fill with one blanking tube and then to move to the next blanking tube for conveying the power tube.

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