阅读说明：本技术 一种usb检测冲切机 (USB detects die cutting machine ) 是由 李若武 于 2021-09-06 设计创作，主要内容包括：本发明涉及USB生产领域,特别是涉及一种USB检测冲切机。所述USB检测冲切机包括USB检测组件、USB冲切组件、导向组件、定位组件以及驱动组件；所述冲切组件设于所述USB检测组件的一侧；所述USB冲切组件包括升降模组以及冲头；所述升降模组设于所述冲头的上方；所述导向组件设于所述USB冲切组件远离所述USB检测组件的一侧；所述导向组件包括一导向板；沿所述导向板长度方向上设有一导向槽；所述定位组件设于所述导向板的一端；所述驱动组件设于所述导向板远离所述USB检测组件的一侧。通过USB检测组件、USB冲切组件、导向组件、定位组件以及驱动组件的设置,能够高效的完成USB端头的检测、冲切以及输送的工作,极大的提高了工业的生产效率,适于工业应用。(The invention relates to the field of USB production, in particular to a USB detection punching machine. The USB detection punching machine comprises a USB detection assembly, a USB punching assembly, a guide assembly, a positioning assembly and a driving assembly; the punching component is arranged on one side of the USB detection component; the USB punching component comprises a lifting module and a punch; the lifting module is arranged above the punch; the guide assembly is arranged on one side, away from the USB detection assembly, of the USB punching assembly; the guide assembly comprises a guide plate; a guide groove is arranged along the length direction of the guide plate; the positioning assembly is arranged at one end of the guide plate; the driving assembly is arranged on one side, far away from the USB detection assembly, of the guide plate. Through the setting of the USB detection component, the USB punching component, the guiding component, the positioning component and the driving component, the detection, punching and conveying work of the USB end can be efficiently completed, the industrial production efficiency is greatly improved, and the USB end punching device is suitable for industrial application.)

1. The utility model provides a USB detects die cutter which characterized in that: the USB detection punching machine comprises a USB detection assembly, a USB punching assembly, a guide assembly, a positioning assembly and a driving assembly; the punching component is arranged on one side of the USB detection component; the USB punching component comprises a lifting module and a punch; the lifting module is arranged above the punch; the guide assembly is arranged on one side, away from the USB detection assembly, of the USB punching assembly; the guide assembly comprises a guide plate; a guide groove is arranged along the length direction of the guide plate; the positioning assembly is arranged at one end of the guide plate; the driving assembly is arranged on one side of the guide plate, which is far away from the USB detection assembly; the lifting module comprises a first driving device, a lifting seat, an eccentric wheel and a first transmission plate; the first driving device is arranged on one side of the lifting seat; the eccentric wheel is arranged in the lifting seat and is connected with the first driving device; the first transmission plate is arranged below the lifting seat; the punch is arranged below the first transmission plate.

2. The USB detection die cutter of claim 1, wherein: the lifting module further comprises a pressing plate; the pressing plate is arranged below the first transmission plate; the punch is arranged between the pressing plate and the first transmission plate; and the pressing plate is provided with a punch through hole for the punch to pass through.

3. The USB detection die cutter of claim 1, wherein: the USB detection punching component also comprises a USB conveying component; the USB conveying assembly comprises a USB conveying plate, a second driving device and a rotating disc; the USB conveying plate is arranged below the USB detection assembly; the rotating disc is arranged between the USB detection assembly and the USB punching assembly and is positioned above the conveying plate; the second driving device is arranged on one side of the rotating disc and connected with the rotating disc.

4. The USB detection die cutter of claim 1, wherein: the USB detection punching assembly further comprises an output assembly; the output assembly is arranged on one side, away from the USB detection assembly, of the USB punching assembly.

5. The USB detecting and punching machine according to claim 4, wherein: the output assembly comprises an output plate and a clamping module; the output plate is arranged on one side of the output end of the USB punching component; the clamping module is arranged on one side of the output plate.

6. The USB detection die cutter of claim 1, wherein: the positioning assembly comprises a clamping jaw device and a second limiting plate; the clamping jaw device is arranged below one end of the guide plate; the second limiting plates are arranged on two sides above one end of the guide plate respectively, and are connected with the two clamping claw portions of the clamping claw device respectively.

7. The USB detection die cutter of claim 1, wherein: the driving assembly comprises a fourth driving device, a transmission module and a pushing piece; the fourth driving device is arranged on one side of the guide plate; the pushing piece is arranged at one end of the guide plate; the fourth driving device is connected with the pushing piece through the transmission module.

8. The USB detection die cutter of claim 7, wherein: the transmission module comprises a driving wheel, a driven wheel, a transmission belt and a transmission piece; the driving wheel is arranged on one side, close to the fourth driving device, of the guide plate and is connected with the fourth driving device; the driven wheel is arranged at one end, far away from the fourth driving device, of the guide plate, and the driving wheel and the driven wheel are connected through the transmission belt; one end of the transmission piece is connected with the transmission belt, and the other end of the transmission piece is connected with the pushing piece.

9. The USB detection die cutter of claim 8, wherein: the transmission module further comprises a positioning plate; the positioning plate is arranged between the fourth driving device and the guide plate and is parallel to the guide plate; the bottom of the transmission part is connected with the positioning plate in a sliding manner.

10. The USB detection die cutter of claim 9, wherein: the bottom of the transmission part is provided with a connecting piece; a slide rail is arranged above the positioning plate; the connecting piece is connected with the sliding rail in a sliding mode.

Technical Field

The invention relates to the field of USB production, in particular to a USB detection punching machine.

Background

With the development of science and technology and the progress of the living standard of people, the modernization degree of the living of people is higher and higher, and the demand on electronic products is larger and larger. The Universal Serial Bus (USB) is called Universal Serial Bus (USB) in English, and the Chinese translation name is Universal Serial Bus (USB). The USB interface is widely used in electronic products, such as smart phones, computers, televisions, and other common household appliances.

The existing USB connection module needs to cut water materials and detect in the production process, and the existing USB detection die cutting machine is not suitable for industrial application due to unreasonable structure arrangement, complex structure and low working efficiency.

Therefore, it is necessary to provide a technical solution to solve the above-mentioned drawbacks.

Disclosure of Invention

The invention adopts the following technical scheme:

a USB detection punching machine comprises a USB detection assembly, a USB punching assembly, a guide assembly, a positioning assembly and a driving assembly; the punching component is arranged on one side of the USB detection component; the USB punching component comprises a lifting module and a punch; the lifting module is arranged above the punch; the guide assembly is arranged on one side, away from the USB detection assembly, of the USB punching assembly; the guide assembly comprises a guide plate; a guide groove is arranged along the length direction of the guide plate; the positioning assembly is arranged at one end of the guide plate; the driving assembly is arranged on one side, far away from the USB detection assembly, of the guide plate.

Preferably, the lifting module comprises a first driving device, a lifting seat, an eccentric wheel and a first transmission plate; the first driving device is arranged on one side of the lifting seat; the eccentric wheel is arranged in the lifting seat and is connected with the first driving device; the first transmission plate is arranged below the lifting seat; the punch is arranged below the first transmission plate.

Preferably, the USB detection punching assembly further comprises a USB conveying assembly; the USB conveying assembly comprises a USB conveying plate, a second driving device and a rotating disc; the USB conveying plate is arranged below the USB detection assembly; the rotating disc is arranged between the USB detection assembly and the USB punching assembly and is positioned above the conveying plate; the second driving device is arranged on one side of the rotating disc and connected with the rotating disc.

Preferably, the USB detection punching assembly further comprises an output assembly; the output assembly is arranged on one side, away from the USB detection assembly, of the USB punching assembly.

Preferably, the output assembly comprises an output plate and a clamping module; the output plate is arranged on one side of the output end of the USB punching component; the clamping module is arranged on one side of the output plate.

Preferably, the positioning assembly comprises a clamping jaw device and a second limiting plate; the clamping jaw device is arranged below one end of the guide plate; the second limiting plates are arranged on two sides above one end of the guide plate respectively, and are connected with the two clamping claw portions of the clamping claw device respectively.

Preferably, the driving assembly comprises a fourth driving device, a transmission module and a pushing piece; the fourth driving device is arranged on one side of the guide plate; the pushing piece is arranged at one end of the guide plate; the fourth driving device is connected with the pushing piece through the transmission module.

Preferably, the transmission module comprises a driving wheel, a driven wheel, a transmission belt and a transmission part; the driving wheel is arranged on one side, close to the fourth driving device, of the guide plate and is connected with the fourth driving device; the driven wheel is arranged at one end, far away from the fourth driving device, of the guide plate, and the driving wheel and the driven wheel are connected through the transmission belt; one end of the transmission piece is connected with the transmission belt, and the other end of the transmission piece is connected with the pushing piece.

Preferably, the transmission module further comprises a positioning plate; the positioning plate is arranged between the fourth driving device and the guide plate and is parallel to the guide plate; the bottom of the transmission part is connected with the positioning plate in a sliding manner.

Preferably, the bottom of the transmission part is provided with a connecting piece; a slide rail is arranged above the positioning plate; the connecting piece is connected with the sliding rail in a sliding mode.

According to the USB detection punching machine, the USB detection assembly, the USB punching assembly, the guide assembly, the positioning assembly and the driving assembly are arranged, so that the detection, punching and conveying work of a USB end can be efficiently completed, the industrial production efficiency is greatly improved, and the USB detection punching machine is suitable for industrial application.

Drawings

FIG. 1 is an overall view of a USB test punch according to the present invention;

FIG. 2 is an overall view of a USB test punch according to the present invention;

FIG. 3 is a top view of a USB test die cutter in accordance with the present invention;

FIG. 4 is a general schematic view of a portion of the structure of the USB test punch according to the present invention;

FIG. 5 is an enlarged view of A in FIG. 4;

FIG. 6 is a general schematic view of a portion of the structure of the USB test punch according to the present invention;

FIG. 7 is a top view of a portion of the structure of a USB test punch according to the present invention;

FIG. 8 is a general schematic view of a rotary plate in the USB test die cutter in accordance with the present invention;

FIG. 9 is a general schematic view of a USB detecting die cutter according to the present invention;

FIG. 10 is a general schematic view of a USB punch assembly of the USB test punch according to the present invention;

FIG. 11 is a cross-sectional view of a USB punch assembly in a USB test punch according to the present invention;

FIG. 12 is a general schematic view of a portion of the structure of the USB test punch according to the present invention;

fig. 13 is an overall schematic view of a part of the structure of the USB detection die cutter according to the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 and 2, a USB detecting and punching machine includes a USB detecting component 10, a USB punching component 20, a guiding component 30, a positioning component 40, and a driving component 50; the punching component is arranged on one side of the USB detection component 10; the USB punching assembly 20 includes a lifting module and a punch 201; the lifting module is arranged above the punch 201; the guide component 30 is arranged on one side of the USB punching component 20 away from the USB detection component 10; the guide assembly 30 includes a guide plate 301; a guide groove 302 is arranged along the length direction of the guide plate 301; the positioning assembly 40 is arranged at one end of the guide plate 301; the driving assembly 50 is disposed on a side of the guide plate 301 away from the USB detecting assembly 10.

During operation, the USB detection component 10 detects the semi-finished product USB and detects the surface flatness of the SMT terminal and the alignment degree of the DIP terminal in the semi-finished product USB; after the detection is finished, the USB connector is conveyed to the USB punching component 20 for punching, and the USB connecting part 202 is cut off by using a lifting module and a punch 201 in the USB punching component 20; specifically, the lifting module drives the punch 201 to descend, and cuts the USB connection portion 202. More specifically, the USB detection assembly 10 is a CCD detection assembly; after the punching is finished, conveying the finished USB into the positioning assembly 40, and positioning the USB through the positioning assembly 40 so as to align the USB with the guide groove 302; at this time, the driving assembly 50 operates to drive the USB tip to advance along the direction of the guide slot 302, so that the USB is advanced from one end (input end) of the guide slot 302 to the other end (output end) of the guide slot 302, so as to facilitate the subsequent USB packaging process.

In one embodiment, the lifting module comprises a first driving device 203, a lifting base 204, an eccentric 205 and a first driving plate 206; the first driving device 203 is arranged at one side of the lifting seat 204; the eccentric wheel 205 is arranged in the lifting seat 204 and is connected with the first driving device 203; the first transmission plate 206 is arranged below the lifting seat 204; the punch 201 is provided below the first transmission plate 206.

During operation, the first driving device 203 drives the eccentric wheel 205 to rotate, and the eccentric wheel 205 drives the lifting seat 204 to lift up and down, so as to drive the first driving plate 206 to lift up and down, further drive the punch 201 to lift up and down, and further complete the punching operation of the USB. Specifically, the first driving device 203 is a motor.

In a specific embodiment, the lift module further comprises a platen 207; the platen 207 is provided below the first transfer plate 206; the punch 201 is provided between the pressing plate 207 and the first transmission plate 206; the pressing plate 207 is provided with a punch through hole through which the punch 201 passes.

During operation, the first transmission plate 206 descends to drive the first transmission plate 206 to descend, and further drive the pressing plate 207 to descend, so that the pressing plate 207 presses the USB, and at the moment, the punch 201 descends and penetrates through the punch through hole to perform punching operation on the USB located below the pressing plate 207. More specifically, the pressing plate 207 is connected to the first driving plate 206 through a telescopic rod.

In a particular embodiment, the USB die cut assembly further includes a holder 208; the fixed seat 208 is arranged below the pressure plate 207, and the bottom of the fixed seat 208 is connected with an external fixing mechanism; the lifting base 204 is connected with the fixed base 208 through a guide post.

In a specific embodiment, a first limiting plate 209 is further disposed between the lifting seat 204 and the pressing plate 207; the first limiting plate 209 is connected with the fixed seat 208; the middle part of the first limiting plate 209 is provided with a limiting groove 210 for the USB to pass through. More specifically, the fixed seat 208 and the first limiting plate 209 are provided with a discharge hole 211 corresponding to the punch 201, and a material collecting box for collecting punching waste is arranged below the discharge hole 211; in operation, the pressing plate 207 is pressed down to press the USB main body part 212, at this time, the punch 201 penetrates out of the through hole of the punch 201 and performs a punching process on the USB connecting part 202, and after the punching process is completed, the USB connecting part 202 is separated from the USB main body part 212, falls from the discharge hole 211 under the action of gravity and finally falls into the collection box.

In a specific embodiment, the USB detection die cutter further comprises a USB transport assembly 60; the USB transport assembly 60 includes a USB transport plate 601, a second driving device 602, and a rotating disc 603; the USB conveying plate 601 is arranged below the USB detection component 10; the rotating disc 603 is arranged between the USB detection assembly 10 and the USB punching assembly 20 and is positioned above the conveying plate; the second driving device 602 is disposed at one side of the rotating disk 603 and is connected to the rotating disk 603.

When the USB conveying device works, the USB detection assembly 10 carries out a detection procedure on the USB in the input end of the conveying plate; the output end of the USB conveying plate 601 is aligned with the punching end of the USB punching assembly 20, so as to convey the USB to the USB punching assembly 20 to complete the punching process, in this embodiment, the conveying end of the USB conveying plate 601 is aligned with the limiting groove 210 in the first limiting plate 209, so as to convey the USB to the limiting groove 210; in addition, during the conveying process, the second driving device 602 drives the rotating disc 603 to rotate, and the rotating disc 603 abuts against the USB in the conveying plate, so that the rotating disc 603 drives the USB to slide in the USB conveying plate 601 during the rotating process and convey along the direction of the USB punching assembly 20. More specifically, the second driving device 602 is a motor.

In a specific embodiment, a plurality of protrusions 604 are equidistantly formed on the outer circumference of the rotating disc 603; the USB transfer board 601 is provided with a transfer slot 605 for USB to pass through. During operation, the USB is conveyed to the conveying groove 605 in the USB conveying plate 601 under the action of the external conveying mechanism, the second driving device 602 drives the rotating disc 603 to rotate, and the protruding portion 604 on the periphery of the rotating disc 603 abuts against the USB in the conveying groove 605, so that the rotating disc 603 drives the USB to slide in the conveying groove 605 in the rotating process, and finally conveyed to the USB die-cutting assembly 20; more specifically, the output end of the conveying groove 605 is communicated with the limiting groove 210 in the first limiting plate 209, so that the USB enters the limiting groove 210 from the conveying groove 605 to perform the punching process; more specifically, a notch 606 is formed on the connecting portion 202 of the USB corresponding to the protruding portion 604 of the rotating disc 603, and during the transportation process, the protruding portion 604 is inserted into the notch 606, so as to drive the USB to slide along the transportation slot 605 during the rotation process.

In a specific embodiment, the USB detection die-cutter further comprises an output assembly 70; the output assembly 70 is disposed on a side of the USB cutting assembly 20 away from the USB detecting assembly 10.

In operation, the output assembly 70 delivers the USB that has been punched and meets the detection standard to the next process, and delivers the USB that has not met the detection standard to the waste bin.

In one embodiment, the output assembly 70 includes an output board 701 and a gripping module 702; the output plate 701 is arranged on one side of the output end of the USB punching component 20; the clamping module 702 is disposed on one side of the output board 701. Specifically, the output plate 701 is provided with an output slot, and in this embodiment, the output slot is aligned with the limit slot 210 of the first limit plate 209, so that the punched USB is conveyed from the limit slot 210 to the output slot; when the clamping module 702 works, the clamping module 702 clamps the USB in the output slot, and judges according to the detection result of the USB detection assembly 10, and if the detection result is qualified, the USB is conveyed to the next process; if the detection is not qualified, the waste bin is conveyed to a waste bin.

In one embodiment, the gripping module 702 comprises a rotating device 703, a third driving device 704 and a suction nozzle 705; the rotating device 703 is arranged at one side of the output plate 701; the third driving device 704 is arranged on one side above the rotating device 703; the suction nozzle 705 is provided below the third driving device 704. When the device works, the rotating device 703 rotates, the third driving device 704 rotates to the position above the output board 701, the third driving device 704 works to drive the suction nozzle 705 to descend, and further suck the punched USB through the suction nozzle 705, and at the moment, the central processing system instructs the suction nozzle 705 of the rotating device 703 to rotate to the next process or the position above the waste bin according to the detection result of the USB detection assembly 10. More specifically, the third driving device 704 is a cylinder.

In a particular embodiment, the positioning assembly 40 comprises a jaw arrangement 401 and a second limit plate 402; the clamping jaw device 401 is arranged below one end of the guide plate 301; the number of the second limiting plates 402 is two, the two second limiting plates 402 are respectively disposed on two sides above one end of the guide plate 301, and the two second limiting plates 402 are respectively connected with the two clamping jaw portions of the clamping jaw device 401.

During operation, the suction nozzle 705 in the clamping module 702 conveys the punched USB to a position between two second limiting plates 402 through the rotating die assembly, at the moment, the clamping jaw device 401 works, two clamping parts in the clamping jaw device 401 are close to each other, and then the two second limiting plates 402 are driven to close to each other, and then the two second limiting plates 402 clamp the USB end, when the two second limiting plates 402 clamp the USB end, the USB end is aligned with the guide groove 302 at the moment, and then the driving assembly 50 drives the USB end to move forward along the direction of the guide groove 302.

In one particular embodiment, the jaw apparatus 401 is a jaw cylinder.

In a specific embodiment, the driving assembly 50 includes a fourth driving device 501, a transmission module 502 and a pushing member 503; the fourth driving device 501 is arranged on one side of the guide plate 301; the pushing member 503 is provided at one end of the guide plate 301; the fourth driving device 501 is connected with the pushing member 503 through a transmission module 502. In operation, when USB is transported to one end of the guiding plate 301, the positioning assembly 40 is aligned and positioned to align with the notch of the guiding groove 302, at this time, the fourth driving device 501 drives the pushing member 503 to move forward through the transmission module 502, the USB tip is pushed away from the positioning assembly 40 by the pushing member 503, and moves from one end of the guiding groove 302 to the other end (output end) along the direction of the guiding groove 302, so as to facilitate subsequent packaging operation.

In one embodiment, the transmission module 502 includes a driving wheel 504, a driven wheel 505, a transmission belt 506 and a transmission member 507; the driving wheel 504 is arranged on one side of the guide plate 301 close to the fourth driving device 501, and the driving wheel 504 is connected with the fourth driving device 501; the driven wheel 505 is arranged at one end of the guide plate 301 far away from the fourth driving device 501, and the driving wheel 504 and the driven wheel 505 are connected through a transmission belt 506; the transmission member 507 is connected at one end to the belt 506 and at the other end to the pusher member 503.

In operation, the fourth driving device 501 drives the driving wheel 504 to rotate, and further drives the driven wheel 505 to rotate through the transmission belt 506, at this time, the transmission member 507 moves along with the transmission belt 506, and further the transmission member 507 drives the pushing member 503 to move, and further the pushing member 503 pushes the USB end to disengage from the positioning component 40, and move from one end of the guiding groove 302 to the other end; more specifically, the belt 506 is parallel to the guide plate 301.

In one embodiment, the transmission module 502 further includes a positioning plate 508; the positioning plate 508 is disposed between the fourth driving device 501 and the guiding plate 301, and the positioning plate 508 is parallel to the guiding plate 301; the bottom of the transmission member 507 is slidably connected to the positioning plate 508.

During operation, the driving belt 506 drives the driving plate to directionally slide along the direction of the positioning plate 508, so that the pushing member 503 can directionally push along the direction of the guiding groove 302, and the reasonability and stability of the structure are improved.

In one embodiment, the bottom of the transmission member 507 is provided with a connecting member 509; a slide rail 510 is arranged above the positioning plate 508; the connecting member 509 is slidably connected to the slide rail 510.

In one specific embodiment, the fourth driving device 501 is a motor.

According to the USB detection punching machine, the USB detection component 10, the USB punching component 20, the guide component 30, the positioning component 40 and the driving component 50 are arranged, so that the detection, punching and conveying of a USB end can be efficiently completed, the industrial production efficiency is greatly improved, and the USB detection punching machine is suitable for industrial application.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.