CN219791936U - SFP terminal detects and decides baling press - Google Patents

Abstract

The SFP terminal detection cutting packer comprises a machine table, and further comprises: the conveying mechanism comprises a conveying plate which is arranged along the horizontal direction, and a conveying channel for accommodating the terminal material belt is arranged on the top surface of the conveying plate; the CCD detection device is arranged at the side of the conveying mechanism through an upright post, and a lens of the CCD detection device is suspended above the conveying channel; the removing mechanism is arranged at the downstream of the CCD detection device along the conveying direction and is used for cutting off the terminals which are positioned above the terminal material belt and detected as defective products; the cutting mechanism is used for cutting the connecting rib between the terminal and the material belt; and the packing mechanism is positioned on the downstream side of the cutting mechanism along the conveying direction and is provided with a material receiving channel and a material receiving disc. The terminal processing device can automatically process the terminal, reduces the artificial participation degree, improves the production efficiency, and reduces the labor intensity of operators.

Description

SFP terminal detects and decides baling press

Technical Field

The utility model relates to the technical field of connector production equipment, in particular to an SFP terminal detection cutting packer.

Background

With the continuous development of the network communication industry, electronic products and communication products are more and more abundant, and in the development process, the requirements of high-end connectors are also more and more increased. The SFP connector belongs to a connector in an optical fiber network connector device, and a terminal thereof is usually finished by stamping in the process of machining, as shown in fig. 1, a terminal 600 is formed into a material belt 601 by stamping, specifically, the terminal 600 is connected with a side 604 of the material belt 601 through a connecting rib 602, so as to form the material belt 601, and simultaneously, stirring holes 603 with equal interval are stamped on the side 604 of the material belt, so that the conveying can be performed.

After the stamping of the tape 601, it is necessary to detect the terminal 600 on the tape 601, and to detect whether the whole of the terminal 600 on the tape 601 is complete or broken, and at the same time, it is necessary to cut the secondary connecting rib 602a on the terminal 600, as shown in fig. 2, so that the terminal 600 is connected to the tape 601 only by the primary connecting rib 602 b.

However, since the terminal 600 and the tape 601 have a small size after the press working, the internal structure is complicated and the number of the secondary connection ribs 602a is large, the efficiency of the operation by the operator is low and the labor intensity of the operator is high.

There is therefore a need for an apparatus that can replace manual inspection, cut and pack secondary ties.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, thereby providing an SFP terminal detection cutting packer.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a SFP terminal detects and decides baling press, includes a board, its characterized in that, it has to arrange on the board top surface:

the conveying mechanism comprises a conveying plate which is arranged along the horizontal direction, a conveying channel which is arranged on the top surface of the conveying plate and used for accommodating the terminal material belt is arranged on the conveying mechanism, and a driving device which is arranged at the end part of the conveying mechanism and used for driving the terminal material belt to move along the length direction of the terminal material belt in the conveying channel is assembled at the end part of the conveying mechanism;

the CCD detection device is arranged at the side of the conveying mechanism through an upright post, and a lens of the CCD detection device is suspended above the conveying channel;

the removing mechanism is arranged at the downstream of the CCD detection device along the conveying direction and comprises a power device and a removing cutter positioned above the conveying channel, wherein the power device is in transmission connection with the removing cutter and drives the removing cutter to reciprocate along the vertical direction so as to cut off a terminal positioned on the terminal material belt;

the cutting mechanism is used for cutting the connecting rib between the terminal and the material belt, is arranged on the downstream side of the connecting rib along the conveying direction of the conveying mechanism, comprises a cutting table with a cutting channel and a cutting knife positioned above the cutting table, and the cutting channel corresponds to the conveying channel and is used for receiving the terminal material belt conveyed by the conveying channel;

the packing mechanism is located along the conveying direction the packing mechanism is located the mechanism downstream side is decided, and it has receipts material passageway and receipts charging tray, receive the material passageway with decide passageway intercommunication each other, it is in to receive the charging tray through the frame setting receive the material passageway discharge end to rotate by motor drive, be used for retrieving the terminal material area that decides through deciding the mechanism.

Further, the driving device comprises a driving motor fixedly arranged on the conveying plate, the driving motor is rotationally connected with a stirring wheel positioned above the conveying channel, the stirring wheel stretches across two sides of the conveying channel, and a plurality of equidistant fluctuation teeth are respectively arranged on the positions, corresponding to the two sides of the conveying channel, of the stirring wheel along the circumferential direction and used for stirring the terminal material belt for conveying the conveying channel.

Further, the removing cutter comprises

The lower side of the tool apron is provided with a guide rod with the axis in the vertical direction, the guide rod is connected onto the conveying plate in a sliding manner along the vertical direction, and the removing cutter is fixedly arranged on the tool apron and protrudes out of the lower surface of the tool apron, which corresponds to the conveying channel;

the linkage end is fixedly arranged on the upper side surface of the tool apron and provided with a linkage groove;

the power device comprises a removing air cylinder fixedly arranged beside the conveying plate, and a piston rod of the removing air cylinder stretches back and forth along the vertical direction;

the middle plate is arranged side by side with the tool apron and is positioned between the tool apron and the removing cylinder;

and one end of the pushing rod is pivoted on the piston rod of the removing cylinder, the middle part of the pushing rod is pivoted on the top of the middle plate, and the other end of the pushing rod extends towards the linkage end and penetrates into the linkage groove.

Further, the linkage groove is provided with an opening facing the power device, and the inner wall corresponding to the opening is arc-shaped; one end part of the pushing rod, which penetrates into the linkage groove, is arranged in an arc shape, and forms a revolute pair with the linkage groove.

Further, the upper side wall of the opening is inclined upwards, and the lower side wall of the opening is inclined downwards, so that the horn-shaped opening is formed.

Further, the cutting table comprises

The base is fixedly arranged on the top surface of the machine table, and the cutting channel is arranged on the upper side surface of the base;

the upper cover is covered on the upper surface of the base and seals the upper part of the cutting channel, and a cutting hole for the cutting cutter to pass through for cutting the terminal connecting rib is also formed on the upper side surface of the upper cover;

the cutting mechanism further comprises a stamping device, wherein the stamping device is fixedly connected with the cutting cutter and used for driving the cutting cutter to reciprocate in the vertical direction in the cutting hole.

Further, the packaging mechanism further comprises an adhesive tape disc, the adhesive tape disc is arranged beside the material collecting disc through a frame, the axis of the adhesive tape disc is parallel to the axis of the material collecting disc, and the adhesive tape disc is used for providing adhesive tape for the material collecting disc.

Further, the conveying mechanism also comprises a jog feeding device for intermittently conveying the material belt, which comprises

The first sliding plate is connected onto the conveying plate in a sliding manner along the conveying direction and is positioned beside the conveying channel;

the first driving cylinder is fixedly arranged on the conveying plate and connected with the first sliding plate to drive the sliding plate to reciprocate along a straight line;

the vertical plate is fixedly arranged on the first sliding plate;

the second sliding plate is connected onto the vertical plate in a sliding manner along the vertical direction, and a poking rod corresponding to the terminal material belt is fixedly arranged at the lower end of the second sliding plate;

and the second driving air cylinder is fixedly arranged at the top of the vertical plate and connected with the second sliding plate and used for driving the second sliding plate to reciprocate along the vertical direction.

Further, still be provided with feed mechanism on the board top surface for to the delivery channel provides the terminal material area, it is including:

the discharging disc is arranged on the upstream side of the conveying channel along the conveying direction and is used for winding the terminal material belt on the discharging disc;

the discharging channel is positioned between the discharging disc and the conveying mechanism, and the outlet end of the discharging channel is correspondingly communicated with the inlet end of the conveying channel.

Compared with the prior art, the utility model has the beneficial effects that:

according to the SFP terminal detection cutting packer provided by the embodiment of the utility model, the CCD detection device, the removing mechanism, the cutting mechanism and the packing mechanism are arranged at the side of the conveying channel, so that the punched material belt can be detected, cut and cut, the connecting ribs are processed, the processed material belt is coiled and packed, the participation degree of personnel is reduced in the whole terminal processing process, the terminal processing production efficiency is improved, and the labor intensity of operators is reduced.

The utility model is further described below with reference to the drawings and embodiments of the specification.

Drawings

Fig. 1 is a schematic view of a structure of a material belt according to the present utility model.

Fig. 2 is a schematic view of the structure of the material belt after cutting the connecting ribs according to the present utility model.

Fig. 3 is a schematic structural view of the present utility model.

Fig. 4 is a schematic diagram of the structure of the conveying mechanism, the CCD detecting device and the removing mechanism in the present utility model.

Fig. 5 is a schematic structural view of the conveying mechanism of the present utility model.

Fig. 6 is a partial enlarged view at a in fig. 5.

Fig. 7 is a partial enlarged view at B in fig. 5.

Fig. 8 is a schematic view of the structure of the removing mechanism and the conveying mechanism in the present utility model.

Fig. 9 is a schematic structural view of the removing mechanism in the present utility model.

Fig. 10 is a schematic structural view of the cutting mechanism in the present utility model.

FIG. 11 is a schematic view of the mechanism of the cutting table and cutting blade of the present utility model.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects solved by the utility model more clear, the utility model 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 for purposes of illustration only and are not intended to limit the scope of the utility model.

It should be noted that all directional indications (such as up, down, left, right, front, and rear are used in the embodiments of the present utility model) are merely for explaining the relative positional relationship, movement conditions, and the like between the components in a certain specific posture (as shown in the drawings), and if the specific posture is changed, the directional indication is changed accordingly.

In addition, the descriptions of "first," "second," etc. in the embodiments of the present utility model are provided for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

The embodiment of the utility model provides an SFP terminal 500 detection cutting packer which is used for detecting, cutting and packing terminals 500 which are formed by stamping and are connected to a material belt 601, so that the participation degree of manpower is reduced in the whole production link, the production efficiency is improved, and the labor intensity of operators is reduced.

As shown in fig. 3-11, an SFP terminal 500 detection and cutting packer provided in the embodiment of the present utility model includes a machine stand 011, a conveying frame 100, a CCD detection device 200, a removing mechanism 300, a cutting mechanism 400, and a packing mechanism 500 are disposed on a top surface of the machine stand 011, wherein the conveying frame 100 is used for conveying a material belt 601, photographing the terminal 500 located above the material belt 601 by a CCD camera during conveying the material belt 601, analyzing the terminal 500 photograph collected by the CCD camera by a processor, if there is damage, after detecting that there is a defective terminal 500, the removing mechanism 300 cuts the defective terminal 500 above the material belt 601, the conveying frame 100 continuously conveys the terminal 500 detected as being qualified to the cutting mechanism 400, cuts a secondary connecting rib 602a connected between the terminal 500 and the material belt 601, makes the terminal 500 and the material belt 601 connected to each other only by a primary connecting rib 602b, and winds the cut material belt 601 into a roll for packing.

As shown in fig. 3-4, the conveying structure 100 comprises a conveying plate 101 fixedly arranged on the top surface of a machine table 011, a conveying channel 102 is formed on the top surface of the conveying plate 101, a material belt 601 is arranged in the conveying channel 102, a driving device 110 is arranged at one end of the conveying plate 101 so as to drive the material belt 601 to convey along the length direction of the material belt in the conveying channel 102, in the embodiment, the driving device 110 is arranged on the tail end of the conveying plate 101 along the conveying direction, wherein, as shown in fig. 5 and 7, the driving device 110 comprises a driving motor 111 fixed on the conveying plate 101, a stirring wheel 112 connected on the rotating shaft of the driving motor 111 spans both side surfaces of the conveying channel 102, and a plurality of stirring teeth 113 which are arranged at equal intervals are respectively arranged at positions corresponding to both sides of the conveying channel 102 along the circumferential direction, so that when the stirring wheel 112 is driven by the driving motor 111 to rotate, the stirring teeth 113 are meshed with the stirring holes so as to drive the material belt 601 in the conveying channel 102 along the conveying direction.

The CCD detecting device 200 and the removing mechanism 300 are sequentially arranged along the conveying direction of the conveying channel 102, wherein the CCD detecting device 200 is located at the side of the conveying plate 101 and fixedly installed on the top surface of the machine stand 011, and the lens 201 of the CCD detecting device is located right above the conveying channel 102 through the upright posts, so that the terminal 500 located in the conveying channel 102 can be photographed conveniently to collect image data of the terminal 500, and the image data is transmitted to the processor for detection and analysis.

The removing mechanism 300 is located at the downstream side of the CCD detecting device 200, and comprises a power unit 310 and a removing cutter 320 located above the conveying channel 102, wherein the removing cutter 320 is in transmission connection with the power unit 310, and is driven by the power unit 310 to reciprocate in the up-down direction, so that products which are located in the conveying channel 102 and are detected to be unqualified can be cut off on the material belt 601, specifically, all connecting ribs 602 which connect the terminal 500 with the material belt 601 are cut off, so that the terminal 500 is cut off on the material belt 601, and it is understood that the shape of a cutter head of the removing cutter 320 corresponds to the position of the connecting ribs 602, so that the connecting ribs 602 between the terminal 500 and the material belt 601 can be cut off when the removing cutter is driven by the power unit 310 to move downwards, so that the terminal 500 can be cut off on the material belt 601. Specifically, as shown in fig. 8-9, a plurality of guide rods 322 are fixedly installed at the bottom of the tool holder 321 and are slidably connected to the conveying plate 101 along the vertical direction, as shown in fig. 8, the tool holder 321 is located above the conveying channel 102, the removing cutter 320 is fixedly installed on the lower side surface of the tool holder 321, the upper side surface of the tool holder 321 is fixedly connected to a linkage end 323, and a linkage groove 324 is formed in the linkage end; as shown in fig. 9, the power unit 310 includes a removing cylinder 311 fixedly installed at the side of the conveying plate 101, and in the present utility model, the piston end thereof extends upward, and in other embodiments, the piston end may also extend downward, and the piston rod is rotatably connected to one end of a push rod 313, and the middle position of the push rod 313 is rotatably connected to a middle plate 312 located between the tool holder 321 and the removing cylinder 311, and the other end thereof extends into the linkage groove 324 and forms a rotating pair therewith. The pushing rod 313 forms a lever structure, when the removing cylinder 311 pulls one end of the pushing rod 313 downwards, the other end of the removing cylinder 311 drives the knife holder 321 to move upwards, and when the removing cylinder 311 pushes one end of the pushing rod 313 upwards, the other end of the pushing rod 313 pushes the knife holder 321 downwards, so that when the knife holder 321 moves downwards, unqualified electrons are cut off on the material belt 601.

In the use process, the removing mechanism 300 has a simple structure, and the action is accurate and reliable, so that the terminal 500 can be quickly cut off on the material belt 601.

In the present embodiment, a specific example is given of the transmission relationship between the interlocking groove 324 and the interlocking bar 313, as shown in fig. 9, the opening 325 of the interlocking groove 324 faces the direction of the interlocking bar 313, so that the interlocking bar 313 can extend into the interlocking groove 324 through the opening 325, the inside of the interlocking groove 324 faces the inside of the opening 325 to be provided with an arc shape, and at the same time, the end of the interlocking groove 324 extending into the interlocking groove 324 is also provided with an arc shape, so that it can constitute a revolute pair within the interlocking groove 324.

As shown in fig. 9, in order to enable the end of the push rod 313 extending into the linkage groove 324 to have enough movement space in the process of swinging up and down, and to smoothly drive the tool holder 321 to move up and down, the shape of the opening 325 is configured to be horn-shaped, i.e. the upper side wall of the opening 325 is inclined upward, and the lower side wall is inclined downward, so that enough movement space is provided for the push rod 313, and the tool holder 321 and the removal cutter 320 can be driven to reciprocate up and down.

In this embodiment, in the process of conveying the material tape 601 along the conveying path 102, the CCD detecting device 200 and the removing mechanism 300 detect the terminal 500 on the material tape 601, and cut off the unqualified terminal 500 on the material tape 601, the qualified terminal 500 is continuously conveyed by the driving device 110 and conveyed to the cutting mechanism 400, and the secondary connecting rib 602a between the terminal 500 and the material tape 601 is cut off by the punching of the cutting mechanism 400, so that only the primary connecting rib 602b is connected between the terminal 500 and the material tape 601. As shown in fig. 3 and 10-11, the cutting mechanism 400 is located on the downstream side of the conveying frame 100 along the conveying direction, and includes a cutting table 410 provided with cutting channels 411 corresponding to and communicating with the conveying channels 102, so that the sub-conveying channels 102 of the material strip 601 can be conveyed into the cutting channels 411, and the terminals 500 can be cut in the cutting channels 411, and a cutting knife 420 for cutting the secondary connecting rib 602a between the terminals 500 and the material strip 601 is disposed above the cutting table 410. As shown in fig. 10 to 11, the cutting table 410 has a base 412 and an upper cover 413, wherein the conveying path 102 is provided on the upper surface of the base 412, the upper cover 413 is covered on the upper surface of the base 412, and the upper side of the cutting path 411 is closed, so that the material tape 601 does not jump during the conveying process in the cutting path 411, and at the same time, the upper cover 413 is provided with a cutting hole 414 through which the cutting blade 420 is provided, the cutting mechanism 400 further includes a punching device 401 for driving the cutting blade 420 to reciprocate in the up-down direction, thereby completing the cutting operation, the lower side of the punching device 401 is fixedly connected with the cutting blade 420, and the lower side of the punching device is capable of moving up-down along the inside of the cutting hole 414, thereby cutting the secondary connecting rib 602a between the terminal 500 and the material tape 601, and it is understood that the shape of the cutter head of the cutting blade 420 corresponds to the position of the secondary connecting rib 602a, thereby enabling all the secondary connecting ribs 602a to be cut in one punching operation.

In the present embodiment, the packing mechanism 500 is provided at the downstream side of the cutting mechanism 400 for packing the material of the cut secondary connection rib 602a into a tray for easy transportation and storage. As shown in fig. 3, the automatic material receiving and packaging machine comprises a material receiving channel 501 and a material receiving tray 510 which are mutually corresponding and communicated with the cutting channel 411, wherein the material receiving tray 510 is provided with an outlet end of the material receiving channel 501 through a frame and is driven to rotate by a motor, and a material belt 601 passing through a cutting secondary connecting rib 602a is wound on the material receiving tray 510 and is driven to rotate by the motor, so that automatic material receiving and packaging work can be realized. In this embodiment, the receiving mechanism further includes a tape reel 511 for providing the tape to the receiving tray 510, specifically, as shown in fig. 3, the tape reel 511 is mounted on a side of the receiving tray 510 through a frame, and an axis of the tape reel is parallel to an axis of the receiving tray 510, so that the tape reel can have the same rotation direction. In the process of receiving the material, the receiving tray 510 winds the material belt 601 thereon and simultaneously winds the adhesive tape together, so that the adhesive tape is adhered to the material belt 601, and the terminal 500 on the material belt 601 is fixed, thereby ensuring the stability of the terminal 500 on the material belt 601.

In this embodiment, as shown in fig. 3, a feeding mechanism 700 for providing the material belt 601 to the conveying frame 100 is further disposed above the machine stand 011, which includes a feeding tray 701 disposed on an upstream side of the conveying frame 100 through a machine stand, it is understood that the terminal 500 formed by punching and the material belt 601 form the feeding tray 701, and after the material belt 601 is wound from the feeding tray 701, the material belt is conveyed into the conveying channel 102 through the feeding channel 702 to complete the automatic feeding operation.

In this embodiment, for convenience of maintenance and debugging, a jog feeding device 120 is further disposed on the conveying frame 100, so as to complete intermittent and short-distance conveying of the material belt 601 located in the conveying channel 102, so as to cooperate with maintenance and debugging. Specifically, as shown in fig. 5-6, the inching feeding device 120 includes a first sliding plate 121 slidingly connected to the upper portion of the conveying plate 101 along the conveying direction, and driven by a driving cylinder of the earth fixedly mounted on the conveying plate 101 to reciprocate along the sliding pair, a vertical plate 123 vertically disposed is fixedly mounted on the first sliding plate 121, meanwhile, a second sliding plate 124 is slidingly connected to the vertical plate 123 along the vertical direction, a second driving cylinder 126 for driving the second sliding plate 124 to reciprocate along the up-down direction is fixedly mounted at the top end of the vertical plate 123, and a toggle rod 125 is connected to the lower end of the second sliding plate 124, and is located on the side edge of the material belt 601 in forward projection towards the lower direction and corresponds to the toggle hole on the material belt 601.

In the use process, when debugging or overhauling is needed, the toggle plate at the lower end of the second sliding plate 124 is driven by the first driving cylinder 122 and the second driving cylinder 126 to reciprocate on two shafts along the up-down direction and the conveying direction, so that the material belt 601 positioned in the conveying channel 102 can be conveyed for a short distance and intermittently to be matched with overhauling or debugging.

The working process of the SFP terminal 500 detection cutting packer provided by the embodiment of the utility model is as follows:

the punched terminal 500 and the tape 601 are coiled into a feeding tray 701, and are arranged on the upstream side of the conveying frame 100 through a rack, the tape 601 is driven by a driving device 110 positioned at the tail end of the conveying plate 101 to be conveyed along the conveying channel 102, the tape is sequentially conveyed through a CCD detection device 200 and a removing mechanism 300 in the conveying process, the removing mechanism 300 cuts off the terminal 500 which is detected as being unqualified through the CCD detection device 200 above the tape 601, the detected terminal 500 is conveyed towards a cutting mechanism 400 through the driving device 110, the tape 601 passes through the cutting channel 411, a cutting cutter 420 is driven by the punching device 401 to move in the up-down direction inside a cutting hole 414, thereby cutting off a secondary connecting rib 602a between the terminal 500 and the tape 601, only a primary connecting rib 602b is reserved for conveying the terminal 500 towards the packing mechanism 500, and coiling the terminal onto the receiving tray 510, and meanwhile, the tape 511 is provided to the receiving tray 510 when the tape 601 is coiled onto the receiving tray 510, and the tape 511 is coiled onto the terminal 500 together, so that the tape 601 is stable. In the process of overhauling or debugging, the conveying of the material belt 601 in the conveying channel 102 is completed by the inching feeding device 120, so that the material belt 601 can move in the conveying channel 102 for a short distance and intermittently, the equipment is conveniently debugged, and the condition that the material belt 601 is wasted due to continuous feeding is avoided.

Various other corresponding changes and modifications will occur to those skilled in the art from the disclosure herein, and all such changes and modifications are intended to be included within the scope of the present utility model.

Claims (9)

1. The utility model provides a SFP terminal detects and decides baling press, includes a board, its characterized in that, it has to arrange on the board top surface:

the conveying mechanism comprises a conveying plate which is arranged along the horizontal direction, a conveying channel which is arranged on the top surface of the conveying plate and used for accommodating the terminal material belt is arranged on the conveying mechanism, and a driving device which is arranged at the end part of the conveying mechanism and used for driving the terminal material belt to move along the length direction of the terminal material belt in the conveying channel is assembled at the end part of the conveying mechanism;

the CCD detection device is arranged at the side of the conveying mechanism through an upright post, and a lens of the CCD detection device is suspended above the conveying channel;

the removing mechanism is arranged at the downstream of the CCD detection device along the conveying direction and comprises a power device and a removing cutter positioned above the conveying channel, wherein the power device is in transmission connection with the removing cutter and drives the removing cutter to reciprocate along the vertical direction so as to cut off a terminal positioned on the terminal material belt;

the cutting mechanism is used for cutting the connecting rib between the terminal and the material belt, is arranged on the downstream side of the connecting rib along the conveying direction of the conveying mechanism, comprises a cutting table with a cutting channel and a cutting knife positioned above the cutting table, and the cutting channel corresponds to the conveying channel and is used for receiving the terminal material belt conveyed by the conveying channel;

the packing mechanism is located along the conveying direction the packing mechanism is located the mechanism downstream side is decided, and it has receipts material passageway and receipts charging tray, receive the material passageway with decide passageway intercommunication each other, receive the charging tray through the frame setting receive the charging tray discharge end to rotate by motor drive, be used for retrieving the terminal material area that decides through deciding the mechanism.

2. The SFP terminal inspection and cutting packer according to claim 1, wherein the driving device comprises a driving motor fixedly installed on the conveying plate, the driving motor is rotationally connected with a poking wheel located above the conveying channel, the poking wheel spans across two sides of the conveying channel, and a plurality of poking teeth with equal interval are arranged on positions corresponding to two sides of the conveying channel along the circumferential direction respectively, so as to poke the terminal material belt to be conveyed in the conveying channel.

3. The SFP terminal inspection cut baler of claim 1, wherein said removal knife comprises

The lower side of the tool apron is provided with a guide rod with the axis in the vertical direction, the guide rod is connected onto the conveying plate in a sliding manner along the vertical direction, and the removing cutter is fixedly arranged on the tool apron and protrudes out of the lower surface of the tool apron, which corresponds to the conveying channel;

the linkage end is fixedly arranged on the upper side surface of the tool apron and provided with a linkage groove;

the power device comprises a removing air cylinder fixedly arranged beside the conveying plate, and a piston rod of the removing air cylinder stretches back and forth along the vertical direction;

the middle plate is arranged side by side with the tool apron and is positioned between the tool apron and the removing cylinder;

and one end of the pushing rod is pivoted on the piston rod of the removing cylinder, the middle part of the pushing rod is pivoted on the top of the middle plate, and the other end of the pushing rod extends towards the linkage end and penetrates into the linkage groove.

4. A SFP terminal inspection cut baler according to claim 3, wherein said linkage groove has an opening facing said power means and an inner wall corresponding to the opening is arcuate; one end part of the pushing rod, which penetrates into the linkage groove, is arranged in an arc shape, and forms a revolute pair with the linkage groove.

5. The SFP terminal inspection cut baler of claim 4, wherein the upper side wall of the opening is upwardly inclined and the lower side wall is downwardly inclined to form a trumpet shape.

6. The SFP terminal inspection cut baler of claim 1, wherein said cut table comprises

The base is fixedly arranged on the top surface of the machine table, and the cutting channel is arranged on the upper side surface of the base;

the upper cover is covered on the upper surface of the base and seals the upper part of the cutting channel, and a cutting hole for the cutting cutter to pass through for cutting the terminal connecting rib is also formed on the upper side surface of the upper cover;

the cutting mechanism further comprises a stamping device, wherein the stamping device is fixedly connected with the cutting cutter and used for driving the cutting cutter to reciprocate in the vertical direction in the cutting hole.

7. The SFP terminal inspection cutting baler of claim 1, further comprising a tape reel disposed by the frame beside the take-up reel and having an axis parallel to the take-up reel axis, the tape reel being configured to provide tape to the take-up reel.

8. The SFP terminal inspection cut baler of claim 1, wherein the conveyor further comprises a jog feed for intermittently feeding the web comprising

The first sliding plate is connected onto the conveying plate in a sliding manner along the conveying direction and is positioned beside the conveying channel;

the first driving cylinder is fixedly arranged on the conveying plate and connected with the first sliding plate to drive the sliding plate to reciprocate along a straight line;

the vertical plate is fixedly arranged on the first sliding plate;

the second sliding plate is connected onto the vertical plate in a sliding manner along the vertical direction, and a poking rod corresponding to the terminal material belt is fixedly arranged at the lower end of the second sliding plate;

and the second driving air cylinder is fixedly arranged at the top of the vertical plate and connected with the second sliding plate and used for driving the second sliding plate to reciprocate along the vertical direction.

9. The SFP terminal inspection cutting baler of claim 1, further comprising a discharge mechanism disposed on the top surface of the machine for providing a terminal strip to the conveyor channel, comprising:

the discharging disc is arranged on the upstream side of the conveying channel along the conveying direction and is used for winding the terminal material belt on the discharging disc;

the discharging channel is positioned between the discharging disc and the conveying mechanism, and the outlet end of the discharging channel is correspondingly communicated with the inlet end of the conveying channel.