阅读说明：本技术 一种二极管加工输送设备 (Diode processing conveying equipment ) 是由 于宏明 于 2021-07-24 设计创作，主要内容包括：一种二极管加工输送设备,包括：主体,主体中部嵌合设置有输送带,主体中部位移输送带上方嵌合设置有矫正轴,主体中部两侧通过连接槽和偏移槽连接矫正轴,矫正轴由两个分别与旋转齿环和偏移齿环嵌合设置一起为一组,嵌合偏移齿环的矫正轴通过套接槽连接有抵环。通过该装置设置的矫正轴能够在二极管通过的时候因为两个二极管相反方向的中心旋转来摩擦带动二极管进行偏斜移动矫正,使得二极管在输送的过程中能够自行对其进行偏斜矫正,让其能够整体平行排列输送到其他的加工设备中而不会影响其他的加工步骤。(A diode processing conveyor apparatus comprising: the main part, main part middle part gomphosis are provided with the conveyer belt, and main part middle part displacement conveyer belt top gomphosis is provided with the correction axle, and main part middle part both sides are passed through spread groove and skew groove and are connected the correction axle, correct the axle by two respectively with rotatory ring gear and skew ring gear gomphosis setting be a set of together, the correction axle of gomphosis skew ring gear has to the ring through cup jointing the groove connection. The correcting shaft arranged through the device can drive the diodes to be subjected to deflection movement correction by friction due to the fact that the centers of the two diodes in opposite directions rotate when the diodes pass through, so that the diodes can be subjected to deflection correction automatically in the conveying process, and can be conveyed to other processing equipment in an integral parallel arrangement mode without influencing other processing steps.)

1. A diode processing conveyor apparatus comprising: the device comprises a main body (1), wherein the middle part of the main body (1) is connected with a conveyer belt (2) through motor transmission, and a correcting shaft (3) is embedded above the middle displacement conveyer belt (2) of the main body (1); the main part (1) middle part both sides are connected with two correction axle (3) respectively through connecting groove (101) and skew groove (102), correction axle (3) set up to run through in connecting groove (101) and skew groove (102) recess together for a set of with rotatory ring gear (301) and skew ring gear (302) gomphosis respectively by two, gomphosis sets up correction axle (3) in skew ring gear (302) and is connected with through cup jointing groove (304) and supports ring (303).

2. The diode processing conveyor apparatus of claim 1, wherein: the main body (1) comprises a connecting groove (101) and a deviation groove (102), the connecting groove (101) and the deviation groove (102) are two grooves which are mutually attached and connected with a group of two correction shafts (3), and the depth of the groove of the deviation groove (102) is deeper than that of the connecting groove (101).

3. The diode processing conveyor apparatus of claim 1, wherein: the offset groove (102) comprises a movable groove (1021), and the movable groove (1021) is a rectangular groove extending from the middle of the groove of the offset groove (102) to the periphery.

4. The diode processing and conveying equipment as claimed in claim 1, characterized in that the conveying belt (2) comprises a transmission tooth trace (201) and a limiting groove (202), the transmission tooth trace (201) is a tooth trace meshed with the two sides of the conveying belt (2) and the rotating toothed ring (301), and the limiting groove (202) is a semi-circular shaft-shaped groove at the top end of the conveying belt (2).

5. The diode processing conveyor apparatus of claim 1, wherein: the correcting shaft (3) comprises a rotating toothed ring (301), an offset toothed ring (302), a resisting ring (303) and a sleeving groove (304), wherein the rotating toothed ring (301) is a circular ring with the surface meshed with the offset toothed ring (302) and is embedded at the two ends of the correcting shaft (3), and the resisting ring (303) is a circular ring with the larger diameter and is embedded in the middle of a circular ring groove of the sleeving groove (304) through a middle telescopic guide rod.

6. The diode processing conveyor apparatus of claim 1, wherein: the retaining ring (303) comprises a contraction block (3031), and the contraction block (3031) is a square block which is formed by contraction, embedding and connection among a plurality of arc-curved rectangular square blocks combined into a circular ring of the retaining ring (303).

7. The diode processing conveyor apparatus of claim 1, wherein: the sleeve joint groove (304) comprises a contact rotating ring (3041), an extending shaft (3042) and a limiting block (3043), wherein the contact rotating ring (3041) is embedded in a circular ring which is in threaded fit with the abutting ring (303) on one side of the middle of the sleeve joint groove (304), the extending shaft (3042) is a circular shaft, one side of the circular shaft is embedded and connected with one side of the contact rotating ring (3041) through a spring telescopic shaft, and the limiting block (3043) is a rectangular protruding block, one side of the extending shaft (3042) protrudes and is located in a groove of the movable groove (1021).

Technical Field

The invention relates to the technical field of diodes, in particular to the technical field of diode processing and conveying equipment.

Background

The diode is an electronic device made of semiconductor material, and the diode is also a device for connecting elements such as resistance, capacitance, inductance and the like in the existing electronic device, can realize a plurality of functions such as rectification of alternating current, detection of modulation signals, amplitude limiting and clamping, voltage stabilization of power supply voltage and the like, the diode is the most common and important device in the existing electronic equipment, and the existing diodes are conveyed to other processing equipment for processing through a conveyor belt in the processing process, however, the existing conveying drives can cause the diode to generate certain deflection in the conveying process, so that the diode can not be conveyed to other processing equipment in a parallel state, the processing efficiency is influenced by the fact that the workpiece is conveyed to other processing equipment to be taken and processed to a certain extent, and the workpiece needs to be righted again in the later processing process.

Disclosure of Invention

Problem (A)

In summary, a diode processing conveying device is provided for solving the problems that the existing diode processing conveying device is influenced when conveying the diode processing conveying device to other processing devices for processing clamping due to the position deviation of the diode processing conveying device in the processing and conveying process, and the diode processing conveying device needs to be adjusted independently and is troublesome.

(II) technical scheme

Provided is a diode processing and conveying device, comprising: the main part, main part middle part gomphosis are provided with the conveyer belt, and main part middle part displacement conveyer belt top gomphosis is provided with the correction axle, and main part middle part both sides are passed through spread groove and skew groove and are connected the correction axle, correct the axle by two respectively with rotatory ring gear and skew ring gear gomphosis setting be a set of together, the correction axle of gomphosis skew ring gear has to the ring through cup jointing the groove connection.

Further, the main part is including spread groove and offset tank, and the spread groove is the recess that main part middle part both sides are close to top department and are the cylinder shape, and the offset tank is the rectangular form recess that the arc bending set up for laminating spread groove recess one side, and the offset tank groove depth ratio spread groove will be dark.

Furthermore, the offset groove comprises a movable groove which is a rectangular groove with the larger width at the middle part of the offset groove.

Further, the conveyer belt is including transmission tooth trace and injecing the groove, and the transmission tooth trace is fixed connection and the tooth trace on the conveyer belt both sides surface, and the limit groove is a plurality of rectangular shape recesses that are circular-arc sunken for conveyer belt top surface.

Further, correct the axle including rotatory ring gear, skew ring gear, support the ring and cup joint the groove, the ring gear that rotatory ring gear set up surface and transmission tooth trace meshing for correcting the gomphosis of axle both ends, skew ring gear is another ring shaft both ends and the ring that rotatory ring gear surface tooth trace meshing diameter is littleer in a set of correction axle for the gomphosis, supports the ring and is connected the ring that the diameter is bigger for through the flexible guide arm in middle part and the gomphosis of cup joint groove ring recess middle part.

Furthermore, the support ring comprises a contraction block, and the contraction block is a plurality of blocks which are combined into the circular arc bent rectangular blocks of the support ring circular ring and are connected in a contraction embedding manner.

Further, the cover groove is including the rotatory ring of contact, extend axle and stopper, the rotatory ring of contact is the bulge at the ring that cover groove middle part one side is being connected with the gomphosis of support ring one side surface screw thread, it is the round axle that spring telescopic shaft and the gomphosis of the rotatory ring one side of contact are connected for one side to extend the axle, and extend axle surrounding surface and correct the gomphosis of axle internal connection recess inner wall screw thread, the stopper is connected the protrusion for extending axle one side gomphosis and corrects the rectangular form lug at axle round axle both ends in the skew ring gear, and the stopper square sets up in the groove that moves about, stopper square width and skew groove width looks gomphosis simultaneously.

(III) advantageous effects

(1) The correcting shaft arranged through the device can drive the diodes to be subjected to deflection movement correction by friction due to the fact that the centers of the two diodes in opposite directions rotate when the diodes pass through, so that the diodes can be subjected to deflection correction automatically in the conveying process, and can be conveyed to other processing equipment in an integral parallel arrangement mode without influencing other processing steps.

(2) The device still is provided with rotatory ring gear, connects the correction axle through rotatory ring gear and lets its skew ring gear that can drive one side carry out opposite direction's rotation at the middle part of main part for two correction axles that are close to can rotate to center department, produce the friction drive to same position, thereby make and to correct the diode.

(3) The device still is provided with the stopper, can be when rotatory through the correction axle that the skew ring gear is connected because the ring is supported around and the extrusion of diode is carried out the shrink through the stopper, lets the stopper extend to one side and removes to thereby make the rotation of skew ring gear can take place to pause and make and can take place to squint to one side because the rotatory drive of rotatory ring gear, thereby make the diode carry out under the correction axle that the skew ring gear is connected.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a partial overall structural schematic view of the main body of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic side sectional view of an offset slot of the present invention;

FIG. 5 is a schematic view of the overall structure of the rotating ring gear and the offset ring gear of the present invention;

FIG. 6 is a schematic view of the connecting structure of the retaining ring of the present invention;

FIG. 7 is a schematic side view of a cross-sectional configuration of an offset ring connection correction shaft according to the present invention;

in fig. 1 to 7, the correspondence between the part names or lines and the reference numbers is:

the device comprises a main body 1, a connecting groove 101, an offset groove 102, a movable groove 1021, a conveying belt 2, a transmission tooth trace 201, a limiting groove 202, a correcting shaft 3, a rotating toothed ring 301, an offset toothed ring 302, a resisting ring 303, a contraction block 3031, a sleeving groove 304, a contact rotating ring 3041, an extending shaft 3042 and a limiting block 3043.

Detailed Description

Please refer to fig. 1 to 7

A diode processing conveyor apparatus comprising: the main body 1, the middle part of the main body 1 is embedded with a conveying belt 2, the upper part of the middle part of the main body 1 is embedded with a correcting shaft 3, the two sides of the middle part of the main body 1 are connected with the correcting shaft 3 through a connecting groove 101 and an offset groove 102, the correcting shaft 3 is embedded with a rotary toothed ring 301 and an offset toothed ring 302 into a group respectively, the correcting shaft 3 embedded with the offset toothed ring 302 is connected with a butting ring 303 through a sleeving groove 304, the main body 1 comprises the connecting groove 101 and the offset groove 102, the connecting groove 101 is a cylindrical groove at the position close to the top end of the middle part of the main body 1, the offset groove 102 is a rectangular groove which is curved and arranged in an arc shape at one side of the groove 101, the groove depth of the offset groove 102 is deeper than that of the connecting groove 101, the offset groove 102 comprises a movable groove 1021, the movable groove 1021 is a rectangular groove with a larger width at the middle part of the offset groove 102, the conveying belt 2 comprises a transmission tooth mark 201 and a limiting groove 202, transmission insection 201 be fixed connection and the insection on 2 side surfaces of conveyer belt, inject groove 202 for 2 top surfaces of conveyer belt a plurality of rectangular shape recesses that are circular-arc sunken, correct axle 3 including rotatory ring gear 301, skew ring gear 302, support ring 303 and cup joint groove 304, rotatory ring gear 301 sets up the ring of surface and transmission insection 201 meshing for correcting the gomphosis of axle 3 both ends, skew ring gear 302 is another ring that the gomphosis of circle axle both ends and rotatory ring gear 301 surface insection diameter is littleer in a set of correction axle 3 of gomphosis, support ring 303 is for being connected the ring that the diameter is bigger through middle part flexible guide arm and the gomphosis of cup joint groove 304 ring recess middle part. In the process of placing the diode on the conveyer belt 2 for conveying, the transmission tooth marks 201 at two sides of the conveyer belt 2 are attached to the bottom ends of the rotary toothed rings 301 at two ends of the correcting shafts 3 above the conveyer belt 2 when the conveyer belt 2 rotates, the rotary toothed rings 301 are driven to rotate by the tooth marks engaged with each other, the engagement of the rotary toothed rings 301 and the offset toothed rings 302 attached to one side causes the offset toothed rings 302 to rotate, so that the two connected correcting shafts 3 rotate in opposite directions towards the center, when the diode moves below the correcting shafts 3, the diode is corrected by the rotation of the two correcting shafts 3 towards the center, so that the diode is driven to convey by the conveyer belt 2 in a parallel state by the driving of the rotation friction of the two correcting shafts 3 when the diode inclines, the retaining ring 303 comprises a contraction block 3031, and the contraction block 3031 is a plurality of blocks which are combined into an arc curved rectangular block of the annular ring 303 and connected in a contraction embedding manner. When the diode is parallel due to the correction of the correction shaft 3, the diode is embedded into the limiting groove 202 on the surface of the conveyor belt 2 for position limitation because the two correction shafts 3 abut against and press the diode, so that the diode is not deflected on line, the abutting ring 303 in the surrounding sleeve groove 304 of the correction shaft 3 connected with the offset toothed ring 302 for contact friction correction when the diode moves into the two correction shafts 3 abuts against the surface of the diode, the abutting force generated when the diode abuts against the abutting ring forces the abutting ring 303 to contract through the surrounding telescopic connecting contraction block 3031 so that the diameter of the abutting ring 303 is reduced, so that the diode can move between the two correction shafts 3 through the rotating toothed ring 301 for correction, the sleeve groove 304 comprises a contact rotating ring 3041, an extending shaft 3042 and a limiting block 3043, the contact rotating ring 3041 is a circular ring with a convex part in the middle side of the sleeve groove 304 in threaded fit connection with the surface on one side of the abutting ring 303, the extension shaft 3042 is a circular shaft with one side connected with the side of the rotating ring 3041 through a spring telescopic shaft, the peripheral surface of the extension shaft 3042 is in threaded engagement with the inner wall of the connecting groove inside the correction shaft 3, the limit block 3043 is a rectangular projection protruding from the two ends of the circular shaft of the correction shaft 3 in the offset ring 302 and connected with the side of the extension shaft 3042 in an engagement manner, and the block 3043 is disposed in the movable groove 1021, and the width of the block 3043 is engaged with the groove width of the offset groove 102. When the retaining ring 303 contracts, one side of the retaining ring is attached to one side of the rotating ring 3041 in a threaded manner, so that the rotating ring 3041 in a contact manner starts to rotate, the extending shaft 3042 in a telescopic connection with one side through a spring starts to rotate, when the extending shaft 3042 starts to rotate, the extending shaft 3042 moves to one side along the inside of the correcting shaft 3 due to the threaded engagement of the inner wall connected with the correcting shaft 3, so that the limiting blocks 3043 with one side protruding out of the two ends of the correcting shaft 3 move along the movable groove 1021 inside the offset groove 102, and after moving for a certain distance, the extending shaft 3042 is engaged into the offset groove 102 at one side of the movable groove 1021 for engagement, so that the extending shaft 3042 is rotated to force the extending shaft to be incapable of rotating continuously, and because the thread groove trace of the inner wall of the extending shaft 3042 and the correcting shaft 3 cannot be engaged continuously to one end thereof, the correcting shaft 3 connected with the offset toothed ring 302 is rotated to stop for a certain time, the rotating driving of the rotating toothed ring 301 enables the whole offset toothed ring 302 to be attached to one side of the rotating toothed ring 301 along the offset groove 102 to generate position offset, so that the correction shaft 3 connected with the offset toothed ring 302 can generate offset to enable the diode which is corrected and embedded in the limiting groove 202 to be smoothly conveyed through the rotating movement of the conveying belt 2, and the diode can be corrected and conveyed into other processing equipment without influencing post-processing steps due to the integral deflection of the diode, and the diode does not need to be corrected and adjusted artificially.

(IV) working principle

The invention provides a diode processing and conveying device, which comprises a main body 1, a conveying belt 2 arranged in the middle of the main body 1, diodes sequentially and orderly conveyed to other processing devices for processing through the conveying belt 2, in the process of conveying the diodes on the conveying belt 2, transmission tooth marks 201 on two sides of the conveying belt 2 are meshed with a rotary tooth ring 301 to drive the rotary tooth ring 301 to start rotating, the meshing of the rotary tooth ring 301 and a side-attached offset tooth ring 302 also drives the offset tooth ring 302 to rotate so as to enable two connected correcting shafts 3 to rotate in opposite directions towards the center, when the diodes move to the lower part of the correcting shafts 3 through the rotation of the two correcting shafts 3 towards the center, the two diodes can simultaneously rotate towards the center through the meshing transmission, when the diode moves between the two correcting shafts 3, the diode is driven to shift and correct to be parallel to the center position by friction due to the rotation of the two correcting shafts 3 to the center position at the same time, when the diode is in a parallel state due to the correction of the correcting shafts 3, the diode is embedded into the limiting groove 202 on the surface of the conveying belt 2 for limiting the position due to the abutting and pressing of the two correcting shafts 3 to the diode, so that the diode cannot deflect on line by itself, when the diode moves between the two correcting shafts 3, the abutting ring 303 connected by the sleeving groove 304 around the correcting shaft 3 connected by the shifting toothed ring 302 abuts against the surface of the diode, the abutting force generated when abutting against the diode forces the abutting ring 303 to shrink through the surrounding shrink blocks 3031 in telescopic connection to reduce the diameter of the abutting ring 303, so that the diode can move between the two correcting shafts 3 through the rotating toothed ring 301 for correction, when the retaining ring 303 contracts, one side of the retaining ring is screwed to the side contacting the rotating ring 3041, so that the rotating ring 3041 starts to rotate, and the extending shaft 3042, one side of which is telescopically connected by a spring, starts to rotate, when the extending shaft 3042 starts to rotate, the extending shaft 3042 moves to one side along the inside of the correcting shaft 3 due to the screw thread engagement of the inner wall connected with the correcting shaft 3, so that the limit block 3043, one side of which protrudes at the two ends of the correcting shaft 3, moves along the movable groove 1021 inside the offset groove 102, and after moving a certain distance, the limit block 3043 is engaged into the offset groove 102 at one side of the movable groove 1021 for engagement, so that the extending shaft 3042 is limited to be incapable of continuing to rotate, and when the extending shaft 3042 moves to one end along the screw thread groove trace of the inner wall of the correcting shaft 3 and cannot continue to engage and move, the correcting shaft 3 connected with the offset toothed ring 302 is forced to rotate and stop at a certain time, make rotatory ring gear 301 drive in continuing the rotation and can let whole skew ring gear 302 laminate the skew that rotatory ring gear 301 one side took place the position along its skew groove 102 for the correction axle 3 that its skew ring gear 302 is connected can take place the skew, let correct the diode of gomphosis in injecing groove 202 and can be driven by conveyer belt 2 smoothly and carry, and because the correction of carrying the diode makes it can not lead to its influence post processing step because of the whole skew of diode after entering into other processing equipment, need not carry out artificial correction adjustment to the diode once more.