CN114313369B - Encapsulation equipment of chip components and parts - Google Patents

Abstract

The invention relates to the field of packaging of sheet components, in particular to packaging equipment of the sheet components, which comprises a table, a placement mechanism, a compaction mechanism, a stand, a motor and a fixed shaft, wherein the table is placed on the ground, the placement mechanism is arranged at the upper end of the table, the compaction mechanism is arranged above the table, the stand is positioned at the right side of the table, the stand is arranged on the ground, the stand is symmetrically arranged, the motor is arranged at the upper end of the stand, the fixed shaft is arranged at the output shaft of the motor, and the placement mechanism can conduct guiding and limiting on plastic braid conveying so as to ensure the horizontal levelness of the plastic braid or paper braid, so that the plastic braid or paper braid is aligned positively, and the placement mechanism can also avoid the plastic braid or paper braid from shifting during the bonding of the plastic braid or paper braid, thereby improving the packaging quality of the sheet components.

Description

Encapsulation equipment of chip components and parts

Technical Field

The invention relates to the field of chip component packaging, in particular to encapsulation equipment for chip components.

Background

The chip component is a novel tiny component without leads or short leads, the packaging form of the chip component mainly adopts a braid packaging form, braids used for braid packaging mainly comprise paper tapes and plastic tapes, the braid packaging means that the chip component is filled into a paper braid or a plastic braid hole slot one by one according to a certain direction, and then a layer of paper braid or plastic braid is adhered for packaging.

In the process of packaging the chip components by using the plastic braid or the paper braid, problems are liable to occur during two processes of placing the chip components and arranging the plastic braid or the paper braid.

The Kong Caoshu amount on the surface of a single plastic braid or paper braid is more, the volume of the chip component is smaller, and the overall efficiency is low by adopting a mode of manually placing the chip components one by one when the chip components are packaged, so that workers need to repeat the same operation for a plurality of times.

Secondly, the chip components and the hole slots are easily deviated in butt joint due to manual placement, and the overall packaging effect is affected.

Thirdly, the overall flatness of the plastic braid or the paper braid is low, and the braid is easy to deform such as wrinkles.

Fourthly, the butt joint of the plastic braids or the paper braids is easy to deviate, namely the misalignment exists, and the plastic braids or the paper braids are easy to deviate during the bonding process, so that the overall quality of the package is reduced.

Disclosure of Invention

In order to solve the technical problems, the invention provides encapsulation equipment for chip components, which comprises a table, a placement mechanism, a compaction mechanism, a stand, a motor and a fixed shaft, wherein the table is placed on the ground, the placement mechanism is arranged at the upper end of the table, the compaction mechanism is arranged above the table, the stand is positioned on the right side of the table, the stand is arranged on the ground, the stand is symmetrically arranged left and right, the motor is arranged at the upper end of the stand, the fixed shaft is arranged on an output shaft of the motor, the front and rear of the right end surface of the table are symmetrically provided with shaft plates for fixing a belt conveying shaft, and the belt conveying shaft is vertically arranged and is rotationally connected with the shaft plates.

The placing mechanism comprises a baffle plate, an auxiliary baffle rod, a plate block, a cross arm, a track bar, a first electric sliding block, a top plate, a lug and a placing unit, wherein the baffle plate is arranged at the rear end of the upper end face of the table, the left end of the front end face of the baffle plate is provided with the auxiliary baffle rod with an inverted L-shaped structure, the plate block is symmetrically arranged on the front end face of the table in a bilateral symmetry manner, the side end of the plate block is provided with an inverted U-shaped through groove, the front end of the inverted U-shaped through groove is slidably connected with the cross arm, the rear end face of the cross arm is symmetrically provided with the track bar, the track bar is positioned on the right side of the auxiliary baffle rod, the track bar is positioned above the table, the first electric sliding block is arranged at the upper end of the track bar, the top plate is connected between the upper ends of the first electric sliding block, the lower end face of the top plate is provided with the lug from left to right in an equidistance manner, the lower end of the lug is provided with the placing unit, and the lower end of the placing unit is contacted with the upper end face of the table

The existing glue spraying machine is arranged on the front side of a vertical frame close to a table, a glue spraying end of the glue spraying machine is positioned above the vertical frame close to the table, a plastic tape roll or a paper tape roll is integrally sleeved on a fixed shaft in a manual mode, a hole groove on the surface of the plastic tape roll or the paper tape roll close to the table is upward, a hole groove on the surface of the other plastic tape roll or the paper tape roll is downward, then the fixed shaft is driven to rotate by a motor, an operator holds the movable end of the plastic tape roll or the paper tape roll leftwards, the plastic tape roll or the paper tape roll is in an unreeling state, the plastic tape roll or the paper tape roll with the upward surface hole groove is conveyed leftwards from the upper end of a tape conveying shaft of the lower end of a shaft plate, the lower end face of the plastic tape roll or the paper tape roll with the upward surface hole groove is contacted with the upper end face of the table, the plastic tape roll or the paper tape roll with the downward surface hole groove is conveyed leftwards from the upper end of the tape conveying shaft of the upper end of the shaft, the glue spraying end of the glue spraying machine is positioned between the plastic tape roll or the paper tape roll, and the plastic tape roll or the front end of the paper tape roll is conveyed with a baffle plate.

During the conveying of the plastic braiding or paper braiding, the plastic braiding or paper braiding with upward surface holes is subjected to surface dispensing through a glue spraying machine, the dispensing positions are located between the adjacent holes, the upward surface holes are not conveyed after being conveyed to the left end face of the table, so that the placing units are in one-to-one correspondence with the holes, the downward surface holes are not conveyed after exceeding the left end face of the table for a certain distance, so that the downward surface holes can be clamped and reserved by a compacting mechanism for bonding between the subsequent plastic braiding or paper braiding, at the moment, the plastic braiding or paper braiding is located between a baffle plate and an auxiliary baffle rod, and then the downward surface holes are fixed at the left end of the plastic braiding or paper braiding through the compacting mechanism.

The method comprises the steps that sheet components are sequentially arranged on a placement unit in a manual mode in advance, a lug is located on the front side of the whole sheet components, after the arrangement of a plastic braid or a paper braid is completed, a cross arm is manually moved to the rear end of an inverted U-shaped through groove according to a route that the cross arm is upward, then horizontally and finally downward, in the process, the cross arm drives a track strip and the placement unit to synchronously move, the placement unit is located above a table during the horizontal backward movement of the cross arm, when the rear end of the placement unit is located right above a surface hole groove of a plastic braid or a paper braid on the upper end face of the table, the cross arm immediately moves downward, the rear end of the placement unit is placed in the hole groove, then an electric slider drives a top plate and the lug to synchronously move backward, the lug pushes the sheet components until a single sheet component is located right above the hole groove, then the sheet component is placed in the hole groove through the placement unit, then the cross arm is manually returned to the front end of the inverted U-shaped through groove according to the route, the front end of the inverted U-shaped through groove is separated from the placement unit, and the plastic braid or the paper braid is packaged, and the packaging of the sheet components are completed.

After the bonding treatment is finished, an operator takes down the plastic braid or paper braid fixed through the compaction mechanism, then pulls the bonded plastic braid or paper braid leftwards, during pulling, the bonded plastic braid or paper braid cannot be scattered until the unbonded part of the plastic braid or paper braid with the surface hole slot upwards is conveyed to the left end face of the table, then cuts the plastic braid or paper braid with the surface hole slot upwards by means of the cutting tool, and after the plastic braid or paper braid with the surface hole slot downwards continues to be conveyed leftwards for a certain distance, the plastic braid or paper braid is cut by the cutting tool, then fixes the left end of the plastic braid or paper braid by the compaction mechanism, and then the packaging treatment of the next batch of chip components is finished according to the operation mode.

The utility model provides a place the unit including L template, return type piece, backup pad, torsional spring, the board that returns, electric putter and pole frame, every lug left and right sides all distributes the L template, the rear end at the cross arm is installed to the L template, return type piece has been arranged directly behind the lug, the spread groove has been seted up to the front end of returning type piece, the diapire of spread groove and the lower terminal surface fixed connection of L template, the mounting groove has been seted up to the back inside wall bilateral symmetry of returning type piece, install the backup pad through the round pin axle rotation between the inside wall about the mounting groove, the both ends cover is equipped with the torsional spring that is used for connecting backup pad side and mounting groove lateral wall about the round pin axle in the mounting groove, the board that returns has been arranged directly over the type piece, the upper end of returning the board is connected with the pole frame that is the type structure of falling L through electric putter, the up end left end at returning type piece is installed to the vertical section of pole frame.

The sheet-type components are sequentially arranged between L-shaped plates connected with the same back-type block from front to back in a manual mode, the protruding blocks are positioned at the front side of the whole sheet-type components, after the arrangement of plastic braids or paper braids is completed, the plastic braids or paper braids paved on the upper end face of the table are positioned at the rear side of the back-type block, the cross arm is manually moved to the rear end of the inverted U-shaped through groove according to a route which is firstly upward, then horizontally and finally downward, in the process, the cross arm drives the track strips and the L-shaped plates to synchronously move, the L-shaped plates and the back-type block are positioned above the table during the horizontal backward movement of the cross arm, when the lower end of the back-type block is positioned right above a surface hole groove of the plastic braids or paper braids on the upper end face of the table, the cross arm immediately moves downwards, the lower end of the back-type block is positioned in the hole groove, and then the top plate and the protruding blocks are synchronously moved backward through the electric sliding block, the lug pushes the sheet element backwards until the single sheet element is lapped between the supporting plates in the return block, the whole weight of the supporting plates and the sheet element is insufficient to enable the torsion spring to twist, at the moment, the single sheet element is positioned right above the hole groove, then the return plate is pushed downwards by the first electric push rod, the return plate pushes the sheet element downwards, the supporting plates synchronously rotate downwards, the torsion spring rotates in the direction until the sheet element is placed in the hole groove, the supporting plates are completely positioned in the mounting groove, the return plate continues to move downwards to enable the sheet element to be horizontally placed in the hole groove, then the return plate returns by the first electric push rod, the supporting plates synchronously return under the rotation of the torsion spring, the cross arm returns to the front end of the inverted U-shaped through groove in an original route by a manual mode, the return block returns to the original position, and then the plastic braid or the paper braid is bonded by the compaction mechanism, and the chip components are packaged, and then the packaging of the next batch of chip components is finished according to the operation mode.

The first preferred technical scheme is as follows: the compaction mechanism comprises a vertical frame, two electric push rods, a connecting plate, two electric slide blocks, a fixing frame and a compression roller, wherein the vertical frame with an inverted L-shaped structure is symmetrically installed on the upper end face of a table, the vertical frame is located at the rear side of a baffle plate, the horizontal section of the vertical frame is provided with the two electric push rods, the connecting plate is connected between the lower ends of the two electric push rods, the fixing frame is installed at the lower end of the connecting plate through the two electric slide blocks, the compression roller is rotatably installed at the lower end of the fixing frame through a pin shaft, an extension plate is installed at the left end of the vertical frame of the baffle plate, a vertical expansion plate is rotatably installed at the left front end of the extension plate through the pin shaft in a front-rear symmetrical mode, a scroll is installed between the lower ends of the vertical expansion plate, the scroll is located above the table, the upper end of the scroll is clamped with a clamping plate with an outer convex arc structure, the lower end of the clamping plate is in the left side of the scroll, the lower end of the clamping plate is rotatably installed between the lower ends of the vertical expansion plate through the pin shaft, a torsion spring is symmetrically connected to the front and rear of the lower end of the clamping plate, the torsion spring is sleeved on the pin shaft, and the middle of the vertical expansion plate is connected with the vertical expansion plate.

The plastic braid or paper braid with downward surface hole slot is conveyed leftwards from the upper end of the belt conveying shaft at the upper end of the shaft plate by manual cooperation with a motor, when the plastic braid or paper braid with downward surface hole slot exceeds the left end face of the table for a certain distance, the motor stops working, then the clamping plate is manually broken to separate the clamping plate from the reel, then the plastic braid or paper braid with downward surface hole slot is wound upwards from the lower end of the reel and is wound on the reel, the plastic braid or paper braid with downward surface hole slot is in a certain tensioning state, then the clamping plate is loosened, the clamping plate rotates, the convex arc section of the clamping plate compresses the plastic braid or paper braid, after the chip component is placed in the hole slot and the placing unit returns to the original position, the connecting plate is pushed downwards by a second electric push rod, and the second electric slide block and the pressing roller synchronously move along with the connecting plate, when the press roller contacts the downward plastic braid or paper braid and continues to move downward, the vertical expansion plate and the scroll are integrally subjected to right pulling force, under the action of the pulling force, the vertical expansion plate and the scroll are integrally rotated to the right, meanwhile, the vertical expansion plate is elongated due to the pulling force, the clamping plate is gradually rotated upwards, the press roller enables the plastic braid or paper braid below the vertical expansion plate to adhere, the fixing frame is driven by the second electric sliding block to move leftwards after the press roller is adhered, the fixing frame drives the press roller to synchronously move, the plastic braid or paper braid is adhered gradually under the rolling of the press roller, when the press roller approaches the left end of the table, the force of the clamping plate under the pulling force of the vertical expansion plate is larger than the torsion force of the torsion spring connected with the clamping plate, the clamping plate is separated from the scroll, the plastic braid or paper braid on the scroll is separated from the scroll, and the press roller continues to move leftwards, the plastic braid or paper braid completes the adhesion.

The compaction mechanism can also keep the plastic braid or the paper braid in a tight and flat state on the basis of realizing the basic function of bonding the plastic braid or the paper braid, thereby avoiding the plastic braid or the paper braid from generating folds or shifting, and further greatly improving the packaging quality of the chip components.

And the second preferred technical scheme is as follows: the lower end face of the front end of the fixing frame is rotatably provided with the edge roller through the pin shaft, the edge roller is positioned at the front lower part of the press roller, the edge roller rotates automatically in the process of synchronously moving leftwards along with the press roller, and the edge roller can play an auxiliary limiting role in alignment between plastic braids or paper braids so as to avoid the plastic braids or paper braids from finding offset during bonding.

And the preferred technical scheme is as follows: the rear end of the pushing end of the second electric push rod at the right end of the connecting plate is provided with a first longitudinal plate, a second longitudinal plate used for limiting the movement distance of the second electric push rod is arranged under the rear end of the first longitudinal plate, the second longitudinal plate is arranged on the front end face of the vertical section of the right vertical frame of the connecting plate, the first longitudinal plate synchronously moves downwards during the process of pushing the connecting plate downwards through the second electric push rod, after the first longitudinal plate contacts the second longitudinal plate, the second electric push rod stops moving, the pressing roller just presses two plastic braids or paper braids, and the plastic braids or paper braids at the pressing point are bonded through adhesive, so that: the descending distance of the press roller is limited through the cooperation between the first longitudinal plate and the second longitudinal plate, so that the problems that the follow-up press roller is excessive in pressing of the chip components, the chip components are damaged and the like are avoided.

The preferable technical scheme is as follows: the dust collector is arranged on the right front side of the table, the dust collector is positioned on the front side of the vertical frame, the dust collection end of the dust collector is positioned above the vertical frame, the dust collection end of the dust collector is positioned between two plastic braids or paper braids, the dust collection end of the dust collector is positioned on the left side of the glue spraying end of the glue spraying machine, and during the leftward conveying of the plastic braids or paper braids with upward surface hole grooves, the plastic braids or paper braids with upward surface hole grooves are cleaned through the dust collector, so that impurities are prevented from being sealed together with chip components.

The preferable technical scheme is as follows: the vertical section of L template set up the standing groove facing the side of lug, install the roll axis that is vertical state through the round pin axle equidistance from front to back in the standing groove, during the lug promotes piece formula components and parts backward, produces rolling friction between piece formula components and the roll axis, the motion resistance of piece formula components reduces, the wearing and tearing degree on piece formula components edge reduces simultaneously.

The preferable technical scheme is as follows: the lower end face of the convex arc section of the clamping plate and the lower end face of the homing plate are both provided with rubber plate layers, the rubber plate layers connected with the clamping plate can increase friction between the clamping plate and the plastic braid or the paper braid, further the plastic braid or the paper braid is prevented from falling off from the reel, the rubber plate layers connected with the homing plate can play a role in elastic protection on the chip components, and the upper end faces of the chip components are prevented from deforming.

The preferred technical scheme is as follows: the vertical groove is formed in the front inner side wall of the return-type block, the shaft rod used for reducing friction is rotatably arranged between the left inner side wall and the right inner side wall of the vertical groove through the pin shaft, the front end of the supporting plate is made of elastic materials, the front end of the supporting plate is arranged at the upper end of the shaft rod at the uppermost end of the vertical groove, rolling friction occurs between the plate-type component and the shaft rod during the period that the plate-type component is pressed downwards by the homing plate, and the descending motion resistance of the plate-type component is reduced.

The eighth preferred technical scheme is as follows: the lower terminal surface of back type piece install and be the sponge strip that returns type structure, set up the purpose of sponge strip and be: avoiding the damage or deformation of the inner bottom wall of the surface hole groove of the plastic braid or the paper braid caused by the loop-shaped block.

The invention has the following beneficial effects: 1. the placement mechanism can guide and limit the plastic braid to ensure the horizontal levelness of the plastic braid or the paper braid, so that the plastic braid or the paper braid are aligned in the forward direction, and the placement mechanism can also avoid the plastic braid or the paper braid from shifting during the bonding of the plastic braid or the paper braid, thereby improving the packaging quality of the chip component.

2. The placing unit has the functions of simultaneously clamping a plurality of chip components and automatically placing and supplying the chip components, and can realize that the chip components are synchronously placed in the holes of the plastic braid or the paper braid without manually placing the chip components one by one, so that the overall working efficiency is greatly improved, and meanwhile, the placing unit guides and assists the butt joint between the chip components and the holes on the surface of the plastic braid or the paper braid so as to ensure the forward butt joint between the chip components and the holes.

3. The compaction mechanism can also keep the plastic braid or the paper braid in a tight and flat state on the basis of realizing the basic function of bonding the plastic braid or the paper braid, thereby avoiding the plastic braid or the paper braid from generating wrinkles or deviating, and further greatly improving the packaging quality of the chip components.

4. The edge roller in the invention can play an auxiliary limiting role on the alignment between the plastic braids or the paper braids so as to avoid the plastic braids or the paper braids from finding deflection during bonding.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of the present invention with a chip component placed.

Fig. 2 is a schematic perspective view of the structure of fig. 1 with the table removed.

Fig. 3 is a top view of fig. 1.

Fig. 4 is a schematic view of a three-dimensional cut-off structure of a part of the structure of fig. 2.

Fig. 5 is a cross-sectional view taken along A-A of fig. 3.

Fig. 6 is an enlarged view of reference numeral X in fig. 5.

Fig. 7 is a schematic perspective view of the vertical frame, the extension plate, the vertical expansion plate, the clamping plate, the scroll and the limit rod.

Fig. 8 is a schematic perspective view of a connecting plate, a second electric slider, a fixing frame, a pressing roller and an edge roller.

Fig. 9 is a schematic perspective view of an L-shaped plate and a rolling shaft.

Fig. 10 is a schematic perspective view of a plate, cross arm, rail, first-size electric slider, top plate and bump.

Fig. 11 is a schematic perspective view of the return block, return plate, first electric push rod, support plate and torsion spring.

In the figure: 1. a table; 2. a placement mechanism; 3. a compacting mechanism; 4. a vertical frame; 5. a motor; 6. a fixed shaft; 10. a dust collector; 11. a belt conveying shaft; 12. a shaft plate; 20. a baffle plate; 21. an auxiliary stop lever; 22. a plate; 23. a cross arm; 24. a track bar; 25. a first electric sliding block; 26. a top plate; 27. a bump; 28. a placement unit; 280. an L-shaped plate; 281. a loop-shaped block; 282. a support plate; 283. a torsion spring; 284. a homing plate; 285. a first electric push rod; 286. a pole frame; 287. a rolling shaft; 288. a shaft lever; 289. a sponge strip; 30. a vertical frame; 31. a second electric push rod; 32. a connecting plate; 320. a first longitudinal plate; 321. a second longitudinal plate; 33. a second electric sliding block; 34. a fixing frame; 340. edge rollers; 35. a press roller; 300. an extension plate; 301. a vertical expansion plate; 302. a reel; 303. and (5) clamping plates.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, an encapsulating device for chip components comprises a table 1, a placement mechanism 2, a compacting mechanism 3, a stand 4, a motor 5 and a fixed shaft 6, wherein the table 1 is placed on the ground, the placement mechanism 2 is arranged at the upper end of the table 1, the compacting mechanism 3 is arranged above the table 1, the stand 4 is positioned at the right side of the table 1, the stand 4 is arranged on the ground, the stand 4 is symmetrically distributed left and right, the motor 5 is arranged at the upper end of the stand 4, the fixed shaft 6 is arranged at the output shaft of the motor 5, the shaft plate 12 for fixing the belt conveying shaft 11 is symmetrically arranged in front of and behind the right end surface of the table 1, and the belt conveying shaft 11 is vertically distributed and is rotationally connected with the shaft plate 12.

Referring to fig. 1, fig. 2, fig. 3, fig. 6, fig. 9, fig. 10 and fig. 11, the placement mechanism 2 includes a baffle 20, an auxiliary stop lever 21, a plate 22, a cross arm 23, a rail bar 24, a first electric slider 25, a top plate 26, a bump 27 and a placement unit 28, the baffle 20 is mounted at the rear end of the upper end surface of the table 1, the auxiliary stop lever 21 with an inverted L-shaped structure is mounted at the left end of the front end surface of the baffle 20, the plate 22 is symmetrically disposed at the front end surface of the table 1, an inverted U-shaped through groove is formed at the side end of the plate 22, the cross arm 23 is slidably connected between the front ends of the inverted U-shaped through grooves, the rail bar 24 is mounted at the rear end surface of the cross arm 23, the rail bar 24 is located at the right side of the auxiliary stop lever 21, the rail bar 24 is located above the table 1, the first electric slider 25 is mounted at the upper end of the rail bar 24, the top plate 26 is connected between the upper ends of the first electric slider 25, the lower end surface of the top plate 26 is mounted with the bump 27 from left to right, the lower end of the bump 27 is symmetrically disposed at the lower end of the bump 27, the lower end of the bump 28 is provided with the placement unit 28, and the lower end of the placement unit is in contact with the upper end surface of the table 1

Referring to fig. 1, a conventional glue spraying machine is installed at the front side of a stand 4 close to a table 1, a glue spraying end of the glue spraying machine is positioned above the stand 4 close to the table 1, a plastic tape roll or paper tape roll is integrally clamped on a fixed shaft 6 in a manual manner, a hole groove on the surface of the plastic tape roll or paper tape roll close to the table 1 faces upwards, a hole groove on the surface of another plastic tape roll or paper tape roll faces downwards, then the fixed shaft 6 is driven to rotate by a motor 5, an operator holds a movable end of the plastic tape roll or paper tape roll leftwards, the plastic tape roll or paper tape roll is pulled leftwards, the plastic tape roll or paper tape roll is in an unreeling state, the plastic tape roll or paper tape roll with the surface hole groove facing upwards is conveyed leftwards from the upper end of a tape conveying shaft 11 at the lower end of a table 12, the surface hole groove facing downwards is contacted with the upper end face of the plastic tape roll or paper tape, the plastic tape roll or paper tape roll facing downwards contacts with the upper end face of the table 1, and the glue spraying end of the glue spraying machine is positioned between the plastic tape rolls or paper rolls 20 and is adhered to the front end face of the plastic tape roll or paper tape.

During the conveying of the plastic braiding or paper braiding, the plastic braiding or paper braiding with upward surface hole grooves is subjected to surface dispensing through a glue spraying machine, the dispensing positions are located between the adjacent hole grooves, the plastic braiding or paper braiding with upward surface hole grooves is not conveyed after being conveyed to the left end face of the table 1, so that the placing units 28 are in one-to-one correspondence with the hole grooves, the plastic braiding or paper braiding with downward surface hole grooves is not conveyed after exceeding the left end face of the table 1 for a certain distance, so that the plastic braiding or paper braiding can be clamped and reserved with enough length for bonding between the subsequent plastic braiding or paper braiding through the compacting mechanism 3, at the moment, the plastic braiding or paper braiding is located between the baffle 20 and the auxiliary baffle rod 21, and then the left end of the plastic braiding or paper braiding with downward surface hole grooves is fixed through the compacting mechanism 3.

The sheet-type components are sequentially discharged on the placement unit 28 from front to back in a manual mode, the lug 27 is positioned on the front side of the whole sheet-type components, after the arrangement of the plastic braiding or paper braiding is completed, the cross arm 23 is moved to the rear end of the inverted U-shaped through groove in a manual mode according to an upward, horizontal and final downward route, in the process, the cross arm 23 drives the track strip 24 and the placement unit 28 to synchronously move, the placement unit 28 is positioned above the table 1 during the horizontal backward movement of the cross arm 23, when the rear end of the placement unit 28 is positioned right above a surface hole groove of the plastic braiding or paper braiding on the upper end surface of the table 1, the cross arm 23 immediately moves downwards, the rear end of the placement unit 28 is placed in the hole groove, then the top plate 26 and the lug 27 are synchronously moved backward through the electric sliding block, until a single sheet-type component is positioned at the rear end of the placement unit 28, namely the single sheet-type component is positioned right above the hole groove, then the placement unit 28 is placed in the hole groove, and then the sheet-type component is pressed by the placement unit 28, the plastic braiding or paper braiding is completed by manually making the front end of the sheet-type components fall off the surface groove of the table 1, and the plastic braiding or paper braiding is completed after the plastic braiding is completely bound by the manual mode, and the front tape is pressed by the original mode, and the front surface of the plastic braiding or paper braiding is completely wound.

After the bonding treatment is finished, an operator takes down the plastic braid or paper braid fixed through the compacting mechanism 3, pulls the bonded plastic braid or paper braid leftwards, the bonded plastic braid or paper braid cannot be scattered during pulling until the unbonded part of the plastic braid or paper braid with the surface hole slot upwards is conveyed to the left end face of the table 1, then cuts the plastic braid or paper braid with the surface hole slot upwards by means of the cutting tool, cuts the plastic braid or paper braid with the surface hole slot downwards continuously leftwards for a certain distance, fixes the left end of the plastic braid or paper braid by means of the cutting tool, and then completes the packaging treatment of the next batch of chip components according to the operation mode.

The baffle 20 and the auxiliary stop lever 21 arranged in the placement mechanism 2 can integrally play a role in guiding and limiting the plastic braid to ensure the horizontal levelness of the plastic braid or the paper braid, so that the plastic braid or the paper braid are aligned in the forward direction, and the plastic braid or the paper braid can be prevented from being deviated during the bonding process of the plastic braid or the paper braid, thereby improving the packaging quality of the chip components.

Referring to fig. 3, fig. 5, fig. 6, fig. 9, fig. 10 and fig. 11, the placement unit 28 comprises an L-shaped plate 280, a return-type block 281, a supporting plate 282, torsion springs 283, a return-type plate 284, a first electric push rod 285 and a rod frame 286, wherein the L-shaped plate 280 is distributed on the left side and the right side of each bump 27, the L-shaped plate 280 is mounted on the rear end face of the cross arm 23, the return-type block 281 is arranged right behind the bumps 27, the front end of the return-type block 281 is provided with a connecting groove, the bottom wall of the connecting groove is fixedly connected with the lower end face of the L-shaped plate 280, the rear inner side wall of the return-type block 281 is provided with a mounting groove in bilateral symmetry, the support plates 282 are mounted between the left inner side wall and the right inner side wall of the mounting groove through pin shafts in a rotating manner, the torsion springs 283 for connecting the side ends of the support plates 282 with the side walls of the mounting groove are sleeved at the left end and the right end of the torsion springs 283, the return-type plate 284 is arranged right above the return-type plate 284, the upper end of the return-type plate 284 is connected with the rod frame 286 in a reverse L-type structure through the first electric push rod 285, and the vertical section of the rod frame is mounted on the upper end of the return-type block 281.

The sheet-type components are sequentially arranged between the L-shaped plates 280 connected with the same back-type block 281 in a manual mode in advance, the convex blocks 27 are positioned on the front side of the whole sheet-type components, after the arrangement of plastic braids or paper braids is completed, the plastic braids or paper braids paved on the upper end face of the table 1 are positioned on the rear side of the back-type block 281, the cross arm 23 is manually moved to the rear end of the inverted U-shaped through groove according to a path from top to bottom and then horizontally and finally downwards, in the process, the cross arm 23 drives the track bars 24 and the L-shaped plates 280 to synchronously move, the L-shaped plates 280 and the back-type block 281 are positioned above the table 1 during the horizontal backward movement of the cross arm 23, when the lower end of the back-type block 281 is positioned right above the surface groove of the plastic braids or paper braids on the upper end face of the table 1, the cross arm 23 is then moved downwards, the lower end of the back-type block 281 is positioned in the hole groove, then the electric slide block drives the top plate 26 and the protruding block 27 to synchronously move backwards, the protruding block 27 pushes the sheet type element backwards until the single sheet type element is lapped between the supporting plates 282 in the return block 281, the whole weight of the supporting plates 282 and the sheet type element is insufficient to enable the torsion springs 283 to twist, the single sheet type element is positioned right above the hole slots, then the return plates 284 are pushed downwards by the first electric push rods 285, the return plates 284 push the sheet type element downwards, the supporting plates 282 synchronously rotate downwards, the torsion springs 283 twist until the sheet type element is placed in the hole slots, the supporting plates 282 are completely positioned in the mounting grooves, the return plates 284 continue to move downwards to enable the sheet type element to be horizontally placed in the hole slots, then the return plates 284 are returned by the first electric push rods 285, the supporting plates 282 synchronously return under the rotation of the torsion springs 283, the cross arms 23 return to the front ends of the inverted U-shaped through slots in a manual mode, the return block 281 returns to the original position, after which the plastic braid or paper braid is bonded by the compacting mechanism 3, the chip component is packaged, and then the packaging of the chip component of the next batch is completed according to the above operation mode.

The placing unit 28 has the functions of simultaneously clamping a plurality of sheet components and automatically placing and supplying the sheet components, under the condition of utilizing the functions, the plurality of sheet components can be synchronously placed in the hole slots of the plastic braid or the paper braid without manually placing the sheet components one by one, so that the overall working efficiency is greatly improved, and meanwhile, the placing unit 28 guides and assists the butt joint between the sheet components and the surface hole slots of the plastic braid or the paper braid, so that the forward butt joint between the sheet components and the hole slots is ensured.

Referring to fig. 9, a side end of the vertical section of the L-shaped plate 280 facing the protruding block 27 is provided with a placement groove, a rolling shaft 287 in a vertical state is rotatably installed in the placement groove at equal distance from front to back through a pin shaft, and rolling friction is generated between the plate-shaped component and the rolling shaft 287 during the process that the protruding block 27 pushes the plate-shaped component backward, so that the movement resistance of the plate-shaped component is reduced, and meanwhile, the abrasion degree of the edge of the plate-shaped component is reduced.

Referring to fig. 6, a vertical groove is formed in the front inner side wall of the return block 281, a shaft rod 288 for reducing friction is rotatably mounted between the left inner side wall and the right inner side wall of the vertical groove through a pin shaft, the front end of the support plate 282 is made of elastic materials, the front end of the support plate 282 is mounted at the upper end of the shaft rod 288 at the uppermost end of the vertical groove, rolling friction occurs between the plate type component and the shaft rod 288 during the period that the plate type component is pressed downwards by the homing plate 284, and the downward movement resistance of the plate type component is reduced.

Referring to fig. 6, the lower end surface of the loop-shaped block 281 is provided with a sponge 289 with a loop-shaped structure, and the purpose of the sponge 289 is to: avoiding the damage or deformation of the inner bottom wall of the surface hole groove of the plastic braid or paper braid caused by the return block 281.

Referring to fig. 1, fig. 3, fig. 4, fig. 5 and fig. 7, the compacting mechanism 3 includes a vertical frame 30, a second electric push rod 31, a connecting plate 32, a second electric slide 33, a fixing frame 34 and a pressing roller 35, the vertical frame 30 with an inverted L-shaped structure is symmetrically installed on the upper end face of the table 1, the vertical frame 30 is located at the rear side of the baffle 20, the second electric push rod 31 is installed at the horizontal section of the vertical frame 30, the connecting plate 32 is connected between the lower ends of the second electric push rod 31, the fixing frame 34 is installed at the lower end of the connecting plate 32 through the second electric slide 33, the pressing roller 35 is rotatably installed at the lower end of the fixing frame 34 through a pin shaft, an extension plate 300 is installed at the left end of the vertical frame 30 at the left side of the baffle 20, a reel 302 is symmetrically installed at the front end of the extension plate 300 through the pin shaft, a reel 302 is installed between the lower ends of the vertical extension plate 301, the reel 302 is located above the table 1, the upper end of the reel 302 is clamped with a clamping plate 303 with an outer arc structure, the lower end of the clamping plate 303 is of the vertical structure and the lower end of the clamping plate is located at the lower end of the reel 301 is rotatably connected with a torsional spring sleeve 303 through a lower end of the torsional spring 301, and the lower end of the torsional spring is rotatably connected with the clamping plate 303.

The plastic braid or paper braid with the surface hole slot downward is conveyed leftwards from the upper end of the belt conveying shaft 11 at the upper end of the shaft plate 12 by manual cooperation with the motor 5, when the plastic braid or paper braid with the surface hole slot downward exceeds the left end face of the table 1 by a certain distance, the motor 5 stops working, then the clamping plate 303 is manually broken to separate the clamping plate 303 from the reel 302, then the plastic braid or paper braid with the surface hole slot downward is wound upwards from the lower end of the reel 302 and is wound on the reel 302, the plastic braid or paper braid with the surface hole slot downward is in a certain tensioning state, then the clamping plate 303 is loosened, the clamping plate 303 rotates, the convex arc section of the clamping plate 303 compresses the plastic braid or paper braid, after the chip component is put into the hole slot and the placing unit 28 returns to the original position, the connecting plate 32 is pushed downwards by the second electric push rod 31, the second electric slide block 33 and the press roller 35 move synchronously, when the press roller 35 contacts the plastic braid or paper braid with the surface hole slot facing downwards and continues to move downwards, the whole of the vertical expansion plate 301 and the scroll 302 is subjected to a pulling force in the right direction, under the action of the pulling force, the whole of the vertical expansion plate 301 and the scroll 302 rotate rightwards, meanwhile, the vertical expansion plate 301 stretches due to the pulling force, the clamping plate 303 gradually rotates upwards, the press roller 35 bonds the plastic braid or paper braid below the press roller 35, the fixing frame 34 is driven by the second electric slide block 33 to move leftwards, the fixing frame 34 drives the press roller 35 to move synchronously, the plastic braid or paper braid is gradually bonded under the rolling of the press roller 35, when the press roller 35 approaches the left end of the table 1, the clamping plate 303 is separated from the scroll 302 under the pulling force of the vertical expansion plate 301 which is larger than the torsion force of the torsion spring connected with the clamping plate 303, the plastic or paper braid on the reel 302 is detached from the reel 302, and the press roller 35 continues to move leftward, so that the plastic or paper braid is bonded.

The compacting mechanism 3 can also keep the plastic braid or the paper braid in a tight and flat state on the basis of realizing the basic function of bonding the plastic braid or the paper braid, thereby avoiding the plastic braid or the paper braid from generating folds or shifting, and further greatly improving the packaging quality of the chip components.

Referring to fig. 8, the lower end surface of the front end of the fixing frame 34 is rotatably provided with a side roller 340 through a pin, the side roller 340 is located at the front lower side of the press roller 35, the side roller 340 rotates automatically in the process of synchronously moving leftwards along with the press roller 35, and the side roller 340 can play an auxiliary limiting role in alignment between plastic braids or paper braids so as to avoid the plastic braids or paper braids from finding deflection during bonding.

Referring to fig. 4 and 5, a first vertical plate 320 is installed at the rear end of the pushing end of the second electric push rod 31 at the right end of the connecting plate 32, a second vertical plate 321 for limiting the movement distance of the second electric push rod 31 is disposed under the rear end of the first vertical plate 320, the second vertical plate 321 is installed on the front end surface of the vertical section of the right vertical frame 30 of the connecting plate 32, during the process that the second electric push rod 31 pushes the connecting plate 32 downwards, the first vertical plate 320 moves downwards synchronously, when the first vertical plate 320 contacts the second vertical plate 321, the second electric push rod 31 stops moving, and the pressing roller 35 presses two plastic braids or paper braids just right at this time, and the plastic braids or paper braids at the pressing points are bonded by adhesive, in general: the descending distance of the press roller 35 is limited through the cooperation between the first longitudinal plate 320 and the second longitudinal plate 321, so that the problems that the follow-up press roller 35 presses the chip component excessively to damage the chip component and the like are avoided.

Referring to fig. 6 and 7, the lower end surface of the protruding arc section of the clamping plate 303 and the lower end surface of the homing plate 284 are both provided with a rubber plate layer, the rubber plate layer connected with the clamping plate 303 can increase friction between the clamping plate 303 and the plastic braid or the paper braid, so that the plastic braid or the paper braid is prevented from falling off from the reel 302, and the rubber plate layer connected with the homing plate 284 can play a role in elastically protecting the chip component, so as to avoid the deformation of the upper end surface of the chip component.

Referring to fig. 1, a dust collector 10 is disposed on the right front side of the table 1, the dust collector 10 is located on the front side of the stand 4, the dust collection end of the dust collector 10 is located above the stand 4, the dust collection end of the dust collector 10 is located between two plastic braids or paper braids, the dust collection end of the dust collector 10 is located on the left side of the glue spraying end of the glue spraying machine, and during the leftward conveying of the plastic braids or paper braids with upward surface holes, the cleaning treatment is performed on the plastic braids or paper braids with upward surface holes by the dust collector 10 so as to avoid the impurities being sealed together with the chip components.

When the encapsulation equipment of the chip component works, S1, discharging the chip component: the chip components are sequentially arranged between the L-shaped plates 280 connected with the same back-shaped block 281 from front to back in a manual mode in advance, and the convex blocks 27 are positioned on the front side of the whole chip components.

S2, arranging a plastic braid or a paper braid: the plastic braiding roll or paper braiding roll is integrally sleeved on the fixed shaft 6 in a manual mode, wherein a hole groove on the surface of the plastic braiding roll or paper braiding roll close to the table 1 faces upwards, a hole groove on the surface of the other plastic braiding roll or paper braiding roll faces downwards, then the fixed shaft 6 is driven to rotate through the motor 5, an operator holds the movable end of the plastic braiding roll or paper braiding roll leftwards, the plastic braiding roll or paper braiding roll is in an unreeling state, the plastic braiding or paper braiding with the upward surface hole groove faces leftwards from the upper end of the tape conveying shaft 11 at the lower end of the shaft plate 12, the lower end face of the plastic braiding or paper braiding with the upward surface hole groove contacts the upper end face of the table 1, the plastic braiding or paper braiding with the downward surface hole groove faces leftwards from the upper end of the tape conveying shaft 11 at the upper end of the shaft plate 12, and the plastic braiding or paper braiding is conveyed by being adhered to the front end face of the baffle 20.

Spraying glue: the existing glue spraying machine is arranged on the front side of the vertical frame 4 close to the table 1, the glue spraying end of the glue spraying machine is positioned above the vertical frame 4 close to the table 1, the glue spraying end of the glue spraying machine is positioned between plastic braids or paper braids, during conveying of the plastic braids or paper braids, surface dispensing is carried out on the plastic braids or paper braids with upward surface holes through the glue spraying machine, glue dispensing positions are positioned between adjacent hole grooves, the plastic braids or paper braids with upward surface holes are not conveyed after being conveyed to the left end face of the table 1, the plastic braids or paper braids with downward surface holes are not conveyed after exceeding the left end face of the table 1 by a certain distance, and at the moment, the plastic braids or the paper braids are all positioned between the baffle 20 and the auxiliary baffle rod 21.

Fixing a plastic braid or a paper braid: the clamping plate 303 is manually broken to separate the clamping plate 303 from the scroll 302, then the plastic braid or paper braid with the surface hole slot facing downwards is wound on the scroll 302 from the lower end of the scroll 302, the plastic braid or paper braid with the surface hole slot facing downwards is in a certain tensioning state, then the clamping plate 303 is loosened, the clamping plate 303 rotates, and the convex arc section of the clamping plate 303 compresses the plastic braid or paper braid.

S3, positioning the chip component: the cross arm 23 moves to the rear end of the inverted U-shaped through groove in a manual mode according to a route that the cross arm 23 moves upwards, then horizontally and finally downwards, in the process, the cross arm 23 drives the track strip 24 and the L-shaped plate 280 to synchronously move, during the horizontal backward movement of the cross arm 23, the L-shaped plate 280 and the return-type block 281 are positioned above the table 1, and when the lower end of the return-type block 281 is positioned right above a hole groove on the surface of a plastic braid or a paper braid on the upper end surface of the table 1, the cross arm 23 moves downwards immediately, so that the lower end of the return-type block 281 is positioned in the hole groove.

S4, placing the chip component: the top plate 26 and the protruding block 27 are driven to synchronously move backwards through the electric sliding block, the protruding block 27 pushes the sheet type components backwards until the single sheet type components are lapped between the supporting plates 282 in the return-type block 281, the supporting plates 282 and the whole sheet type components are not enough to enable the torsion springs 283 to twist, the single sheet type components are located right above the hole grooves, then the return plates 284 are pushed downwards through the first electric push rods 285, the return plates 284 push the sheet type components downwards, the supporting plates 282 synchronously rotate downwards, the torsion springs 283 twist until the sheet type components are placed in the hole grooves, the supporting plates 282 are completely located in the mounting grooves, the return plates 284 continue to move downwards to enable the sheet type components to be horizontally placed in the hole grooves, then the return plates 284 return through the first electric push rods 285, the supporting plates 282 synchronously return under the rotation of the torsion springs 283, the cross arms 23 return to the front ends of the reverse U-shaped through grooves in a manual mode, and the return-type blocks 281 return to the original positions.

S5, bonding and packaging: through the second electric push rod 31 pushing the connecting plate 32 downwards, the second electric slide block 33 and the pressing roller 35 move synchronously along with the second electric slide block, when the pressing roller 35 contacts the plastic braid or paper braid with the surface hole slot downwards and continues to move downwards, the whole of the vertical expansion plate 301 and the scroll 302 receives a pulling force in the right direction, under the action of the pulling force, the whole of the vertical expansion plate 301 and the scroll 302 rotates to the right, simultaneously the vertical expansion plate 301 stretches due to the pulling force, the clamping plate 303 gradually rotates upwards, the pressing roller 35 enables the plastic braid or paper braid below the clamping plate to adhere, the fixing frame 34 is driven to move leftwards by the second electric slide block 33, the fixing frame 34 drives the pressing roller 35 to move synchronously, the plastic braid or paper braid is adhered gradually between the pressing roller 35 under the rolling of the pressing roller 35, and when the pressing roller 35 approaches the left end of the table 1, the pulling force of the clamping plate 303 is larger than the torsion force of the torsion spring connected by the clamping plate 303, the clamping plate 303 is separated from the scroll 302, the plastic braid or paper braid on the scroll 302 is separated from the scroll 302, the pressing roller 35 continues to move leftwards, and the plastic braid or paper braid is adhered, and a piece type braid is packaged.

S6, cutting after packaging: after the bonding treatment is finished, an operator takes down the plastic braid or paper braid fixed through the compacting mechanism 3, then pulls the bonded plastic braid or paper braid leftwards, during pulling, the bonded plastic braid or paper braid cannot scatter until the unbonded part of the plastic braid or paper braid with the surface hole slot upwards is conveyed to the left end face of the table 1, then cuts the plastic braid or paper braid with the surface hole slot upwards by means of the cutting tool, and after the plastic braid or paper braid with the surface hole slot downwards continues to be conveyed leftwards for a certain distance, the plastic braid or paper braid is cut by the cutting tool, then fixes the left end of the plastic braid or paper braid by the compacting mechanism 3, and then the packaging treatment of the next batch of chip components is finished according to the operation mode.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a piece formula components and parts's encapsulation equipment, includes platform table (1), placement machine constructs (2), compaction mechanism (3), grudging post (4), motor (5) and fixed axle (6), its characterized in that: the novel belt conveying table is characterized in that the table (1) is arranged on the ground, a placement mechanism (2) is arranged at the upper end of the table (1), a compacting mechanism (3) is arranged above the table (1), the stand (4) is located on the right side of the table (1), the stand (4) is arranged on the ground, the stand (4) is symmetrically distributed left and right, a motor (5) is arranged at the upper end of the stand (4), a fixed shaft (6) is arranged at the output shaft of the motor (5), a shaft plate (12) for fixing a belt conveying shaft (11) is symmetrically arranged front and back at the right end surface of the table (1), and the belt conveying shaft (11) is vertically distributed and is rotationally connected with the shaft plate (12);

the placement mechanism (2) comprises a baffle plate (20), an auxiliary baffle plate (21), a plate block (22), a cross arm (23), a track bar (24), a first electric sliding block (25), a top plate (26), a lug (27) and a placement unit (28), wherein the baffle plate (20) is arranged at the rear end of the upper end face of the table (1), the left end of the front end face of the baffle plate (20) is provided with the auxiliary baffle plate (21) with an inverted L-shaped structure, the plate block (22) is symmetrically arranged at the front end face of the table (1), the side end of the plate block (22) is provided with an inverted U-shaped through groove, the front end of the inverted U-shaped through groove is connected with the cross arm (23) in a sliding manner, the rear end face of the cross arm (23) is symmetrically provided with the track bar (24), the track bar (24) is arranged on the right side of the auxiliary baffle plate (21), the track bar (24) is arranged above the table (1), the upper end of the track bar (24) is provided with the first electric sliding block (25), the upper end face of the first electric sliding block (26) is connected between the upper end of the first electric sliding block (25), the side face of the first electric sliding block (25) is provided with the lower end face (26), and the lower end face of the lug (27) is arranged at the lower end of the table (27) is arranged at the same distance from the lower end of the table (27) to the upper end of the table unit (28), and the lower end of the lug (27) is placed at equal distance from the upper end of the table unit (27);

Placing unit (28) including L template (280), return type piece (281), backup pad (282), torsional spring (283), return board (284), electric putter (285) and pole frame (286) No. one, every lug (27) left and right sides all distributes L template (280), L template (280) are installed at the rear end face of cross arm (23), return type piece (281) have been arranged directly behind lug (27), the spread groove has been seted up to the front end of returning type piece (281), the diapire of spread groove and the lower terminal surface fixed connection of L template (280), install recess has been seted up to the back inside wall bilateral symmetry of returning type piece (281), install backup pad (282) through the round pin axle rotation between the inside wall about the installation recess, the cover is equipped with torsion spring (283) that are used for connecting backup pad (282) side end and mounting recess lateral wall, return type piece (281) have been arranged directly over return board (284), the upper end of returning type piece (284) is connected with the left end face of falling type structure (286) on the left end face of the vertical pole frame (281) of returning type piece (281) through electric putter (281).

2. A packaging apparatus for chip components as defined in claim 1, wherein: the compaction mechanism (3) comprises a vertical frame (30), a second electric push rod (31), a connecting plate (32), a second electric slide block (33), a fixing frame (34) and a pressing roller (35), wherein the vertical frame (30) with an inverted L-shaped structure is symmetrically arranged on the upper end face of a table (1) left and right, the vertical frame (30) is positioned on the rear side of a baffle plate (20), the second electric push rod (31) is arranged on the horizontal section of the vertical frame (30), the connecting plate (32) is connected between the lower ends of the second electric push rod (31), the fixing frame (34) is arranged at the lower end of the connecting plate (32) through the second electric slide block (33), the pressing roller (35) is rotatably arranged at the lower end of the fixing frame (34) through a pin shaft, the left end of the vertical frame (30) with an extension plate (300), the left front end of the extension plate (300) is rotatably provided with a vertical expansion plate (301) through the pin shaft front and back, a scroll (302) is arranged between the lower ends of the vertical expansion plate (301), the scroll (302) is positioned above the table (1), the scroll (302) is positioned at the upper end of the table (302) and the scroll (303) is in an arc-shaped structure, the scroll (303) is arranged at the lower end of the scroll (303) is rotatably arranged at the left end of the scroll (301) of the scroll plate), torsional springs are symmetrically connected to the front and back of the lower end of the clamping plate (303), the torsional springs are sleeved on pin shafts connected with the clamping plate (303), and the middle of the vertical expansion plate (301) is of an elastic expansion structure.

3. A packaging apparatus for chip components as claimed in claim 2, wherein: the lower end face of the front end of the fixing frame (34) is rotatably provided with an edge roller (340) through a pin shaft, and the edge roller (340) is positioned at the front lower part of the press roller (35).

4. A packaging apparatus for chip components as claimed in claim 2, wherein: the rear end of the pushing end of the second electric push rod (31) at the right end of the connecting plate (32) is provided with a first longitudinal plate (320), a second longitudinal plate (321) used for limiting the movement distance of the second electric push rod (31) is arranged right below the rear end of the longitudinal plate, and the second longitudinal plate (321) is arranged on the front end face of the vertical section of the right vertical frame (30) of the connecting plate (32).

5. A packaging apparatus for chip components as defined in claim 1, wherein: the dust collector (10) is arranged on the right front side of the table (1), the dust collector (10) is positioned on the front side of the vertical frame (4), and the dust collection end of the dust collector (10) is positioned above the vertical frame (4).

6. A packaging apparatus for chip components as defined in claim 1, wherein: a placing groove is formed in the side end, facing the protruding block (27), of the vertical section of the L-shaped plate (280), and a rolling shaft (287) in a vertical state is installed in the placing groove in a rotating mode from front to back equidistantly through a pin shaft.

7. A packaging apparatus for chip components as claimed in claim 2, wherein: the lower end face of the convex arc section of the clamping plate (303) and the lower end face of the homing plate (284) are both provided with rubber plate layers.

8. A packaging apparatus for chip components as defined in claim 1, wherein: the front inner side wall of the square block (281) is provided with a vertical groove, and a shaft lever (288) for reducing friction is rotatably arranged between the left inner side wall and the right inner side wall of the vertical groove through a pin shaft.

9. A packaging apparatus for chip components as defined in claim 1, wherein: the lower end face of the square block (281) is provided with a sponge strip (289) with a square structure.

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