CN114313369A - Encapsulation equipment for chip component - Google Patents

Abstract

The invention relates to the field of packaging of chip components, in particular to packaging equipment of chip components, which comprises a table, a placing mechanism, a compacting mechanism, a vertical frame, a motor and a fixed shaft, the table is arranged on the ground, the placing mechanism is arranged at the upper end of the table, the compacting mechanism is arranged above the table, the vertical frame is positioned at the right side of the table and is arranged on the ground, the vertical frames are symmetrically arranged under the action of the ground, the motor is arranged at the upper end of the vertical frame, the output shaft of the motor is provided with the fixed shaft, the placing mechanism can guide and limit the conveying of the plastic braid, so as to ensure the horizontal degree of the plastic braids or the paper braids, ensure the plastic braids or the paper braids to be aligned in the positive direction, and during the bonding of the plastic braid or the paper braid, the placing mechanism can also prevent the plastic braid or the paper braid from deviating, so that the packaging quality of the chip component is improved.

Description

Encapsulation equipment for chip component

Technical Field

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

Background

The chip component is a novel tiny component without a lead or a short lead, the packaging form of the chip component mainly adopts a braid packaging form, the braids used for the braid packaging mainly comprise two types, namely a paper tape and a plastic tape, the braid packaging means that the chip component is only installed into a paper braid or a plastic braid hole groove one by one according to a certain direction, and then a layer of paper braid or a plastic braid is pasted for packaging.

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

Firstly, the hole groove quantity on a single plastic braid or paper braid surface is more, and chip components and parts's volume is less, when encapsulating chip components and parts, takes the whole inefficiency of the artifical mode of placing chip components and parts one by one, and the workman need repeat the operation the same many times.

And secondly, the manual placement easily causes the butting between the chip component and the hole slot to have deviation, and the whole packaging effect is influenced.

And thirdly, the plastic braid or the paper braid has low integral flatness, and the braid is easy to deform such as folds and the like.

Fourth, the butt joint between the plastic or paper braids is prone to be deviated, i.e. there is a misalignment condition, and the plastic or paper braids are prone to shift during the bonding process, so that the overall quality of the package is reduced.

Disclosure of Invention

In order to solve the technical problem, the invention provides encapsulation equipment for a chip component, which comprises a table, a placing mechanism, a compacting mechanism, a vertical frame, a motor and a fixed shaft, wherein the table is placed on the ground, the placing mechanism is arranged at the upper end of the table, the compacting mechanism is arranged above the table, the vertical frame is positioned on the right side of the table, the vertical frame is arranged on the ground, the vertical frame is arranged in a bilateral symmetry mode, the motor is arranged at the upper end of the vertical frame, the fixed shaft is arranged at an output shaft of the motor, shaft plates for fixing a belt conveying shaft are symmetrically arranged in the front and at the back of the right end face of the table, the belt conveying shaft is arranged in the up and down mode, and the belt conveying shaft is rotatably connected with the shaft plates.

The placing mechanism comprises a partition plate, an auxiliary stop lever, a plate, a cross arm, a track strip, an electric slider, a top plate, a convex block and a placing unit, the partition plate is arranged at the rear end of the upper end surface of the table, the auxiliary stop lever which is of an inverted L-shaped structure is arranged at the left end of the front end surface of the partition plate, the plate is bilaterally symmetrically arranged on the front end surface of the table, an inverted U-shaped through groove is formed in the side end of the plate, the cross arm is slidably connected between the front ends of the inverted U-shaped through groove, the track strip is symmetrically arranged at the left end surface of the rear end surface of the cross arm, the track strip is positioned on the right side of the auxiliary stop lever, the track strip is positioned above the table, the electric slider is arranged at the upper end of the track strip, the top plate is connected between the upper ends of the electric sliders, the convex block is arranged on the lower end surface of the top plate in an equal distance from left to right, the lower end surface of the top plate is provided with the placing unit, the lower end surface of the placing unit is in contact with the upper end surface of the table

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

During the conveying of the plastic or paper braids, surface glue dispensing is carried out on the plastic or paper braids with the upward surface hole grooves through a glue spraying machine, glue dispensing positions are located between the adjacent hole grooves, the plastic or paper braids with the upward surface hole grooves are not conveyed after being conveyed to the left end face of the table, so that the placing units correspond to the hole grooves one by one, the plastic or paper braids with the downward surface hole grooves do not convey after exceeding the left end face of the table for a certain distance, so that the plastic or paper braids can be clamped through a compaction mechanism, enough length is reserved for the subsequent adhesion between the plastic or paper braids, at the moment, the plastic or paper braids are located between the partition plate and the auxiliary baffle rod, and then the left ends of the plastic or paper braids with the downward surface hole grooves are fixed through a compaction mechanism.

The chip components are sequentially arranged on the placing unit from front to back in advance through a manual mode, the protruding blocks are located on the front side of the whole chip components, after the arrangement of the plastic braid or the paper braid is completed, the cross arm is moved to the rear end of the inverted U-shaped through groove through a manual mode according to a route of upwards firstly, then horizontally and finally downwards, in the process, the cross arm drives the track strip and the placing unit to move synchronously, the placing unit is located above the table during the horizontal backwards movement of the cross arm, when the rear end of the placing unit is located right above the hole groove on the surface of the plastic braid or the paper braid on the upper end surface of the table, the cross arm immediately moves downwards, the rear end of the placing unit is placed in the hole groove, then the top plate and the protruding blocks are driven to move backwards synchronously through the electric sliding blocks, the protruding blocks push the chip components backwards until the single chip components are located at the rear end of the placing unit, namely the single chip components are located right above the hole groove, then, the chip component is placed into the hole groove through the placing unit, then the cross arm returns to the front end of the inverted U-shaped through groove according to the original route in a manual mode, the placing unit is separated from the plastic braid or the paper braid, then the plastic braid or the paper braid is bonded through the compacting mechanism, and the chip component is packaged.

After the bonding treatment is finished, an operator takes off the plastic braid or the paper braid fixed by the compacting mechanism, then pulls the bonded plastic braid or the paper braid leftwards, the bonded plastic braid or the paper braid cannot scatter during the pulling process until the unbonded part of the plastic braid or the paper braid with the surface hole grooves facing upwards is conveyed to the left end face of the table, then the plastic braid or the paper braid with the surface hole grooves facing upwards is cut by a cutting tool, the plastic braid or the paper braid with the surface hole grooves facing downwards is continuously conveyed leftwards for a certain distance, then the plastic braid or the paper braid is cut by the cutting tool, the left end of the plastic braid or the paper braid is fixed by the compacting mechanism, and then the packaging treatment of the next batch of chip components is finished according to the operation mode.

The unit of placing include the L template, return the type piece, a supporting plate, the torsional spring, the playback board, an electric putter and a pole frame, it has the L template to distribute equally to every lug left and right sides, the rear end face at the cross arm is installed to the L template, return the type piece has been arranged to the positive rear of lug, the spread groove has been seted up to the front end of returning the 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 the 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 joint support side and mounting groove lateral wall about the round pin axle in the mounting groove, the playback board has been arranged directly over the type piece, the upper end of playback board is connected with the pole frame that is the type structure of falling through an electric putter, the up end left end at the type piece is installed to the vertical section of pole frame.

The sheet components are sequentially arranged between L-shaped plates connected with the same shaping block from front to back in advance through a manual mode, a convex block is positioned on the front side of the whole sheet component, after the arrangement of a plastic braid or a paper braid is finished, the plastic braid or the paper braid laid on the upper end surface of a table is positioned on the rear side of a shaping block, a cross arm is moved to the rear end of an inverted U-shaped through groove along a route of firstly upwards, then horizontally, then sequentially and finally downwards, in the process, the cross arm drives a track strip and an L-shaped plate to synchronously move, the L-shaped plate and the shaping block are both positioned above the table during the horizontal backward movement of the cross arm, when the lower end of the shaping block is positioned right above a plastic braid or a paper braid surface hole groove on the upper end surface of the table, the cross arm immediately moves downwards, the lower end of the shaping block is placed in the hole groove, and then an electric slide block drives a top plate and the convex block to synchronously move backwards, the lug pushes the chip component backwards until the single chip component is overlapped between the support plates in the reverse U-shaped block, the weight of the support plates and the whole chip component is not enough to enable the torsion spring to be twisted, at the moment, the single chip component is positioned right above the hole groove, then the homing plate is pushed downwards through an electric push rod, the homing plate presses the chip component downwards, the support plates synchronously rotate downwards, the torsion spring is twisted until the chip component is arranged in the hole groove, at the moment, the support plates are completely positioned in the mounting grooves, the homing plate continues to move downwards to enable the chip component to be flatly arranged in the hole groove, then the homing plate is returned through the electric push rod, the support plates synchronously return under the rotation of the torsion spring, the cross arm returns to the front end of the reverse U-shaped through groove according to the original route in a manual mode, the reverse U-shaped block returns to the original position, and then the plastic braid or paper braid is bonded through the compaction mechanism, and the chip components are packaged, and then the packaging of the next batch of chip components is completed according to the operation mode.

The first preferred technical scheme is as follows: the compaction mechanism comprises a vertical frame, a second electric push rod, a connecting plate, a second electric slider, a fixing frame and a compression roller, wherein the vertical frame in an inverted L-shaped structure is arranged on the upper end surface of the table in a bilateral symmetry manner, the vertical frame is positioned on the rear side of the baffle, the second electric push rod is arranged at the horizontal section of the vertical frame, the connecting plate is connected between the lower ends of the second electric push rods, the fixing frame is arranged at the lower end of the connecting plate through the second electric slider, the compression roller is rotatably arranged at the lower end of the fixing frame through a pin shaft, an extension plate is arranged at the left end of the vertical frame on the left side of the baffle, a vertical expansion plate is rotatably arranged at the left front end of the extension plate in a front-back symmetry manner through a pin shaft, a scroll is arranged between the lower ends of the vertical expansion plates, the scroll is positioned above the table, a clamping plate with an outer convex arc structure at the upper end is clamped at the upper end of the scroll, the lower end of the clamping plate is in a vertical structure and is positioned on the left side of the scroll, the lower end of the clamping plate is rotatably installed between the lower ends of the vertical expansion plates through a pin shaft, the lower end of the clamping plate is symmetrically connected with torsion springs in the front and back directions, the torsion springs are sleeved on the pin shaft connected with the clamping plate, and the middle of each vertical expansion plate is of an elastic expansion structure.

The plastic braid or the paper braid with the surface hole grooves facing downwards is conveyed leftwards from the upper end of a conveying shaft at the upper end of a shaft plate through manual work and matching with a motor, after the plastic braid or the paper braid with the surface hole grooves facing downwards exceeds the left end surface of a table for a certain distance, the motor stops working, then the clamping plate is manually pulled to separate the clamping plate from a scroll, the plastic braid or the paper braid with the surface hole grooves facing downwards is wound on the scroll from the lower end of the scroll upwards, the plastic braid or the paper braid with the surface hole grooves facing downwards is in a certain tensioning state, then the clamping plate is loosened and rotated, the plastic braid or the paper braid is tightly pressed by an outer arc section of the clamping plate, after the chip component is placed in the hole groove and the placing unit returns to the original position, the connecting plate is pushed downwards through a second electric push rod, a second electric sliding block and a compression roller synchronously move along with the second electric sliding block, and the compression roller continue to move downwards after the plastic braid or the compression roller contacts the plastic braid or the surface hole grooves facing downwards, vertical expansion plate and spool wholly receive the right power of drawing of direction, under the effect of this pulling force, vertical expansion plate and spool wholly rotate right, vertical expansion plate extends because of receiving the power of drawing simultaneously, the cardboard upwards rotates gradually, the compression roller makes bonding back between its below plastics braid or the paper braid, drive the mount through No. two electric sliding block and move left, the mount drives compression roller synchronous motion, under the roll extrusion of compression roller, plastics braid or paper braid are progressively bonded between, when the compression roller is close the left end of desk, make the cardboard receive the tensile power of vertical expansion plate this moment and be greater than the torsional force of the torsion spring that the cardboard links, cardboard and spool are from each other, plastics braid or the paper braid on the spool breaks away from the spool, the compression roller continues to move left, plastics braid or paper braid accomplish the bonding.

The compaction mechanism can 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, so that the plastic braid or the paper braid is prevented from generating wrinkles or shifting, and the packaging quality of the chip component is greatly improved.

The preferred technical scheme is as follows: the utility model discloses a plastic braided strap or paper braided strap, including mount, side roller, compression roller, side roller, the mount front end under the terminal surface rotate through the round pin axle and install the limit roller, the limit roller is located the front lower place of compression roller, the in-process that the limit roller moved left along with the compression roller is synchronous, it is from rotating, the limit roller can play supplementary spacing effect to the alignment between the plastic braided strap or the paper braided strap to avoid plastic braided strap or paper braided strap to discover the skew during the bonding.

The preferred technical scheme is three: no. two electric putter of connecting plate right-hand member promote the rear end of end and install a vertical plate, arrange under a vertical plate rear end and be used for carrying on No. two spacing vertical plates to No. two electric putter's movement distance, No. two vertical plates are installed and are erected the preceding terminal surface of the vertical section of frame on connecting plate right side, during promoting the connecting plate downwards through No. two electric putter, a vertical plate is synchronous downstream, after No. two vertical plates of vertical plate contact, No. two electric putter stop motion, the compression roller this moment just in time compresses tightly two plastics braid or paper braid, bond through the binder between the plastics braid or the paper braid of suppression punishment department, it is in general exactly: the down distance of the compression roller is limited through the matching between the first longitudinal plate and the second longitudinal plate, so that the problems that the follow-up compression roller excessively compresses the chip components to cause the chip components to be damaged and the like are solved.

The preferable technical scheme is four: the right front side of table be arranged with the dust catcher, the dust catcher is located the front side of grudging post, and the dust absorption end of dust catcher is located the top of grudging post, and the dust absorption end of dust catcher is located between two plastics braids or paper braids, and the dust absorption end of dust catcher is located the left side of spouting gluey end of spouting the machine of glue, and during plastics braids or paper braids that surface pore groove is up are carried left, carry out cleaning process to plastics braids or paper braids that surface pore groove is up through the dust catcher to avoid impurity along with piece formula components and parts to be sealed together.

The preferred technical scheme is five: the L-shaped plate vertical section is provided with a placing groove facing the side end of the lug, the rolling shaft in a vertical state is rotatably installed in the placing groove at equal intervals from front to back through the pin shaft, during the lug pushes the chip component backwards, rolling friction is generated between the chip component and the rolling shaft, the motion resistance of the chip component is reduced, and meanwhile, the abrasion degree of the edge of the chip component is reduced.

The preferred technical scheme is six: the lower terminal surface of the outer convex arc section of the clamping plate and the lower terminal surface of the return plate are both provided with plate layers made of rubber, the plate layers made of rubber connected with the clamping plate can increase the friction between the clamping plate and a plastic braid or a paper braid, so that the plastic braid or the paper braid is prevented from falling off from a reel, and the plate layers made of rubber connected with the return plate can play a role in elastic protection on the chip components, so that the upper terminal surfaces of the chip components are prevented from deforming and the like.

The preferred technical scheme is seven: the utility model discloses a return type piece, including the piece, the piece is pressed down to the piece and is moved piece type component, the piece is pressed down to the playback board, the piece is pressed down to the piece and is moved piece type component, the piece is moved piece type component and axostylus axostyle and is moved piece type component's down resistance to motion and is reduced.

The preferred technical scheme is eight: the lower terminal surface of returning the type piece install the sponge strip that is the type structure of returning, the purpose that sets up the sponge strip is: the inner bottom wall of the hole groove on the surface of the plastic braid or the paper braid is prevented from being damaged or deformed by the return block.

The invention has the following beneficial effects: 1. according to the packaging equipment for the chip component, the placing mechanism can guide and limit the conveying of the plastic braid so as to ensure the horizontal degree of the plastic braid or the paper braid, so that the plastic braid or the paper braid is aligned in the forward direction, and the placing mechanism can prevent the plastic braid or the paper braid from being deviated during the bonding of the plastic braid or the paper braid, so that the packaging quality of the chip component is improved.

2. The placing unit has the functions of clamping and fixing a plurality of chip components simultaneously and automatically placing and supplying the chip components, under the condition of utilizing the functions, the synchronous placing of the plurality of chip components into the hole grooves of the plastic braid or the paper braid can be realized, the manual one-by-one placing of the chip components is not needed, the integral working efficiency is greatly improved, and meanwhile, the placing unit performs guide assistance on the butt joint between the chip components and the surface hole grooves of the plastic woven bag or the paper braid so as to ensure the forward butt joint between the chip components and the hole grooves.

3. The compaction mechanism can 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, so that the plastic braid or the paper braid is prevented from being folded or deviated, and the packaging quality of the chip component is greatly improved.

4. The edge rollers of the present invention may act as an additional limit to the alignment between the plastic or paper braids to prevent the plastic or paper braids from finding a shift during bonding.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of a three-dimensional structure of the present invention with a chip component placed thereon.

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

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

Fig. 4 is a schematic perspective sectional view of a part of the structure of fig. 2.

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

Fig. 6 is an enlarged view of the reference symbol 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 reel and the limiting rod.

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

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

Fig. 10 is a schematic perspective view of the plate, the cross arm, the track bar, the first electric slider, the top plate and the bump.

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

In the figure: 1. a table; 2. a placement mechanism; 3. a compaction mechanism; 4. erecting a 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 block; 23. a cross arm; 24. a track bar; 25. a first electric slide block; 26. a top plate; 27. a bump; 28. a placing unit; 280. an L-shaped plate; 281. a molding 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 roll axis; 288. a shaft lever; 289. a sponge strip; 30. erecting; 31. a second electric push rod; 32. a connecting plate; 320. a first longitudinal plate; 321. a second longitudinal plate; 33. a second electric slide block; 34. a fixed mount; 340. a side roller; 35. a compression roller; 300. an extension plate; 301. a vertical expansion plate; 302. a reel; 303. and (4) clamping the board.

Detailed Description

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

Referring to fig. 1, 2, 3 and 4, the encapsulating device for the chip component comprises a table 1, a placing mechanism 2, a compacting mechanism 3, a vertical frame 4, a motor 5 and a fixing shaft 6, wherein the table 1 is placed on the ground, the placing mechanism 2 is arranged at the upper end of the table 1, the compacting mechanism 3 is arranged above the table 1, the vertical frame 4 is located on the right side of the table 1, the vertical frame 4 is installed on the ground, the vertical frame 4 is symmetrically arranged in the left-right direction, the motor 5 is installed at the upper end of the vertical frame 4, the fixing shaft 6 is installed on an output shaft of the motor 5, a shaft plate 12 for fixing a belt conveying shaft 11 is symmetrically installed in the front-back direction of the right end face of the table 1, the belt conveying shaft 11 is arranged in the up-down direction, and the belt conveying shaft 11 is rotatably connected with the shaft plate 12.

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

Referring to fig. 1, the existing glue sprayer is installed at the front side of the vertical frame 4 close to the table 1, the glue spraying end of the glue sprayer is located above the vertical frame 4 close to the table 1, the plastic or paper braid roll is integrally clamped and sleeved on the fixed shaft 6 by a manual mode, wherein the hole groove on the surface of the plastic or paper braid roll close to the table 1 is upward, the hole groove on the surface of the other plastic or paper braid roll is downward, then the fixed shaft 6 is driven to rotate by the motor 5, meanwhile, an operator pulls the movable end of the plastic or paper braid roll leftward, the plastic or paper braid roll is in an unwinding state, the plastic or paper braid roll with the hole groove upward on the surface is conveyed leftward from the upper end of the lower end belt conveying shaft 11 of the shaft plate 12, the lower end surface of the plastic or paper braid roll with the hole groove upward on the surface contacts the upper end surface of the table 1, the plastic or paper braid roll with the hole groove downward is conveyed leftward from the upper end of the belt conveying shaft 11 of the shaft plate 12, the glue spraying end of the glue spraying machine is positioned between the plastic braids or the paper braids, and the plastic braids or the paper braids are conveyed along the front end face of the baffle 20.

During the conveying of the plastic braid or the paper braid, surface glue dispensing is carried out on the plastic braid or the paper braid with the upward surface hole grooves through a glue spraying machine, glue dispensing positions are located between adjacent hole grooves, the plastic braid or the paper braid with the 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 correspond to the hole grooves one by one, the plastic braid or the paper braid with the downward surface hole grooves exceeds the left end face of the table 1 for a certain distance and is not conveyed, the plastic braid or the paper braid can be clamped through the compacting mechanism 3, enough length is reserved for the subsequent bonding between the plastic braid or the paper braid, at the moment, the plastic braid or the paper braid is located between the partition plate 20 and the auxiliary baffle rod 21, and then the left end of the plastic braid or the paper braid with the downward surface hole grooves is fixed through the compacting mechanism 3.

The chip components are sequentially arranged on the placing unit 28 from front to back in advance through a manual mode, the bump 27 is located on the front side of the whole chip component, after the arrangement of the plastic braid or the paper braid is completed, the cross arm 23 is manually moved to the rear end of the inverted U-shaped through groove along a route of firstly upwards, then horizontally and finally downwards, in the process, the cross arm 23 drives the rail strip 24 and the placing unit 28 to synchronously move, during the horizontal and backward movement of the cross arm 23, the placing unit 28 is located above the table 1, when the rear end of the placing unit 28 is located right above a hole groove on the surface of the plastic braid or the paper braid on the upper end surface of the table 1, the cross arm 23 immediately moves downwards, the rear end of the placing unit 28 is placed in the hole groove, then the electric slide block top plate drives the bump 26 and the bump 27 to synchronously move backwards, the bump 27 pushes the chip component backwards until the single chip component is located at the rear end of the placing unit 28, that is, a single chip component is located right above the hole groove, and then the chip component is placed into the hole groove through the placing unit 28, and then the cross arm 23 is returned to the front end of the inverted U-shaped through groove according to the original route through a manual mode, the placing unit 28 is separated from the plastic braid or the paper braid, and then the plastic braid or the paper braid is bonded through the compacting mechanism 3, and the chip component is packaged.

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

The baffle 20 and the auxiliary baffle rod 21 arranged in the placing mechanism 2 can integrally convey the plastic braid to play a role in guiding and limiting, so that the horizontal levelness of the plastic braid or the paper braid is ensured, the plastic braid or the paper braid is aligned in the forward direction, the plastic braid or the paper braid can be prevented from being deviated during the bonding of the plastic braid or the paper braid, and the packaging quality of the chip component is improved.

Referring to fig. 3, 5, 6, 9, 10 and 11, the placing unit 28 includes an L-shaped plate 280, a square-shaped block 281, a supporting plate 282, a torsion spring 283, a return plate 284, a first electric push rod 285 and a rod frame 286, the L-shaped plate 280 is evenly distributed on the left and right sides of each protruding block 27, the L-shaped plate 280 is installed on the rear end surface of the cross arm 23, the square-shaped block 281 is arranged right behind the protruding block 27, a connecting groove is formed in the front end of the square-shaped block 281, the bottom wall of the connecting groove is fixedly connected with the lower end surface of the L-shaped plate 280, installation grooves are symmetrically formed in the rear inner side wall of the square-shaped block 281 in the left and right directions, the supporting plate 282 is rotatably installed between the left and right inner side walls of the installation grooves by a pin shaft, the torsion spring 283 is sleeved on the left and right ends of a pin shaft in the installation grooves and used for connecting the side end of the supporting plate 282 with the side wall of the installation grooves, the return plate 284 is arranged right above the square-shaped block 281, the upper end of the return plate 284 is connected with the rod frame 286 in an inverted L-shaped structure by the first electric push rod 285, the vertical section of the pole bracket 286 is mounted on the upper end left end of the swage block 281.

Manually arranging the chip components between the L-shaped boards 280 connected with the same returning block 281 from front to back in sequence, arranging the convex block 27 at the front side of the whole chip component, after arranging the plastic braid or the paper braid, arranging the plastic braid or the paper braid laid on the upper end surface of the table 1 at the rear side of the returning block 281, manually moving the cross arm 23 to the rear end of the inverted U-shaped through groove along a path of firstly moving upwards, then horizontally, successively and finally moving downwards, in the process, the cross arm 23 drives the track strip 24 and the L-shaped board 280 to synchronously move, during the horizontal backward movement of the cross arm 23, the L-shaped board 280 and the returning block 281 are both positioned above the table 1, when the lower end of the returning block 281 is positioned right above the surface hole groove of the plastic braid or the paper braid at the upper end surface of the table 1, the cross arm 23 immediately moves downwards, so that the lower end of the returning block 281 is positioned in the hole groove, and then driving the top plate 26 and the convex block 27 to synchronously move backwards through the electric slide block, the bump 27 pushes the chip component backwards until the single chip component is placed between the supporting plates 282 in the clip block 281, the weight of the supporting plates 282 and the whole chip component is not enough to make the torsion spring 283 twist, at this time, the single chip component is located right above the hole slot, then the homing plate 284 is pushed downwards by the first electric push rod 285, the homing plate 284 presses the chip component downwards, the supporting plates 282 synchronously rotate downwards, the torsion spring 283 twists in the direction until the chip component is placed in the hole slot, at this time, the supporting plates 282 are completely located in the installation groove, the homing plate 284 continues to move downwards to make the chip component placed horizontally in the hole slot, then the homing plate 284 is returned by the first electric push rod 285, the supporting plates 282 synchronously return under the rotation of the torsion spring 283, the cross arm 23 returns to the front end of the inverted U-shaped through slot according to the original route by a manual mode, the clip block 281 returns to the original position, and then the plastic braids or the paper braids are bonded through the compacting mechanism 3, the chip components are packaged, and then the packaging of the next batch of chip components is completed according to the operation mode.

Place unit 28 and possess a plurality of chip components and parts of clamping simultaneously, the automation of chip components and parts is put into and the function of supply, under the circumstances that utilizes this function, can realize that a plurality of chip components and parts put into the hole groove of plastic braid or paper braid in step, and need not the manual work and place chip components and parts one by one, and then make whole work efficiency obtain very big improvement, it is supplementary to place the butt joint between unit 28 and the plastic woven sack or the paper braid surface hole groove to place the direction simultaneously, in order to guarantee forward butt joint between chip components and parts and the hole groove.

Referring to fig. 9, a placing groove is formed in a side end, facing the protruding block 27, of the vertical section of the L-shaped board 280, a rolling shaft 287 in a vertical state is rotatably installed in the placing groove at equal intervals from front to back through a pin shaft, and during the period that the protruding block 27 pushes the chip component backwards, rolling friction is generated between the chip component and the rolling shaft 287, so that the motion resistance of the chip component is reduced, and meanwhile, the degree of abrasion of the edge of the chip component is reduced.

Referring to fig. 6, a vertical groove is formed in the front inner side wall of the die block 281, a shaft rod 288 for reducing friction is rotatably installed 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 supporting plate 282 is made of an elastic material, the front end of the supporting plate 282 is lapped on the upper end of the shaft rod 288 at the uppermost end of the vertical groove, rolling friction occurs between the chip component and the shaft rod 288 during the period that the reset plate 284 presses the chip component downwards, and the resistance of the chip component to downward movement is reduced.

Referring to fig. 6, the lower end surface of the clip block 281 is provided with a sponge strip 289 in a clip structure, and the purpose of the sponge strip 289 is as follows: the inner bottom wall of the pore groove on the surface of the plastic braid or the paper braid is prevented from being damaged or deformed by the swage block 281.

Referring to fig. 1, 3, 4, 5 and 7, the compacting mechanism 3 includes a vertical frame 30, a second electric push rod 31, a connecting plate 32, a second electric slider 33, a fixing frame 34 and a press roller 35, the vertical frame 30 in an inverted L-shaped structure is symmetrically installed on the upper end surface of the table 1 from left to right, the vertical frame 30 is located at the rear side of the baffle plate 20, the second electric push rod 31 is installed 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 installed at the lower end of the connecting plate 32 through the second electric slider 33, the press 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 on the left side of the baffle plate 20, vertical extension plates 301 are rotatably installed at the front and rear ends of the extension plate 300 through a pin shaft, a scroll 302 is installed between the lower ends of the vertical extension plates 301, the scroll 302 is located above the table 1, the upper end joint of spool 302 has the cardboard 303 that the upper end is evagination circular arc structure, and the lower extreme of cardboard 303 is vertical structure and its left side that is located spool 302, and the lower extreme of cardboard 303 rotates through the round pin axle and installs between the lower extreme of vertical expansion plate 301, and symmetrical connection has torsion spring around the lower extreme of cardboard 303, and the torsion spring cover is established at the round pin epaxial that cardboard 303 links, and the middle part of vertical expansion plate 301 is elastic telescopic structure.

The plastic braid or the paper braid with the surface hole groove facing downwards is manually conveyed leftwards from the upper end of a belt conveying shaft 11 at the upper end of a shaft plate 12 by matching with a motor 5, after the plastic braid or the paper braid with the surface hole groove facing downwards exceeds the left end surface of a table 1 for a certain distance, the motor 5 stops working, then the clamping plate 303 is manually pulled to separate the clamping plate 303 from a scroll 302, the plastic braid or the paper braid with the surface hole groove facing downwards is wound on the scroll 302 from the lower end of the scroll 302 upwards, the plastic braid or the paper braid with the surface hole groove facing downwards is in a certain tensioning state, then the clamping plate 303 is loosened, the clamping plate 303 rotates around, the outer convex arc section of the clamping plate 303 compresses the plastic braid or the paper braid, after the sheet component is placed in the hole groove and the placing unit 28 returns to the original position, the connecting plate 32 is pushed downwards by the second electric push rod 31, and the second electric slide blocks 33 and 35 synchronously move along with the same, when the pressing roller 35 contacts the plastic braid or the paper braid with the surface hole groove facing downwards and continues to move downwards, the vertical expansion plate 301 and the scroll 302 are integrally subjected to a pulling force in a right direction, under the action of the pulling force, the vertical expansion plate 301 and the scroll 302 integrally rotate in a right direction, meanwhile, the vertical expansion plate 301 is extended due to the pulling force, the clamping plate 303 gradually rotates upwards, after the plastic braid or the paper braid below the pressing roller 35 is bonded by the pressing roller 35, the fixing frame 34 is driven by the second electric slider 33 to move leftwards, the fixing frame 34 drives the pressing roller 35 to synchronously move, under the rolling action of the pressing roller 35, the plastic braid or the paper braid is gradually bonded, when the pressing roller 35 approaches the left end of the table 1, the force of the pulling force of the vertical expansion plate 301 on the clamping plate is larger than the torsional force of a torsional spring connected with the clamping plate 303, the clamping plate 303 is separated from the scroll 302, and the plastic braid or the paper braid on the scroll 302 is separated from the scroll 302, the press roller 35 continues to move to the left and the plastic or paper braid is finished bonding.

The compacting mechanism 3 can 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, so that the plastic braid or the paper braid is prevented from generating wrinkles or shifting, and the packaging quality of the chip component is greatly improved.

Referring to fig. 8, 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, the edge roller 340 is located below the front of the pressing roller 35, the edge roller 340 rotates automatically in the process of moving leftwards along with the pressing roller 35 synchronously, and the edge roller 340 can play an auxiliary limiting role in alignment between the plastic braids or the paper braids so as to prevent the plastic braids or the paper braids from being shifted during bonding.

Referring to fig. 4 and 5, a first longitudinal plate 320 is installed at the rear end of the pushing end of a second electric push rod 31 at the right end of a connecting plate 32, 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 first longitudinal plate 320, the second longitudinal plate 321 is installed at the front end face of the vertical section of a vertical frame 30 at the right side of the connecting plate 32, the first longitudinal plate 320 synchronously moves downwards during the period that the second electric push rod 31 pushes the connecting plate 32 downwards, after the first longitudinal plate 320 contacts the second longitudinal plate 321, the second electric push rod 31 stops moving, at this moment, a compression roller 35 just compresses two plastic belts or paper braids, and the plastic braids or the paper braids at the pressing point are bonded through a bonding agent, which is generally the following: the descending distance of the compression roller 35 is limited through the matching between the first longitudinal plate 320 and the second longitudinal plate 321, so that the problems that the follow-up compression roller 35 excessively compresses the chip components to cause the chip components to be damaged and the like are avoided.

Referring to fig. 6 and 7, the lower end surface of the convex arc section of the snap-gauge 303 and the lower end surface of the homing plate 284 are both provided with a rubber plate layer, the rubber plate layer connected to the snap-gauge 303 can increase the friction between the snap-gauge 303 and the plastic braid or the paper braid, thereby preventing the plastic braid or the paper braid from falling off from the reel 302, and the rubber plate layer connected to the homing plate 284 can play a role in elastic protection of the chip component, so as to prevent the upper end surface of the chip component from deforming and the like.

Referring to fig. 1, a dust collector 10 is arranged on the right front side of the table 1, the dust collector 10 is located on the front side of the vertical frame 4, a dust collection end of the dust collector 10 is located above the vertical frame 4, a dust collection end of the dust collector 10 is located between two plastic or paper braids, the dust collection end of the dust collector 10 is located on the left side of a glue spraying end of a glue sprayer, and during the leftward conveying of the plastic or paper braids with upward surface grooves, the plastic or paper braids with upward surface grooves are cleaned by the dust collector 10 so as to prevent impurities from being sealed together with the chip components.

When the encapsulating equipment of the chip component works, S1, discharging the chip component: the chip components are manually arranged between the L-shaped boards 280 connected to the same molding-back block 281 from front to back in advance, and the bump 27 is located on the front side of the whole chip component.

S2, arranging a plastic braid or a paper braid: the plastic braid coil or the paper braid coil is integrally clamped and sleeved on the fixed shaft 6 in a manual mode, wherein the hole groove on the surface of the plastic braid coil or the paper braid coil close to the table 1 is upward, the hole groove on the surface of the other plastic braid coil or the paper braid coil is downward, then the motor 5 drives the fixed shaft 6 to rotate, simultaneously, an operator holds the movable end of the plastic woven tape roll or the paper woven tape roll leftwards and pulls leftwards, the plastic woven tape roll or the paper woven tape roll is in an unreeling state, wherein the plastic braid or the paper braid with the surface hole groove facing upwards is delivered 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 braid or the paper braid with the upward surface pore grooves is contacted with the upper end face of the table 1, the plastic braid or the paper braid with the downward surface pore grooves is conveyed leftwards from the upper end of a belt conveying shaft 11 at the upper end of a shaft plate 12, and the plastic braid or the paper braid is conveyed along the front end face of the baffle plate 20.

Spraying glue: the existing glue sprayer is installed on the front side of a vertical frame 4 close to a table 1, a glue spraying end of the glue sprayer is located above the vertical frame 4 close to the table 1, a glue spraying end of the glue sprayer is located between plastic braids or paper braids, during conveying of the plastic braids or the paper braids, surface glue dispensing is conducted on the plastic braids or the paper braids with upward surface hole grooves through the glue sprayer, glue dispensing positions are located between adjacent hole grooves, the plastic braids or the paper braids with upward surface hole grooves are conveyed to the left end face of the table 1 and then are not conveyed, the plastic braids or the paper braids with downward surface hole grooves exceed the left end face of the table 1 for a distance and then are not conveyed, and the plastic braids or the paper braids are located between a baffle plate 20 and an 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 reel 302, then the plastic braid or the paper braid with the surface hole grooves facing downwards is wound on the reel 302 from the lower end of the reel 302 upwards, the plastic braid or the paper braid with the surface hole grooves 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 the paper braid.

S3, positioning the chip component: the cross arm 23 is moved to the rear end of the inverted U-shaped through groove manually according to a route of firstly moving upwards, then horizontally moving successively and then moving downwards, in the process, the cross arm 23 drives the track strip 24 and the L-shaped plate 280 to move synchronously, during the horizontal backward movement of the cross arm 23, the L-shaped plate 280 and the clip block 281 are both positioned above the table 1, and when the lower end of the clip 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 immediately moves downwards, so that the lower end of the clip block 281 is arranged in the hole groove.

S4, placing chip components: the top plate 26 and the convex block 27 are driven by the electric slider to synchronously move backwards, the convex block 27 pushes the chip component backwards until the single chip component is arranged between the supporting plates 282 in the return block 281, the weight of the supporting plates 282 and the whole chip component is not enough to enable the torsion spring 283 to be twisted, at the moment, the single chip component is positioned right above the hole groove, then the return plate 284 is pushed downwards by a first electric push rod 285, the chip component is pressed downwards by the return plate 284, the supporting plates 282 synchronously rotate downwards, the torsion spring 283 is twisted until the chip component is arranged in the hole groove, the supporting plates 282 are completely positioned in the installation grooves at the moment, the return plate 284 continuously moves downwards to enable the chip component to be flatly placed in the hole groove, then the return plate 284 is enabled by the first electric push rod 285, the supporting plates 282 synchronously return under the rotation of the torsion spring 283, the cross arm 23 is manually returned to the front end of the inverted U-shaped through groove according to the original route, the swage block 281 returns to the original position.

S5, bonding and packaging: 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 therewith, when the press roller 35 contacts with the plastic braid or the paper braid with the surface hole groove facing downwards and continues to move downwards, the vertical expansion plate 301 and the scroll 302 are integrally subjected to a rightward pulling force, under the action of the pulling force, the vertical expansion plate 301 and the scroll 302 integrally rotate rightwards, meanwhile, the vertical expansion plate 301 is extended due to the pulling force, the clamping plate 303 gradually rotates upwards, after the press roller 35 bonds the plastic braid or the 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, under the rolling of the press roller 35, the plastic braid or the paper braid is gradually bonded, when the press roller 35 approaches the left end of the table 1, the force of the clamping plate 303, which is applied by the vertical expansion plate 301, is larger than the torsional force of the torsional spring connected with the clamping plate 303, the clamping plate 303 is separated from the reel 302, the plastic braid or the paper braid on the reel 302 is separated from the reel 302, the pressing roller 35 continues to move leftwards, the plastic braid or the paper braid is bonded, and the chip component is packaged.

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

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 component's equipment of encapsulating, includes desk (1), places mechanism (2), compacting mechanism (3), grudging post (4), motor (5) and fixed axle (6), its characterized in that: the table (1) is arranged on the ground, a placing mechanism (2) is arranged at the upper end of the table (1), a compacting mechanism (3) is arranged above the table (1), the vertical frame (4) is located on the right side of the table (1), the vertical frame (4) is arranged on the ground, the vertical frame (4) is symmetrically arranged in the left-right direction, a motor (5) is arranged at the upper end of the vertical frame (4), a fixing shaft (6) is arranged at an output shaft of the motor (5), shaft plates (12) used for fixing the belt conveying shafts (11) are symmetrically arranged in the front and at the back of the right end face of the table (1), the belt conveying shafts (11) are arranged in the up-down direction, and the belt conveying shafts (11) are rotatably connected with the shaft plates (12);

the placing mechanism (2) comprises a baffle (20), auxiliary stop rods (21), a plate block (22), a cross arm (23), a track strip (24), a first electric slider (25), a top plate (26), a convex block (27) and a placing unit (28), wherein the baffle (20) is installed at the rear end of the upper end face of the table (1), the auxiliary stop rods (21) in an inverted L-shaped structure are installed at the left end of the front end face of the baffle (20), the plate block (22) is symmetrically arranged on the front end face of the table (1) in a left-right mode, an inverted U-shaped through groove is formed in the side end of the plate block (22), the cross arm (23) is connected between the front ends of the inverted U-shaped through groove in a sliding mode, the track strip (24) is installed on the left-right side of the rear end face of the cross arm (23), the track strip (24) is located on the right side of the auxiliary stop rods (21), the track strip (24) is located above the table (1), the first electric slider (25) is installed at the upper end of the track strip (24), a top plate (26) is connected between the upper ends of the first electric sliding blocks (25), lugs (27) are equidistantly mounted on the lower end face of the top plate (26) from left to right, a placing unit (28) is arranged at the lower end of each lug (27), and the lower end of each placing unit (28) is in contact with the upper end face of the table (1);

the placing unit (28) comprises an L-shaped plate (280), a U-shaped block (281), a supporting plate (282), a torsion spring (283), a homing plate (284), a first electric push rod (285) and a rod frame (286), 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 installed on the rear end surface of the cross arm (23), the U-shaped block (281) is arranged right behind the bump (27), a connecting groove is formed in the front end of the U-shaped block (281), the bottom wall of the connecting groove is fixedly connected with the lower end surface of the L-shaped plate (280), mounting grooves are symmetrically formed in the left side and the right side of the rear inner side wall of the U-shaped block (281), the supporting plate (282) is installed between the left inner side wall and the right inner side wall of the mounting grooves in a rotating mode through a pin shaft, the torsion spring (283) used for connecting the side end of the supporting plate (282) with the side wall of the mounting grooves is sleeved at the left end and the right end of the pin shaft in the mounting grooves, the homing plate (284) is arranged right side wall of the U-shaped block (281), the upper end of the return plate (284) is connected with a rod frame (286) with an inverted L-shaped structure through an electric push rod (285), and the vertical section of the rod frame (286) is installed at the left end of the upper end face of the return block (281).

2. The packaging equipment for the chip component as claimed 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 slider (33), a fixed frame (34) and a compression roller (35), the vertical frame (30) with an inverted L-shaped structure is symmetrically arranged on the upper end face of the table (1) in the left-right direction, the vertical frame (30) is positioned on the rear side of the baffle (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 fixed frame (34) is arranged at the lower end of the connecting plate (32) through the second electric slider (33), the compression roller (35) is rotatably arranged at the lower end of the fixed frame (34) through a pin shaft, an extension plate (300) is arranged at the left end of the vertical frame (30) on the left side of the baffle (20), and a vertical expansion plate (301) is symmetrically rotatably arranged at the front end and back of the left front end of the extension plate (300) through a pin shaft, install spool (302) between the lower extreme of vertical expansion plate (301), spool (302) are located the top of desk (1), the upper end joint of spool (302) has upper end cardboard (303) for evagination circular arc structure, the lower extreme of cardboard (303) is vertical structure and its left side that is located spool (302), the lower extreme of cardboard (303) is installed between the lower extreme of vertical expansion plate (301) through round pin axle rotation, symmetrical connection has torsion spring around the lower extreme of cardboard (303), torsion spring overlaps and establishes at the epaxial round pin that cardboard (303) link, the middle part of vertical expansion plate (301) is elastic telescoping structure.

3. The packaging equipment for the chip component according to claim 2, wherein: the lower end face of the front end of the fixed frame (34) is rotatably provided with an edge roller (340) through a pin shaft, and the edge roller (340) is positioned below the front part of the press roller (35).

4. The packaging equipment for the chip component according to claim 2, wherein: no. two electric putter (31) the rear end of promotion end of connecting plate (32) right-hand member install longitudinal plate (320) No. one, arrange under the longitudinal plate rear end and be used for carrying on No. two longitudinal plate (321) spacing to the movement distance of No. two electric putter (31), No. two longitudinal plate (321) are installed and are erected the preceding terminal surface of the vertical section of frame (30) on connecting plate (32) right side.

5. The packaging equipment for the chip component as claimed in claim 1, wherein: the dust collector (10) is arranged on the right front side of the table (1), the dust collector (10) is located on the front side of the vertical frame (4), and the dust collection end of the dust collector (10) is located above the vertical frame (4).

6. The packaging equipment for the chip component as claimed in claim 1, wherein: the side end of the vertical section of the L-shaped plate (280) facing the bump (27) is provided with a placing groove, and a rolling shaft (287) in a vertical state is rotationally installed in the placing groove at equal distance from the front to the back through a pin shaft.

7. The packaging equipment for the chip component according to claim 2, wherein: the lower end face of the convex arc section of the clamping plate (303) and the lower end face of the return plate (284) are both provided with a rubber plate layer.

8. The packaging equipment for the chip component as claimed in claim 1, wherein: vertical grooves are formed in the front inner side walls of the U-shaped blocks (281), and shaft rods (288) for reducing friction are rotatably arranged between the left inner side walls and the right inner side walls of the vertical grooves through pin shafts.

9. The packaging equipment for the chip component as claimed in claim 1, wherein: the lower end surface of the clip block (281) is provided with a sponge strip (289) with a clip structure.

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