CN216782703U - Automatic production equipment for strip-shaped injection molding products - Google Patents

Abstract

The utility model is suitable for the field of strip-shaped product production equipment, and discloses automatic production equipment for strip-shaped injection molding products, which comprises a working rack, wherein the working rack is provided with a shifting and splitting mechanism part for shifting an uncut strip-shaped product semi-finished product to a station and splitting the uncut strip-shaped product semi-finished product into ribbons, the working rack is also provided with a positioning mechanism part, and the positioning mechanism part comprises a positioning mechanism mounting plate, a positioning seat which is connected with the positioning mechanism mounting plate and can lift relative to the positioning mechanism mounting plate, and an interval adjusting device which is connected with the positioning seat and is used for adjusting the position of the positioning seat. According to the automatic production equipment for the strip-shaped injection molding products, the transverse position of the positioning seat can be adjusted by the distance adjusting device, the positioning seat is adjusted by the distance adjusting device, the problem that the strip-shaped products are not cut and connected with different spacing distances of the nozzle materials is solved, the compatibility and the universality of the equipment are greatly improved, and the using effect is good.

Description

Automatic production equipment for strip-shaped injection molding products

Technical Field

The utility model belongs to the field of strip-shaped product production equipment, and particularly relates to automatic production equipment for strip-shaped injection molding products.

Background

Current nylon ribbon production facility, it can only cut production to the ribbon of specific size generally, and the product specification of ribbon is many, for example nylon ribbon length is from 100mm to 500mm), width 2mm to 5mm, each producer of injecting glue chamber way is different, the size is different, thickness also has different, current ribbon production facility is difficult to the adaptation producer actual production, its equipment product specification compatibility is poor, can't reach the popularization type of trade.

SUMMERY OF THE UTILITY MODEL

The utility model aims to at least solve one of the technical problems and provides automatic production equipment for strip-shaped injection molding products, which has good product specification compatibility and good use effect. The intelligent numerical control inputs the positioning size of the corresponding production product,

the utility model aims to solve at least the second technical problem and provides automatic production equipment for strip-shaped injection molding products, which fully utilizes the constant space between strip-shaped finished products formed by arranging the produced products left and right in a strip shape, adopts preset machinery for counting, solves the problem that the specification forming sizes and the strip numbers of various products of different manufacturers in the industry are not uniform, and meets the production requirements of compatibility, stability, accuracy and rapidness.

The technical scheme of the utility model is as follows: the utility model provides a strip injection moulding product automated production equipment, includes the workstation frame, the workstation frame is provided with and is used for moving the strip product semi-manufactured goods that will not cut and moves to the station and will not cut the strip product semi-manufactured goods branch and cut the mechanism part that moves that is cut into the strip product, the workstation frame still is provided with the positioning mechanism part, the positioning mechanism part include the positioning mechanism mounting panel, connect in the positioning mechanism mounting panel just can be relative the positioning seat that the positioning mechanism mounting panel goes up and down with connect in the positioning seat just is used for adjusting the interval adjusting device of positioning seat position.

Specifically, the positioning mechanism component comprises a lifting bottom plate which can lift relative to the positioning mechanism mounting plate and a bottom plate lifting driving piece which is connected to the lifting bottom plate and is used for driving the lifting bottom plate to lift; lifting floor is connected with the guide rail, interval adjusting device includes first slide, second slide, first locating plate and second locating plate, first slide second slide sliding connection in the guide rail, first locating plate connect in or integrated into one piece in first slide, the second locating plate connect in or integrated into one piece in the second slide, the positioning seat be provided with two sets ofly and connect respectively in first locating plate and second locating plate, interval adjusting device is still including being used for the drive first slide the second slide is close to relatively or the distance adjusting part who keeps away from.

Specifically, the distance adjusting assembly comprises a first rack, a second rack, a gear and a distance adjusting motor for driving the gear to rotate; the first rack is connected to the first sliding plate, the second rack is connected to the second sliding plate, and the first rack and the second rack are parallel to the guide rail; the gear is located between the first rack and the second rack, the gear is meshed with the first rack and the second rack respectively, and the distance adjusting motor is connected to the gear.

Specifically, move and carry and cut mechanism part and include climbing mechanism part, climbing mechanism part is including being used for pressing from both sides the half-finished centre gripping subassembly of strip product of not cutting, being used for the drive the rotatory jacking rotary driving spare of centre gripping subassembly and being used for the drive centre gripping subassembly the jacking lift driving spare that jacking rotary driving spare goes up and down.

The moving, loading and splitting mechanism component comprises a splitting component for cutting off strip-shaped products from a nozzle material, and the splitting component comprises two tool holders with adjustable sizes and a cutter connected to the tool holders; the slitting part further comprises a slitting sliding plate and a slitting driving piece used for driving the slitting sliding plate to move.

Specifically, a pressing mechanism part for pressing the strip-shaped product to avoid displacement of the strip-shaped product when the glue opening is cut off is arranged on the workbench frame;

the pressing mechanism part comprises a mounting seat, a pressing plate and a pressing lifting driving part connected with the pressing plate and used for driving the pressing plate, and the pressing lifting driving part is connected with the mounting seat.

Specifically, two groups of pressing mechanism components are symmetrically arranged, and a soft rubber plate is arranged at the bottom of the pressing plate.

Specifically, the automatic production equipment for the strip-shaped injection molding products further comprises a distribution mechanism part used for moving the strip-shaped products with the set number after being cut off to a packaging position or a storage position.

Specifically, the mechanism part is dialled including can follow strip product array direction gliding front and back around dialling the board, connect in dial the board and be used for the drive around dialling the board around and remove to the distribution driver part who sets for strip product department, dial the board around and be connected with and can go up and down and can insert the baffle between setting for strip product, the baffle is connected with baffle lift driving piece.

Specifically, it includes action wheel, synchronizing wheel and hold-in range to allocate driving part, the hold-in range cover in the action wheel with the synchronizing wheel, just dial the board around connect in the hold-in range, the mount pad is provided with transverse guide, dial board sliding connection around in transverse guide, the baffle lift driving piece connect in dial the board around.

Specifically, the lower pressing plate is connected with a pre-distributing component used for pushing a set strip-shaped product to a set direction when the lower pressing plate rises;

the pre-distribution component comprises a pre-distribution plate and a pre-distribution driving piece used for driving the pre-distribution plate to move, the pre-distribution driving piece is connected to the lower pressing plate, and the pre-distribution plate is connected to the pre-distribution driving piece.

Specifically, the working rack is provided with a material storage mechanism part for temporarily storing strip-shaped products to be packaged;

stock mechanism part includes the swash plate, set up in striker plate in swash plate the place ahead and be used for the drive the striker plate driving piece that the striker plate goes up and down.

The work bench is provided with a hopper overturning part used for pouring strip-shaped products into a packaging bag, and the hopper overturning part comprises a hopper and an overturning driving part used for driving the hopper to overturn; the hopper is provided with the driving piece that opens and shuts, the driving piece that opens and shuts is connected with and opens bag board or valve plate.

Specifically, a material storage secondary packaging mechanism part is arranged at the position, above the hopper, of the working rack;

the stock secondary packaging mechanism part comprises a stock plate, a push plate and a push plate driving piece, wherein the push plate is used for pushing the strip-shaped products on the stock plate to the hopper, and the push plate driving piece is connected with the push plate and is used for driving the push plate.

Specifically, the work bench is provided with packagine machine constructs the part, packagine machine constructs the part including the bag mechanism part of stacking that is used for placing the wrapping bag, be used for absorbing the wrapping bag and with open get a bag mechanism part after the wrapping bag moves to the settlement position, be used for with the sealed sealing mechanism part of wrapping bag hot melt and be used for carrying the product after the packing to the conveyor components of settlement position.

The bag stacking mechanism part comprises a packaging bag storage table and a segmented lifting driving part, wherein the segmented lifting driving part is connected to the packaging bag storage table and is used for driving the packaging bag storage table to ascend;

the bag taking mechanism part comprises a first sucker for sucking the packaging bag on the packaging bag storage table, a moving part for driving the first sucker to move to a set position, and a second sucker for opening the mouth of the packaging bag on the first sucker;

sealing mechanism part includes can set up in the hot melt spare of wrapping bag both sides, be used for the drive in opposite directions the hot melt spare presss from both sides the tight driving piece of clamp or unclamp in opposite directions, the hot melt spare is connected with condenser tube, sealing mechanism part still include the lifting unit with set up in the evacuation pipe valve of lifting unit.

According to the automatic production equipment for the strip-shaped injection molding product, the transverse position (width direction) of the positioning seat can be freely adjusted by the interval adjusting device, the positioning seat is adjusted by the interval adjusting device, the problem that the strip-shaped product is not cut and connected with different interval distances of a nozzle material is solved, the compatibility and the universality of the equipment are greatly improved, the motor is adopted to drive the racks distributed on two sides, the racks on two sides are driven when the motor is driven in the forward and reverse directions, the synchronous reverse opening and closing are realized, the use effect is good, the material taking and the cutting can be simultaneously finished, the time period of a production process is greatly saved, the production efficiency is high, the utilization rate of the equipment is high, and the production cost is favorably reduced. The problem that the nylon cable tie industry is in the backward condition of pure manual production is solved, and a full-automatic intelligent automatic production line for taking, cutting, counting and packaging is achieved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is an overall plan view schematically illustrating an automatic production apparatus for a strip-shaped injection molded product according to an embodiment of the present invention;

FIG. 2 is an overall perspective view of an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

FIG. 3 is an overall perspective view of an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a positioning mechanism component in an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

FIG. 5 is a schematic plan view of a positioning mechanism component in an automatic production apparatus for strip-shaped injection-molded products according to an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a positioning mechanism component in an automated production apparatus for strip-shaped injection-molded products according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a part of a jacking mechanism in an automatic production apparatus for strip-shaped injection-molded products according to an embodiment of the present invention;

FIG. 8 is a schematic plan view of a part of a jacking mechanism in an automatic production apparatus for strip-shaped injection-molded products according to an embodiment of the present invention;

fig. 9 is a schematic perspective view of a group of pressing mechanism components in an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

fig. 10 is a schematic perspective view of two sets of pressing mechanism components in an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

fig. 11 is a schematic perspective view of two sets of pressing mechanism parts in an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

fig. 12 is a schematic perspective view of two sets of pressing mechanism components in an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

fig. 13 is a schematic perspective view of a hopper turning part in an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

fig. 14 is a schematic perspective view of a hopper turning part in an automatic production apparatus for strip-shaped injection molded products according to an embodiment of the present invention;

FIG. 15 is a schematic perspective view of a packaging mechanism component in an automatic production apparatus for strip-shaped injection-molded products according to an embodiment of the present invention;

FIG. 16 is a schematic perspective view of a cutting part in an automatic production apparatus for a strip-shaped injection molded product according to an embodiment of the present invention;

fig. 17 is a schematic perspective view of a cutting part in an automatic production apparatus for a strip-shaped injection molded product according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It should be noted that the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, directly disposed or connected, or indirectly disposed or connected through intervening elements or intervening structures.

As shown in fig. 1 to fig. 6, the automatic production equipment for injection molding strip products according to the embodiment of the present invention can be used for the automatic production of plastic strip products formed by a plurality of parallel plastic strips in a mold. Above-mentioned strip injection moulding product automated production equipment includes work rack 1, and work rack 1 is provided with to move and carries and cuts the mechanism part, moves and carries and cut the mechanism part and can be used for moving the semi-manufactured goods of bandage of not cutting and carry the station to work rack 1, and can surely divide into independent ribbon with the semi-manufactured goods of bandage of not cutting. The semi-finished product of the non-cutting ribbon comprises a main pouring gate condensate, a branch pouring gate condensate and a ribbon, wherein the two ends of the branch pouring gate condensate are connected with the main pouring gate condensate and the ribbon, the production efficiency of the die is improved, so that the ribbon and the branch pouring gate condensate generally have a plurality of groups and are respectively arranged on two sides of the main pouring gate condensate, and when the non-cutting ribbon semi-finished product is taken out from the injection die, the non-cutting ribbon semi-finished product is integrally in a fishbone shape. The automatic production equipment for the strip-shaped injection molding products can automatically move and carry out slitting and the like on uncut tie semi-finished products, and the automation degree is high. The work bench 1 is further provided with a positioning mechanism part 10 for positioning the nozzle material (i.e. the branch runner solidified material). The positioning mechanism component 10 comprises a positioning mechanism mounting plate 101, a positioning seat 102 which is connected with the positioning mechanism mounting plate 101 and can lift relative to the positioning mechanism mounting plate 101, and an interval adjusting device which is connected with the positioning seat 102 and is used for adjusting the position of the positioning seat 102, wherein the positioning seat 102 can be provided with a positioning groove 103 which is used for frame sizing and branch pouring gate congealing, and the positioning seat 102 can lift to enable the positioning groove 103 to be clamped and sleeved on the branch pouring gate congealing from the lower part, so that better reliability and better splitting effect can be prevented when the joint (a dispensing glue port) of the branch pouring gate congealing and a binding tape is cut off. The transverse position (width direction) of the positioning seat 102 can be adjusted by the distance adjusting device, the positioning seat 102 is adjusted by the distance adjusting device, the problem that the nylon ribbon is not cut and connected to different spacing distances of the water gap material is solved, the compatibility and the universality of the equipment are greatly improved, the purposes of one machine and multiple purposes are achieved, the convenience and the use desire of manufacturers are improved, and the industrial upgrading of intelligent manufacturing of the industry is realized.

Specifically, as shown in fig. 4 to 6, the positioning mechanism part 10 includes a lifting base plate 104 which can be lifted and lowered relative to the positioning mechanism mounting plate 101, and a base plate lifting driving member which is connected to the lifting base plate 104 and is used for driving the lifting base plate 104 to be lifted and lowered, and the base plate lifting driving member 105 may be an air cylinder, a linear motor, a hydraulic cylinder, a rack and pinion driving device, a screw driving device, or the like.

Specifically, as shown in fig. 4 to 6, the lifting base plate 104 is connected to at least two parallel guide rails 106, the distance adjusting device includes a first sliding plate 107, a second sliding plate 108, a first positioning plate 109 and a second positioning plate 110, the first sliding plate 107 and the second sliding plate 108 can be slidably connected to the guide rails 106, the first positioning plate 109 is connected to or integrally formed with the first sliding plate 107, the second positioning plate 110 is connected to or integrally formed with the second sliding plate 108, two sets of positioning seats 102 are provided and are respectively connected to the first positioning plate 109 and the second positioning plate 110, that is, the relative distance between the two sets of positioning seats 102 can be slidably adjusted. The distance adjusting device further comprises a distance adjusting assembly for driving the first sliding plate 107 and the second sliding plate 108 to relatively approach or move away, so that the distance between the two sets of positioning seats 102 can be adjusted.

Specifically, as shown in fig. 4 to 6, the distance adjusting assembly can synchronously adjust the distance between two sets of positioning seats 102, and includes a first rack 111, a second rack 112, a gear 113 and a space adjusting motor 114 for driving the gear 113 to rotate, and the space adjusting motor 114 can be a servo motor; the first rack 111 is connected to the first sliding plate 107, the second rack 112 is connected to the second sliding plate 108, and the first rack 111 and the second rack 112 are parallel to the guide rail 106; the gear 113 is located between the first rack 111 and the second rack 112, the gear 113 is respectively engaged with the first rack 111 and the second rack 112, and the spacing adjustment motor 114 is connected to the gear 113, so that when the spacing adjustment motor 114 drives the gear 113 to rotate positively or negatively, through the transmission of the first rack 111 and the second rack 112, the first sliding plate 107 and the second sliding plate 108 can synchronously approach to each other or synchronously move away from each other relatively, and further the first positioning plate 109, the second positioning plate 110 and the two groups of positioning seats 102 can synchronously approach to each other or synchronously move away from each other relatively, and the adjustment effect is good, thereby facilitating production debugging and application. Of course, other adjusting components may be used for the distance adjusting assembly, such as a linear driving device connected to the first sliding plate 107 and the second sliding plate 108, respectively, such as a screw mechanism or a linear motor.

Specifically, as shown in fig. 1 to 8, the moving and splitting mechanism component includes a jacking mechanism component 20, and the jacking mechanism component 20 includes a clamping assembly 201 for clamping the uncut cut-and-cut cable tie semi-finished product, a jacking rotary driving member 202 for driving the clamping assembly 201 to rotate, and a jacking lifting driving member 203 for driving the clamping assembly 201 and the jacking rotary driving member 202 to lift. The clamping assembly 201 may be a gas claw, a robot, or the like. The jacking rotary driving member 202 can be a rotary cylinder or a motor, etc., the jacking lifting driving member 203 can be a cylinder or a linear motor, etc., and the jacking mechanism part 20 can move the uncut cut binding tape semi-finished product to a set station on the table top of the working table frame 1.

Specifically, as shown in fig. 1 to 17, a cutting component for cutting the strip-shaped product from the nozzle material is arranged on the work bench 1, and the cutting component comprises two tool holders 810 with adjustable opposite sizes and a cutter 820 connected to the tool holders 810; namely, the space between the tool apron 810 and the cutter 820 can be adjusted to meet different production requirements. The slitting member further comprises a slitting slide 830 and a slitting drive 840 for driving the movement of the slitting slide 830. The slitting drive 840 can be driven by a drive means such as a belt, linear motor, etc. Thus, the cutting knife 820 can move along the length direction, so that the glue opening of the binding belt is cut off, and the independent binding belt is obtained. Moreover, the distance between the two cutters 820 can be conveniently adjusted due to the fact that the distance between the cutters 820 can be adjusted through the cutter seat 810, so that the production of the binding belts with different sizes can be met, the compatibility is high, the universality is good, and the production efficiency can be improved.

Specifically, the slitting component further comprises an installation seat 850 connected to the slitting sliding plate 830, the installation seat 850 is provided with an adjusting sliding table 860 used for adjusting the distance between the two tool holders 810, and the adjusting sliding table 860 can adopt a screw type adjusting structure.

Specifically, the mounting base 850 is provided with at least two parallel tool apron adjusting guide rails 870, the tool apron 810 is slidably connected to the tool apron adjusting guide rails 870, and the adjusting sliding table 860 is a synchronous reverse adjusting sliding table 860 for driving the two tool aprons 810 to approach or move away from each other along the tool apron adjusting guide rails 870. The synchronous reverse adjustment sliding table 860 may include a screw rod, which is in threaded connection with the tool apron 810, the screw rod may be provided with two sections of reverse threads, which are in threaded connection with the two tool aprons 810 respectively, when the screw rod is rotated, the screw rod may make the tool apron 810 and the cutter 820 synchronously reverse adjusted, that is, the center may be unchanged, and the two tool aprons 810 and the cutter 820 may be close to or far away from the center relatively.

The transferring mechanism can be used for transferring the uncut bundling belt semi-finished product to the working position of the working bench 1 so as to carry out the next working procedure. The transfer mechanism may include a gripping device 910 that may be raised and lowered. The clamping device 910 may be a pneumatic claw or the like, which can be lifted and lowered by a driving unit to clamp the semi-finished product in the mold.

Specifically, the work gantry 1 is provided with a hold-down mechanism part 30, and the hold-down mechanism part 30 is located above the positioning mechanism part 10. The pressing mechanism part 30 is used for pressing the binding belt on the table top of the working table frame 1 to set a station position so as to avoid displacement of the binding belt when the cutter cuts off the adhesive tape opening.

Specifically, as shown in fig. 1 to 12, the pressing mechanism member 30 includes a mounting base 301, a pressing plate 302, and a pressing lift driving member 303 connected to the pressing plate 302 and used for driving the pressing plate 302, the pressing lift driving member 303 is connected to the mounting base 301, and the pressing lift driving member 303 may be an air cylinder, a hydraulic cylinder, a linear motor, or the like.

Specifically, the pressing mechanism parts 30 are symmetrically provided with two sets of pressing belts on two sides of the main pouring gate material respectively, and the bottom of the pressing plate 302 is provided with a soft rubber plate 304 to avoid the pressing damage of the belts.

Specifically, strip injection moulding product automated production equipment still includes the distribution mechanism part 310 that is used for shifting the ribbon of setting for quantity after cutting off to packing position or storage bit, and its degree of automation is high to automatic packing can be set for accurately packing quantity, the dispute of avoiding arousing because of ribbon quantity is not enough in the packing.

Specifically, the front and rear shifting plates 311 which can slide front and rear along the ribbon arrangement direction (i.e. the length direction) and the front and rear shifting plates 311 are connected to the front and rear shifting plates 311 and used for driving the front and rear shifting plates 311 to move to the distribution driving part at the position of the set ribbon, the front and rear shifting plates 311 are connected with a partition board which can be lifted and lowered and can be inserted between the set ribbons, the partition board is connected with a partition board lifting driving part 312, and the partition board can be lifted and lowered along the height direction.

Specifically, the distribution driving component includes a driving wheel 314, a synchronizing wheel 313 and a timing belt 315, the timing belt 315 is sleeved on the driving wheel 314 and the synchronizing wheel 313, the front and rear shifting plates 311 are connected to the timing belt 315, the mounting base 301 is provided with a transverse guide rail 316 horizontally arranged along the length direction, the front and rear shifting plates 311 are slidably connected to the transverse guide rail 316, and the partition lifting driving component 312 is connected to the front and rear shifting plates 311. A transmission shaft 331 may be connected between the driving wheels 314, a driving belt 332 may be connected to the transmission shaft 331, and the driving belt 332 may be connected to a driving motor, etc.

Specifically, the front and rear dial plates 311 are connected to a front dial partition 317 and a rear dial partition 318. The front distributing partition 317 is used for forward distributing the cut products to be packaged for bagging packaging, and the rear distributing partition 318 is used for forward distributing the cut products to be packaged to be temporarily stored in the material storage mechanism.

Specifically, the lower pressing plate 302 is connected with the pre-distributing component 320, after the soft rubber plate 304 at the bottom of the lower pressing plate 302 is pressed on the ribbon, the rubber opening of the ribbon is cut off by the cutter, when the lower pressing plate 302 ascends, the pre-distributing component 320 can push the set ribbon to the set direction (front or back) so as to increase the distance between the two ribbon parts, and the partition plates (the partition plate 317 before distribution and the partition plate 318 after distribution) of the distributing mechanism component 310 can be more reliably inserted between the two ribbon parts.

Specifically, the pre-distributing member 320 includes a pre-distributing plate 321 and a pre-distributing driving member 322 for driving the pre-distributing plate 321 to move, the pre-distributing driving member 322 is connected to the lower plate 302, and the pre-distributing plate 321 is connected to the pre-distributing driving member 322. The pre-dispense drive 322 may be an air cylinder, hydraulic cylinder, linear motor, or the like.

In a specific application, the pre-distributing component 320 arranged on the pressing mechanism component 30 can meet the requirement of packaging in a fixed number according to different packaging requirements. For example, some products are provided with 50 ribbons (25 ribbons on the left and right of the injected plastic) in one mold, 290 ribbons are contained in one packaging bag, in this case, the front 5 ribbons 50 are 250 ribbons, and the 6 th mold is separated from the front 20 ribbons and the rear 5 ribbons of the left and right mold products by a front distributing partition plate 317 and a rear distributing partition plate 318, and then synchronously front distributing is performed, the front 40 ribbons of the 6 th mold are firstly front distributed by the front distributing partition plate 317 for packaging, and the left and right 10 ribbons are distributed to the material storage mechanism component by the rear distributing partition plate 318. Of course, the specific packaging quantity and the quantity of products per mold can be set according to actual conditions.

In particular, the work bench 1 is provided with means of a stock mechanism for temporarily storing the bands to be packaged, in order to meet the counting requirements of different packages, for example when the number of bands in a single package does not match the number of bands corresponding to an integer number of semi-finished cut bands.

Specifically, stock mechanism part includes the swash plate, sets up in striker plate in swash plate the place ahead and is used for driving the striker plate driving piece that the striker plate goes up and down. The inclined plate and the striker plate driving piece can be provided with two groups and are respectively correspondingly used for binding belts on two sides of the main pouring gate material.

Specifically, as shown in fig. 1 to 14, the work bench 1 is provided with a hopper turning part 40 for pouring a band into a packing bag, and the hopper turning part 40 may be located in front of the stock mechanism part. The hopper overturning part 40 comprises a hopper 401, an overturning driving part 402 for driving the hopper 401 to overturn; the hopper 401 is provided with an opening/closing driving member 403, and a bag opening plate 404 is connected to the opening/closing driving member 403. The opening and closing driving member 403 may be a pneumatic cylinder or the like, and the bag opening plate 404 may ensure that the bag opening of the packing bag is opened. The flip drive 402 may be a rotary air cylinder that can flip the hopper 401 over so that the strap in the hopper 401 can be poured into the bag.

Specifically, the work bench 1 is provided with a stock secondary packaging mechanism component above the hopper 401, so as to facilitate automatic counting. The stock secondary packaging mechanism part may be located above the hopper 401 overturning part 40, for example, when the number of the tie corresponding to the previous tie semi-finished product is not completely loaded into the previous packaging bag, the remaining tie may be temporarily pulled out of the stock secondary packaging mechanism part until the circular storage number reaches the corresponding packaging number, and the stock secondary packaging mechanism executes the stock for secondary packaging.

Specifically, the stock secondary packaging mechanism part comprises a stock plate, a push plate used for pushing the ribbon on the stock plate to the hopper 401, and a push plate driving part connected to the push plate and used for driving the push plate. The push plate driving piece can be an air cylinder, a hydraulic cylinder or a linear motor and the like.

Specifically, as shown in fig. 1 to 15, the work bench 1 is provided with a packing mechanism part, which may be located at one side or below the turning part 40 of the hopper 401, or the like. The packing mechanism parts include a stacking mechanism part 510 for placing the packing bag, a bag taking mechanism part for sucking the packing bag and opening the packing bag after moving the packing bag to a set position, a sealing mechanism part 520 for heat-sealing the packing bag, and a conveying part 530 for conveying the packed product to a set position.

Specifically, the bag stacking mechanism 510 includes a bag storage platform 511, a segment lift driving member 512 connected to the bag storage platform 511 and configured to drive the bag storage platform 511 to ascend; the sectional elevating driving member 512 may be a cylinder or a motor, etc., which can elevate the packing bag storage table 511 so that the bag taking mechanism part can suck the packing bag on the packing bag storage table 511.

Specifically, the bag taking mechanism part comprises a first suction cup for sucking the packaging bag on the packaging bag storage table 511, a moving part for driving the first suction cup to move to a set position, and a second suction cup for opening the mouth of the packaging bag on the first suction cup; the moving part can be a cylinder, a hydraulic cylinder, a linear motor or the like. The first suction cup and the second suction cup can both be vacuum suction cups.

Specifically, the sealing mechanism component 520 includes a hot melting member disposed on two sides of the packaging bag in opposite directions, a clamping driving member for driving the hot melting member to clamp or loosen in opposite directions, the hot melting member is connected with a cooling water pipe, and the sealing mechanism component 520 further includes a lifting member and a vacuum pipe valve disposed on the lifting member. After the ribbon of setting for quantity gets into the wrapping bag, evacuation pipe valve can descend and bleed, and evacuation pipe valve rises afterwards, and hot melt spare can press from both sides in the wrapping bag both sides and seal through the mode of hot melt, and condenser tube can cool off afterwards, and the packing is accomplished, and hot melt spare loosens, and the wrapping bag that the packing was accomplished drops downwards to transport unit 530, carries to departments such as containing box or memory panel by transport unit 530. The conveying member 530 may be a motor-driven conveyor belt, which is located below the sealing mechanism member 520.

According to the automatic production equipment for the strip-shaped injection molding product, provided by the embodiment of the utility model, the transverse position (width direction) of the positioning seat 102 can be adjusted by the distance adjusting device, the positioning seat 102 is adjusted by the distance adjusting device, the problem that a nylon ribbon is not cut and connected with different spacing distances of a nozzle material is solved, the compatibility and the universality of the equipment are greatly improved, the gear 113 is driven by the motor to drive the racks distributed on two sides, the racks on two sides are driven by the motor in the forward and reverse driving process to synchronously and reversely open and close, the problem that the nylon ribbon is not cut and connected with different spacing distances of the nozzle material is solved, and the use effect is good; the cutter holder with the width and the size capable of being freely adjusted at the left side and the right side is arranged, the blades are fixed on the cutter holder, and the corresponding distance between the left blade and the right blade can be adjusted according to the sizes of water gap connection points (rubber ports) of different products, so that different production requirements are met; in the concrete application, the motor starts the antedisplacement and gets the material simultaneously, and the blade holder moves forward in step, gets the material and cuts and accomplish simultaneously, saves production technology time cycle by a wide margin, and production efficiency is high, and equipment utilization is high, does benefit to reduction in production cost.

In the automatic production equipment for strip-shaped injection molding products in the embodiment, the left and right pressing mechanism parts 30 are respectively provided, and the execution action can be synchronously completed. Move and carry the cutting mechanism to press from both sides and get the semi-manufactured goods of not cut ribbon to being located the corresponding position in positioning mechanism part 10 top, the cylinder drive holding down plate 302 of upper and lower action pushes down, paste the ribbon in table surface compaction, make the product not receive external force position and remove, cut the part and drive the blade holder antedisplacement, it cuts to get the material in step, install in the blade about the blade holder, cut product and injecting glue mouth of a river material simultaneously, separate the product, by shifting the mechanism part 310 forward group packing or saving in the mechanism part of material stock, injecting glue mouth of a river material (mainly watering the congeals, it is congealed to water separately) is driven by positioning mechanism part 10 and is down, discharge in the equipment mechanism below.

The automatic production equipment for the strip injection molding products comprises a distribution mechanism, a front distribution partition plate 317 (used for putting the binding tapes into a bag), a front rear distribution partition plate (used for storing the binding tapes) and the like, wherein the pre-distribution mechanism can synchronously insert downwards with a lower pressing plate 302 according to the quantity of the packaged products by utilizing the distance between the products so as to divide and package/store the cut strip products, and a pre-distribution driving piece 322 (a pre-distribution cylinder) pushes back the products to be stored while the lower pressing plate 302 rises so as to increase the distance between the products to be stored. The lower pressing plate 302 is lifted to the right, the motor of the distribution mechanism drives the front and rear shifting plates 311 to move to the positions above the corresponding products, the distribution upper and lower air cylinders drive the partition plates (shifting plates) to be inserted downwards, the motor is started for the second time, the front and rear distribution plates drive the packaged products or the stored products to move forwards to the inclined material valve mechanism (material storage mechanism part), the packaged products are stored at the rear end of the distribution mechanism, the packaged products are firstly discharged to the inclined material valve mechanism, the packaged products are stored to reach the total packaging quantity of the left and right products and then packaged in bags, the stored products move forwards to the right position horizontally in the storage mechanism, the motor drives the rear distribution plate to move forwards again, the stored products are discharged to the material storage mechanism part through the distribution rear partition plates 318 and then retreat after being stored, the steps are completed, the circulation work is carried out, the packaging quantity reaches the preset quantity and enters the packaging process flow, namely the accumulated stored products reach the packaging quantity, entering a packaging process flow. The problem of high cost due to the adoption of a visual CCD is solved, and the compatibility is better.

The present invention is not limited to the above preferred embodiments, and any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (16)

1. The utility model provides a strip injection moulding product automated production equipment, a serial communication port, including the work bench, the work bench is provided with and is used for moving the strip product semi-manufactured goods that will not cut and moves to the station and will not cut the strip product semi-manufactured goods branch and cut the mechanism part that moves of strip product, the work bench still is provided with the positioning mechanism part, the positioning mechanism part include the positioning mechanism mounting panel, connect in the positioning mechanism mounting panel just can be relative the positioning seat that the positioning mechanism mounting panel goes up and down with connect in the positioning seat just is used for adjusting the interval adjusting device of positioning seat position.

2. The automatic production equipment of strip-shaped injection molding products as claimed in claim 1, wherein the positioning mechanism part comprises a lifting bottom plate which can be lifted relative to the positioning mechanism mounting plate and a bottom plate lifting driving member which is connected to the lifting bottom plate and is used for driving the lifting bottom plate to lift; lifting bottom plate is connected with the guide rail, interval adjusting device includes first slide, second slide, first locating plate and second locating plate, first slide second slide sliding connection in the guide rail, first locating plate connect in or integrated into one piece in first slide, the second locating plate connect in or integrated into one piece in the second slide, the locating seat be provided with two sets ofly and connect respectively in first locating plate and second locating plate, interval adjusting device is still including being used for the drive first slide the second slide is close to relatively or the distance adjusting part who keeps away from.

3. The automated production equipment of strip-shaped injection molding products as claimed in claim 2, wherein the distance adjusting assembly comprises a first rack, a second rack, a gear and a distance adjusting motor for driving the gear to rotate; the first rack is connected to the first sliding plate, the second rack is connected to the second sliding plate, and the first rack and the second rack are parallel to the guide rail; the gear is located between the first rack and the second rack, the gear is meshed with the first rack and the second rack respectively, and the distance adjusting motor is connected to the gear.

4. The automatic production equipment of strip-shaped injection molding products as claimed in claim 1, wherein the moving and splitting mechanism comprises a jacking mechanism part, and the jacking mechanism part comprises a clamping assembly for clamping the uncut strip-shaped semi-finished products, a jacking rotary driving member for driving the clamping assembly to rotate, and a jacking lifting driving member for driving the clamping assembly and the jacking rotary driving member to lift.

5. The automatic production equipment of strip-shaped injection molding products as claimed in claim 1, wherein the moving and splitting mechanism part comprises a splitting part for cutting strip-shaped products from a nozzle material, and the splitting part comprises two tool holders with adjustable sizes and a cutter connected with the tool holders; the slitting part further comprises a slitting sliding plate and a slitting driving piece used for driving the slitting sliding plate to move.

6. The automatic production equipment of the strip-shaped injection molding products as claimed in claim 1, wherein a pressing mechanism part for pressing the strip-shaped products to avoid displacement of the strip-shaped products when the glue port is cut off is arranged on the workbench;

the pressing mechanism part comprises a mounting seat, a pressing plate and a pressing lifting driving part connected with the pressing plate and used for driving the pressing plate, and the pressing lifting driving part is connected with the mounting seat.

7. The automatic production equipment of strip-shaped injection molding products as claimed in claim 6, wherein two groups of the pressing mechanism parts are symmetrically arranged, and a soft rubber plate is arranged at the bottom of the pressing plate.

8. The automatic production equipment for injection molding products in strip form as claimed in claim 6, further comprising a dispensing mechanism component for moving a set number of cut strip products to a packaging position or a storage position.

9. The automatic production equipment of strip-shaped injection molding products as claimed in claim 8, wherein the distribution mechanism part comprises a front and a rear shifting plates capable of sliding back and forth along the arrangement direction of the strip-shaped products, and a distribution driving part connected to the front and rear shifting plates and used for driving the front and rear shifting plates to move to the position of the set strip-shaped products, the front and rear shifting plates are connected with a partition plate capable of lifting and being inserted between the set strip-shaped products, and the partition plate is connected with a partition plate lifting driving part.

10. The automated production equipment of claim 9, wherein the distribution driving component comprises a driving wheel, a synchronizing wheel and a synchronous belt, the synchronous belt is sleeved on the driving wheel and the synchronizing wheel, the front and rear shifting plates are connected to the synchronous belt, the mounting base is provided with a transverse guide rail, the front and rear shifting plates are slidably connected to the transverse guide rail, and the partition lifting driving component is connected to the front and rear shifting plates.

11. The automatic production equipment of the strip-shaped injection molding products as claimed in claim 6, wherein the lower pressing plate is connected with a pre-distributing component for pushing the set strip-shaped products to a set direction when the lower pressing plate is lifted;

the pre-distribution component comprises a pre-distribution plate and a pre-distribution driving piece used for driving the pre-distribution plate to move, the pre-distribution driving piece is connected to the lower pressing plate, and the pre-distribution plate is connected to the pre-distribution driving piece.

12. The automatic production apparatus for strip-shaped injection molded products according to claim 9, wherein the work table is provided with a stock mechanism part for temporarily storing the strip-shaped products to be packaged;

stock mechanism part includes the swash plate, set up in striker plate in swash plate the place ahead and be used for the drive the striker plate driving piece that the striker plate goes up and down.

13. The automatic production equipment of the strip-shaped injection molding products as claimed in claim 1, wherein the work bench is provided with a hopper turning part for pouring the strip-shaped products into the packaging bags, the hopper turning part comprises a hopper and a turning driving part for driving the hopper to turn; the hopper is provided with an opening and closing driving piece, and the opening and closing driving piece is connected with an opening bag plate.

14. The automatic production equipment of a strip-shaped injection molding product according to claim 13, wherein the work bench is provided with a material storage secondary packaging mechanism part at a position above the hopper;

the stock secondary packaging mechanism part comprises a stock plate, a push plate and a push plate driving piece, wherein the push plate is used for pushing the strip-shaped products on the stock plate to the hopper, and the push plate driving piece is connected with the push plate and is used for driving the push plate.

15. The automatic production equipment of the strip-shaped injection molding products as claimed in claim 1, wherein the work bench is provided with a packing mechanism part, and the packing mechanism part comprises a bag stacking mechanism part for placing the packing bags, a bag taking mechanism part for sucking the packing bags and opening the packing bags after moving the packing bags to the set position, a sealing mechanism part for hot-melt sealing the packing bags, and a conveying part for conveying the packed products to the set position.

16. The automated production facility of injection molded strip-shaped products as claimed in claim 15, wherein the bag stacking mechanism comprises a bag storage table, a sectional elevating driving member connected to the bag storage table for driving the bag storage table to ascend;

the bag taking mechanism part comprises a first sucker for sucking the packaging bag on the packaging bag storage table, a moving part for driving the first sucker to move to a set position, and a second sucker for opening the mouth of the packaging bag on the first sucker;

sealing mechanism part includes can set up in the hot melt spare of wrapping bag both sides, be used for the drive in opposite directions the hot melt spare presss from both sides the tight driving piece of clamp or unclamp in opposite directions, the hot melt spare is connected with condenser tube, sealing mechanism part still include the lifting unit with set up in the evacuation pipe valve of lifting unit.

Images