CN219408622U - Bulk material type electronic component taping machine - Google Patents

Abstract

The utility model discloses a bulk electronic component taping machine, which comprises a tray bulk feeding mechanism for feeding bulk materials of workpieces, a bulk material pushing mechanism for pushing the bulk materials of the workpieces from a tray to a bulk material conveying belt, a bulk material conveying belt for conveying the bulk materials of the workpieces to a material absorbing part of a bulk material feeding mechanism, a bulk material feeding mechanism for conveying the bulk materials of the workpieces to a lower layer adhesive tape, an adhesive tape guide rail for guiding the lower layer adhesive tape to pass through, an upper layer adhesive tape roll mounting wheel for mounting an upper layer adhesive tape roll, a lower layer adhesive tape roll mounting wheel for mounting a lower layer adhesive tape roll, an adhesive tape taping mechanism for attaching the upper layer adhesive tape to the lower layer adhesive tape, an adhesive tape cutting mechanism for cutting the adhesive tape, and a finished product collecting mechanism for collecting finished products to realize material collection. The utility model has simple and novel structure and high automation degree, replaces manual operation, improves the production efficiency, ensures the production quality and can meet the large-scale production requirement of enterprises.

Description

Bulk material type electronic component taping machine

Technical Field

The utility model relates to the technical field of automatic equipment, in particular to a bulk material type electronic component taping machine.

Background

Along with the continuous development and progress of technology, automatic production has become the mainstream of current industrial production, needs to spray paint to the component surface in the current electronic component (such as inductance) production process, however, adopts the people to spray paint in the current production line, and people's hand sprays paint comparatively troublesome, and production quality is difficult to guarantee, and thus people think of automatic spraying paint of electronic components, and before automatic spraying paint of electronic components, need to paste the sticky tape with the component bulk cargo to form the material and roll, just so can be convenient for automatic spraying paint. Therefore, it is necessary to invent a taping machine capable of realizing automatic taping operation of electronic component bulk material.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a bulk electronic component taping machine capable of realizing bulk taping operation of electronic components.

In order to achieve the above object, the utility model provides a bulk electronic component taping machine, comprising a tray type bulk feeding mechanism for feeding bulk materials of workpieces, a bulk feeding mechanism for pushing the bulk materials of the workpieces from a tray to a bulk conveying belt, a bulk conveying belt for conveying the bulk materials of the workpieces to a material absorbing part of a bulk feeding mechanism, a bulk feeding mechanism for conveying the bulk materials of the workpieces to a lower layer adhesive tape, an adhesive tape guide rail for guiding the lower layer adhesive tape to pass through, an upper layer adhesive tape roll mounting wheel for mounting an upper layer adhesive tape roll, a lower layer adhesive tape roll mounting wheel for mounting a lower layer adhesive tape roll, an adhesive tape attaching mechanism for attaching the upper layer adhesive tape to the lower layer adhesive tape, an adhesive tape cutting mechanism for cutting the adhesive tape, and a finished product collecting mechanism for winding the finished product, wherein the adhesive tape guide rail and the bulk conveying belt are horizontally arranged, the bulk conveying belt is positioned at an upper end of the adhesive tape guide rail, the middle part of the bulk feeding mechanism is positioned at an upper end of the adhesive tape guide rail, the adhesive tape cutting mechanism is positioned at an upper end of the bulk feeding mechanism, the lower layer adhesive tape cutting mechanism is positioned at an upper end of the adhesive tape roll, and the upper end of the adhesive tape cutting mechanism is positioned at an upper end of the material receiving mechanism, and the finished product cutting mechanism is positioned at an upper end of the material receiving mechanism, and the upper end of the adhesive tape cutting mechanism is positioned at the upper end of the material receiving mechanism. One end of the adhesive tape of the lower adhesive tape material roll is fixed on the winding part of the finished product receiving mechanism after sequentially passing through the guide rail groove of the adhesive tape guide rail and the adhesive tape cutting mechanism, and one end of the adhesive tape of the upper adhesive tape material roll is tightly attached to the surface of the lower adhesive tape after passing through the adhesive tape attaching mechanism.

As the preferred implementation mode, the tray bulk cargo feeding mechanism comprises a tray feeding frame, a tray feeding device, a tray transferring device, a tray receiving frame and a tray discharging device, wherein the middle part of the tray transferring device is positioned at the feeding end of the bulk cargo conveying belt, the tray feeding frame and the tray feeding device are both positioned at one end of the tray transferring device, the tray feeding device is positioned below the discharging part of the tray feeding frame, the tray receiving frame and the tray discharging device are both positioned at the other end of the tray transferring device, and the tray discharging device is positioned below the discharging part of the tray receiving frame.

As the preferred implementation mode, bulk material pushing mechanism includes bulk material propelling movement translation module, bulk material propelling movement translation seat, bulk material propelling movement lift cylinder, push rod and push rod connecting seat, bulk material propelling movement translation seat is installed on the translation position of bulk material propelling movement translation module, bulk material propelling movement lift cylinder installs down on bulk material propelling movement translation seat, the push rod is equipped with two and longitudinal arrangement, the push rod is connected with the output shaft of bulk material propelling movement lift cylinder through the push rod connecting seat.

The bulk material feeding mechanism comprises a bulk material feeding traversing seat, a bulk material feeding traversing cylinder, a bulk material feeding lifting cylinder, a bulk material feeding absorbing block, a bulk material feeding lifting block and a lifting limiting screw rod, wherein the bulk material feeding traversing seat is in transmission connection with the bulk material feeding traversing cylinder and is driven to traverse by the bulk material feeding traversing cylinder, the bulk material feeding lifting cylinder is downwards installed on the bulk material feeding traversing seat, the bulk material feeding lifting block is installed on an output shaft of the bulk material feeding lifting cylinder, the bulk material feeding absorbing block is installed on the bulk material feeding lifting block in a lifting manner, a lug located above the bulk material feeding absorbing block is arranged on the bulk material feeding lifting block, the lifting limiting screw rod upwards penetrates through a convex part at the upper end of the bulk material feeding absorbing block and then is connected to the lug of the bulk material feeding lifting block, a longitudinal buffer spring is arranged between the upper end of the bulk material feeding absorbing block and the lug of the bulk material feeding lifting block, suction holes are formed in the bulk material feeding absorbing block, and suction holes are respectively formed in the lower end of the bulk material feeding absorbing block and penetrate through the suction holes in the two sides of the bulk material absorbing block.

As preferred embodiment, rubberizing mechanism includes rubberizing tape support, elbow clamp, rubberizing tape seat, rubberizing tape pinch roller, depression bar, compression spring, extension spring and rubberizing tape pinch roller mount pad, rubberizing tape seat liftable ground is installed on rubberizing tape support, the elbow clamp passes through the elbow clamp mount pad and installs in rubberizing tape support's upper end, the one end of elbow clamp mount pad is located the lift route top of rubberizing tape seat, be connected with fore-and-aft extension spring between the one end of elbow clamp mount pad and the upper end of rubberizing tape seat, the depression bar vertically arranged in rubberizing tape seat top and the lower extreme of depression bar support the top of rubberizing tape seat, the upper end of depression bar upwards pass behind the briquetting that is equipped with on the elbow clamp with be located the second spacing ring fixed connection of briquetting, compression spring housing is located the depression bar outside and is located between rubberizing tape seat lower extreme and the briquetting, rubberizing tape pinch roller is installed on rubberizing tape pinch roller mount pad and is located the top of rubberizing tape seat, the one end of rubberizing tape pinch roller is connected with the top of rubberizing tape seat and is located the top of guide rail, the second is equipped with the second guide pillar is equipped with the second and is located the top of the second guide pillar fixed connection, the second is equipped with the second and is located the top of the second guide pillar and the top of the elevating roller seat.

As the preferred implementation mode, rubberizing tape holder lower extreme both sides are equipped with micrometer installation piece respectively, be equipped with the micrometer knob of transverse arrangement on the micrometer installation piece respectively, rubberizing tape holder's lower extreme transversely is equipped with two transversely arranged rubberizing tape guide arms that are located the micrometer knob inboard that corresponds respectively, rubberizing tape guide arm is located rubberizing tape pinch roller's front edge top, rubberizing tape guide arm's outer end respectively with micrometer knob looks butt that corresponds respectively, rubberizing tape guide arm's inner is equipped with rubberizing tape guide slot that rubberizing tape passed through.

As a preferred implementation mode, the lower end of the adhesive tape sticking seat is provided with an upper pressing wheel positioned above the discharging part of the adhesive tape guide rail, the adhesive tape sticking support is provided with a lower pressing wheel rotating motor, and an output shaft of the lower pressing wheel rotating motor is connected with a lower pressing wheel positioned below the upper pressing wheel.

As the preferred implementation mode, the adhesive tape cutting mechanism comprises an upper cutter, a lower cutter, an upper cutter lifting cylinder and a cutting support, wherein a material passing hole is formed in the cutting support, the lower cutter is arranged on the cutting support and located below the material passing hole, the upper cutter is located above the lower cutter, and the upper cutter is in transmission connection with the upper cutter lifting cylinder.

As the preferred implementation mode, the finished product receiving mechanism comprises a receiving bracket, a receiving disc and a receiving disc rotating motor, wherein the receiving disc rotating motor is arranged on the receiving bracket, an output shaft of the receiving disc rotating motor is in transmission connection with a receiving rotating shaft arranged on the receiving bracket, and the receiving disc is arranged on the receiving rotating shaft.

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

the automatic feeding mechanism is simple and novel in structure and reasonable in design, and is provided with a tray type bulk material feeding mechanism, a bulk material pushing mechanism, a bulk material conveying belt, a bulk material feeding mechanism, an adhesive tape attaching mechanism, an adhesive tape cutting mechanism and a finished product receiving mechanism.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second embodiment of the present utility model;

FIG. 3 is a schematic view of a taping location according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a tray bulk feeder mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a tray feeding, conveying and receiving location according to an embodiment of the present utility model;

FIG. 6 is a schematic view (top view) of a tray feeding, conveying and receiving location according to an embodiment of the present utility model;

FIG. 7 is a schematic diagram illustrating transmission of a first bearing block according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram of a transmission of a first support block (with fixed blocks omitted) according to an embodiment of the present utility model;

FIG. 9 is an enlarged view (cross-section) of a first support block portion provided in accordance with an embodiment of the present utility model;

FIG. 10 is an enlarged view (cross-section) of a second support block portion provided in accordance with an embodiment of the present utility model;

fig. 11 is a schematic structural diagram of a tray feeding device according to an embodiment of the present utility model;

fig. 12 is a schematic structural diagram of a tray discharging device according to an embodiment of the present utility model;

fig. 13 is a schematic structural view of a bulk cargo pushing mechanism according to an embodiment of the present utility model;

fig. 14 is a schematic structural view of a bulk material conveyor belt according to an embodiment of the present utility model;

fig. 15 is an enlarged view of the structure of the abutting part of the bulk material conveyor belt and the adhesive tape guide rail provided by the embodiment of the utility model;

fig. 16 is a schematic structural view of a bulk material feeding mechanism according to an embodiment of the present utility model;

FIG. 17 is a schematic structural view of a bulk material loading suction block provided by an embodiment of the present utility model;

FIG. 18 is an enlarged schematic view of a bulk material loading suction location provided by an embodiment of the present utility model;

FIG. 19 is a schematic view of a taping location according to an embodiment of the present utility model;

FIG. 20 is an enlarged schematic view of a taping location provided in an embodiment of the present utility model;

FIG. 21 is an enlarged view of the configuration of the elbow clamp portion provided by the embodiment of the present utility model;

FIG. 22 is a schematic view of a tape cutting mechanism according to an embodiment of the present utility model;

fig. 23 is a schematic structural diagram of a finished product receiving mechanism according to an embodiment of the present utility model.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 23, an embodiment of the present utility model provides a bulk electronic component taping machine, which includes a tray type bulk material feeding mechanism 1 for feeding bulk materials to a workpiece, a bulk material pushing mechanism 16 for pushing bulk materials to a bulk material conveying belt 17 from a tray, a bulk material conveying belt 17 for conveying bulk materials to a material absorbing portion of a bulk material feeding mechanism 2, a bulk material feeding mechanism 2 for conveying bulk materials to a lower layer of a tape, a tape guide 3 for guiding the lower layer of the tape therethrough, an upper layer tape roll mounting wheel 6 for mounting an upper layer tape roll, a lower layer tape roll mounting wheel 7 for mounting a lower layer tape roll, a taping mechanism 8 for sticking the upper layer tape to the lower layer tape, a tape cutting mechanism 9 for cutting the tape, and a finished product collecting mechanism 10 for collecting the finished product, the structure and the operation principle thereof will be described below.

The adhesive tape guide rail 3 and the bulk material conveying belt 17 are horizontally arranged, the bulk material conveying belt 17 is located at the feeding end of the adhesive tape guide rail 3, the middle part of the tray type bulk material feeding mechanism 1 is located at the feeding end of the bulk material conveying belt 17, and the bulk material pushing mechanism 16 is located at the feeding end of the bulk material conveying belt 17 and above the middle part of the tray type bulk material feeding mechanism 1.

Preferably, the tray bulk cargo feeding mechanism 1 comprises a tray feeding frame 11, a tray feeding device 12, a tray transferring device 13, a tray receiving frame 14 and a tray discharging device 15, wherein the middle part of the tray transferring device 13 is located at the feeding end of the bulk cargo conveying belt 17, the tray feeding frame 11 and the tray feeding device 12 are both located at one end of the tray transferring device 13, the tray feeding device 12 is located below the discharging part of the tray feeding frame 11, the tray receiving frame 14 and the tray discharging device 15 are both located at the other end of the tray transferring device 13, and the tray discharging device 15 is located below the discharging part of the tray receiving frame 14.

The bulk material conveyor belt 17 of the present embodiment may be a dual-rail conveyor belt driven by a motor, which is common in the market, but the present embodiment does not relate to the improvement in this aspect, and is not described herein.

Specifically, the tray feeding frame 11 may include a first tray limiting seat 111, a first supporting block 112, and a supporting block translational driving device 113, where the first tray limiting seat 111 is provided with two first supporting blocks and is respectively arranged at intervals, the supporting block translational driving devices 113 are respectively installed at the outer sides of the corresponding first tray limiting seats 111, the first supporting blocks 112 are respectively connected with the corresponding supporting block translational driving devices 113 in a driving manner, and the supporting block translational driving devices 113 can respectively drive the corresponding first supporting blocks 112 to translate, so that one ends of the first supporting blocks 112 pass through the first tray limiting seats 111 and then extend into the inner sides of the first tray limiting seats 111, or one ends of the first supporting blocks 112 exit from the inner sides of the first tray limiting seats 111;

further, the supporting block translational driving device 113 may include a lifting seat 1131, a lifting seat lifting cylinder 1132, a fixed block 1133 and a transverse shaft 1134, where the lifting seat 1131 is liftably and lowerably arranged on the fixed block 1133, the first supporting block 112 is transversely arranged on the fixed block 1133 and the lifting seat 1131 in a penetrating manner, two sides of the fixed block 1133 are provided with transverse moving guide holes 11331 in a penetrating manner, two sides of the lifting seat 1131 are provided with lifting guide holes 11311 in a penetrating manner, the transverse shaft 1134 is arranged on the first supporting block 112 in a penetrating manner and is perpendicular to the first supporting block 112, two ends of the transverse shaft 1134 are respectively penetrated into the corresponding transverse moving guide holes 11331 and the corresponding lifting guide holes 11311, and the lifting seat lifting cylinder 1132 is in transmission connection with the lifting seat 1131.

As shown in fig. 11, the tray feeding device 12 includes a feeding supporting plate 121 and a feeding lifting driving device 122, where the two feeding supporting plates 121 are arranged at intervals, and bottoms of the two feeding supporting plates 121 are all in transmission connection with the feeding lifting driving device 122 and driven to lift by the feeding lifting driving device 122, where the feeding lifting driving device 122 of the embodiment may adopt a lifting cylinder on the market, but the embodiment does not relate to improvement in this aspect and is not repeated herein.

As shown in fig. 5 and 6, the tray transferring device 13 may include a translation pallet 131 and a translation driving module 132, the translation driving module 132 being horizontally arranged, the translation pallet 131 being mounted on a translation portion of the translation driving module 132;

preferably, the tray receiving rack 14 may include two tray limiting bases 141 and second supporting blocks 142, the two tray limiting bases 141 are arranged at intervals, mounting heads 143 are respectively arranged at the outer sides of the two second tray limiting bases 141, lower ends of the second supporting blocks 142 are rotatably mounted on the respective corresponding mounting heads 143 through transverse rotating shafts 144, inner sides of upper ends of the second supporting blocks 142 penetrate through the second tray limiting bases 141 and then extend into inner sides of the second tray limiting bases 141, tray receiving springs 145 which are horizontally arranged and perpendicular to the transverse rotating shafts 144 are arranged between outer sides of upper ends of the second supporting blocks 142 and inner walls of the mounting heads 143, and inclined surfaces 146 which incline from bottom to top in directions of inner sides of the second tray limiting bases 141 are arranged at inner sides of the second supporting blocks 142.

As shown in fig. 12, the tray discharging device 15 includes a lifting supporting plate 151 and a lifting driving device 152, where the lifting supporting plate 151 is provided with two lifting supporting plates and arranged at intervals, and the lifting driving device 152 is in transmission connection with the two lifting supporting plates 151 and drives the lifting supporting plates to lift, where the lifting driving device 152 of the embodiment may use a lifting cylinder on the market, but the embodiment does not relate to an improvement in this aspect and is not repeated herein.

As shown in fig. 13, the bulk material pushing mechanism 16 includes a bulk material pushing and translating module 161, a bulk material pushing and translating seat 162, a bulk material pushing and lifting cylinder 163, a push rod 164 and a push rod connecting seat 165, the bulk material pushing and translating seat 162 is mounted on the translating part of the bulk material pushing and translating module 161, the bulk material pushing and lifting cylinder 163 is mounted on the bulk material pushing and translating seat 162 downwards, the push rod 164 is provided with two and longitudinally arranged, and the push rod 164 is connected with the output shaft of the bulk material pushing and lifting cylinder 163 through the push rod connecting seat 165.

The bulk material feeding mechanism 2 is positioned above the feeding end of the adhesive tape guide rail 3 and the discharging end of the bulk material conveying belt 17.

As shown in fig. 16, 17 and 18, the bulk material loading mechanism 2 may include a bulk material loading traversing seat 21, a bulk material loading traversing cylinder 22, a bulk material loading lifting cylinder 23, a bulk material loading absorbing block 24, a bulk material loading lifting block 25 and a lifting limit screw 26, wherein the bulk material loading traversing seat 21 is in transmission connection with the bulk material loading traversing cylinder 22 and is driven to traverse by the bulk material loading traversing cylinder 22, the bulk material loading lifting cylinder 23 is installed on the bulk material loading traversing seat 21 downwards, the bulk material loading lifting block 25 is installed on an output shaft of the bulk material loading lifting cylinder 23, the bulk material loading absorbing block 24 is installed on the bulk material loading lifting block 25 in a lifting manner, the bulk material loading lifting block 25 is provided with a bump 251 above the bulk material loading absorbing block 24, the lifting limit screw 26 passes upwards through the bump 251 of the bulk material loading lifting block 24, the bump 251 is connected with the bulk material loading lifting block 25, the upper end of the bulk material loading absorbing block 24 and the bulk material loading lifting block 25 are provided with a suction hole 27, and the suction hole is respectively arranged at two sides of the suction hole of the bulk material loading lifting block 241, and the suction hole is connected with the bottom of the two suction hole ends of the bulk material loading lifting block 24.

When the bulk material is fed, the workpiece bulk material is placed on the material tray, the material tray loaded with the workpiece bulk material is stacked and placed on the material tray feeding frame, the first supporting block supports the material tray at the bottommost layer, when one material tray is required to be output, the material tray feeding mechanism lifts up the material tray, the supporting block translation driving device drives the first supporting block to withdraw from the inner side of the first material tray limiting seat, the material tray feeding mechanism descends, then the supporting block translation driving device drives the first supporting block to translate and enter the inner side of the first material tray limiting seat, the first supporting block supports the penultimate material tray, then the material tray feeding device descends, the material tray feeding device at the bottommost layer feeds the material tray onto the material tray feeding device, the material tray feeding device pushes the workpiece in the material tray to the upper side of the bulk material conveying mechanism, the material tray feeding mechanism conveys the workpiece bulk material to the lower side of the material tray, the material tray lifting mechanism drives the first supporting block to translate and then moves the first supporting block to the inner side of the first supporting block limiting seat, the material tray is lifted up from the second supporting block to the second supporting block, and the material tray is lifted up from the second supporting block to the inner side of the material tray completely, and the second supporting block is lifted up from the second supporting block to the empty side of the material tray is completely lifted to the material tray feeding device at the two sides of the material tray lifting device, and the material tray lifting device is lifted to the upper side of the material tray is completely lifted from the material tray lifting device at the two sides of the material tray lifting device is lifted to the material tray lifting device.

The rubberizing mechanism 8 is located the discharge end top of sticky tape guide rail 3, and upper strata sticky tape material is rolled up and is installed round 6 and be located rubberizing mechanism 8 top and can rotate, and lower floor sticky tape material is rolled up and is installed round 7 and be located sticky tape guide rail 3 below and can rotate, and finished product receiving mechanism 10 is located the discharge end of sticky tape guide rail 3, and sticky tape shutdown mechanism 9 is located between the discharge end of sticky tape guide rail 3 and the finished product receiving mechanism 10.

In a specific implementation, the taping mechanism 8 may include a taping support 81, an elbow clamp 82, a taping seat 83, a taping pinch roller 84, a compression bar 85, a compression spring 86, a tension spring 87 and a taping pinch roller mounting seat 88, wherein the taping seat 83 is installed on the taping support 81 in a liftable manner, the elbow clamp 82 is installed at the upper end of the taping support 81 through the elbow clamp mounting seat 89, one end of the elbow clamp mounting seat 89 is located above a lifting path of the taping seat 83, a longitudinal tension spring 87 is connected between one end of the elbow clamp mounting seat 89 and the upper end of the taping seat 83, the compression bar 85 is longitudinally arranged above the taping seat 83, the lower end of the compression bar 85 abuts against the top of the taping seat 83, the upper end of the compression bar 85 upwards passes through a pressing block 821 arranged on the elbow clamp 82 and then is fixedly connected with a second limiting ring 822 positioned above the pressing block 821, the compression spring 86 is sleeved outside the compression bar 85 and is positioned between the lower end of the pressing block 821, the taping pinch roller mounting seat 88 is positioned at the lower end of the taping seat 83, the taping pinch roller mounting seat 84 is installed at the upper end of the taping seat 88 and is positioned above the upper end of the taping seat 883, the second pressing bar 881 is connected with a second linear guide post 881, and a lifting sleeve is arranged at the upper end of the second linear guide post 881 is fixedly connected with the second guide post 88, and the second lifting sleeve is fixedly arranged at the upper end of the second guide post 88.

In order to facilitate the adjustment of the position before the adhesive tape is attached by a user, micrometer mounting blocks 834 are respectively arranged on two sides of the lower end of the adhesive tape attaching seat 83, micrometer knobs 835 which are transversely arranged are respectively arranged on the micrometer mounting blocks 834, two adhesive tape attaching guide rods 836 which are transversely arranged and respectively positioned on the inner sides of the corresponding micrometer knobs 835 are transversely arranged at the lower end of the adhesive tape attaching seat 83, the adhesive tape attaching guide rods 836 are positioned above the front edge of the adhesive tape attaching pinch roller 84, the outer ends of the adhesive tape attaching guide rods 836 are respectively abutted against the corresponding micrometer knobs 835, and adhesive tape attaching guide grooves through which adhesive tapes pass are formed in the inner ends of the adhesive tape attaching guide rods 836.

In order to make the laminating of upper adhesive tape and lower adhesive tape more closely, the lower extreme of rubberizing tape holder 83 is equipped with the last pinch roller 837 that is located the ejection of compact position top of sticky tape guide rail 3, is equipped with down pinch roller rotating electrical machines 838 on rubberizing tape support 81, is connected with the lower pinch roller 839 that is located the pinch roller 837 below on the output shaft of lower pinch roller rotating electrical machines 838.

As shown in fig. 22, the adhesive tape cutting mechanism 9 may include an upper cutter 91, a lower cutter 92, an upper cutter lifting cylinder 93 and a cutting bracket 94, wherein the cutting bracket 94 is provided with a material passing hole 941, the lower cutter 92 is mounted on the cutting bracket 94 and is positioned below the material passing hole 941, the upper cutter 91 is positioned above the lower cutter 92, and the upper cutter 91 is in transmission connection with the upper cutter lifting cylinder 93;

as shown in fig. 23, the finished product receiving mechanism 10 may include a receiving bracket 101, a receiving tray 102 and a receiving tray rotating motor 103, where the receiving tray rotating motor 103 is installed on the receiving bracket 101, and an output shaft of the receiving tray rotating motor 103 is in transmission connection with a receiving rotating shaft 104 provided on the receiving bracket 101, and the receiving tray 102 is installed on the receiving rotating shaft 104.

During operation, one end of the adhesive tape of the lower layer adhesive tape roll passes through the guide rail groove of the adhesive tape guide rail 3, the space between the upper pressing wheel and the lower pressing wheel and the winding part of the finished product receiving mechanism 10 after being fixed by the adhesive tape cutting mechanism 9, one end of the adhesive tape of the upper layer adhesive tape roll is tightly attached to the surface of the lower layer adhesive tape after passing through the adhesive tape feeding guide rod and the adhesive tape attaching pressing wheel of the adhesive tape attaching mechanism 8, the lower adhesive tape roll and the upper adhesive tape roll can be continuously sent out in the continuous material receiving process of the finished product receiving mechanism, and the upper adhesive tape is attached to the lower adhesive tape when passing through the adhesive tape attaching pressing wheel and the adhesive tape guide rail, so that bulk materials are fixedly arranged between the upper adhesive tape and the lower adhesive tape.

In summary, the automatic feeding device for the bulk material has a simple and novel structure and reasonable design, the tray type bulk material feeding mechanism can realize automatic feeding operation of the bulk material, the bulk material pushing mechanism can realize automatic pushing and outputting operation of the bulk material, the bulk material conveying belt can realize automatic conveying operation of the bulk material, the bulk material feeding mechanism can realize automatic feeding operation of the bulk material of the workpiece, the adhesive tape pasting mechanism can realize automatic tightening operation of the upper adhesive tape and the lower adhesive tape, the adhesive tape cutting mechanism can realize automatic cutting operation of the finished product material roll, and the finished product collecting mechanism can realize automatic collecting operation of the finished product material roll.

The above examples are preferred embodiments of the present utility model, but the embodiments of the present utility model are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present utility model should be made in the equivalent manner, and the embodiments are included in the protection scope of the present utility model.

Claims (9)

1. A bulk material type electronic component taping machine is characterized in that: comprises a tray type bulk material feeding mechanism (1) for feeding bulk materials of workpieces, a bulk material pushing mechanism (16) for pushing bulk materials of the workpieces from a tray to a bulk material conveying belt (17), a bulk material conveying belt (17) for conveying the bulk materials of the workpieces to a material absorbing part of a bulk material feeding mechanism (2), a bulk material feeding mechanism (2) for conveying the bulk materials of the workpieces to a lower layer adhesive tape, an adhesive tape guide rail (3) for guiding the lower layer adhesive tape to pass through, an upper layer adhesive tape roll mounting wheel (6) for mounting an upper layer adhesive tape roll, a lower layer adhesive tape roll mounting wheel (7) for mounting a lower layer adhesive tape roll, an adhesive tape cutting mechanism (8) for tightly attaching the upper layer adhesive tape to the lower layer adhesive tape, a finished product collecting mechanism (10) for collecting finished products, wherein the adhesive tape guide rail (3) and the bulk material conveying belt (17) are horizontally arranged, the bulk material conveying belt (17) is positioned at the upper end of the adhesive tape guide rail (3), the bulk material feeding mechanism is positioned at the middle part of the bulk material feeding mechanism (17) of the bulk material feeding mechanism (3) and the bulk material feeding mechanism (17) is positioned at the upper end of the bulk material feeding mechanism (17) of the bulk material feeding mechanism (1) and the bulk material feeding mechanism (17) is positioned at the middle part of the bulk material feeding mechanism (17) of the bulk material feeding mechanism (1), the utility model provides a tape roll machine, including tape guide (3) and lower floor's adhesive tape material, tape feed mechanism (8) are located the discharge end top of tape guide (3), upper layer adhesive tape material rolls up installation wheel (6) and is located tape guide (8) top and can rotate, lower floor's adhesive tape material rolls up installation wheel (7) and is located tape guide (3) below and can rotate, finished product receipts material mechanism (10) are located the discharge end of tape guide (3), tape cutting mechanism (9) are located between the discharge end of tape guide (3) and finished product receipts material mechanism (10), the adhesive tape one end of lower floor's adhesive tape material is fixed on the rolling position of finished product receipts material mechanism (10) after the guide groove of tape guide (3) and tape cutting mechanism (9) in proper order, the adhesive tape one end of upper layer adhesive tape material is closely on the surface of lower floor's adhesive tape after tape feed mechanism (8).

2. A bulk electronic component taping machine as defined in claim 1, wherein: the utility model provides a bulk cargo feeding mechanism (1) includes charging tray feed frame (11), charging tray loading attachment (12), charging tray transfer device (13), charging tray receipts work or material rest (14) and charging tray unloader (15), the middle part of charging tray transfer device (13) is located the pan feeding end of bulk cargo conveyer belt (17), charging tray feed frame (11) and charging tray loading attachment (12) all are located the one end of charging tray transfer device (13), charging tray loading attachment (12) are located the blowing position below of charging tray feed frame (11), charging tray receipts work or material rest (14) and charging tray unloader (15) all are located the other end of charging tray transfer device (13), charging tray unloader (15) are located the blowing position below of charging tray receipts work or material rest (14).

3. A bulk electronic component taping machine as defined in claim 1, wherein: bulk cargo pushing mechanism (16) are including bulk cargo propelling movement translation module (161), bulk cargo propelling movement translation seat (162), bulk cargo propelling movement lift cylinder (163), push rod (164) and push rod connecting seat (165), bulk cargo propelling movement translation seat (162) are installed on the translation position of bulk cargo propelling movement translation module (161), bulk cargo propelling movement lift cylinder (163) are installed down on bulk cargo propelling movement translation seat (162), push rod (164) are equipped with two and longitudinal arrangement, push rod (164) are connected with the output shaft of bulk cargo propelling movement lift cylinder (163) through push rod connecting seat (165).

4. A bulk electronic component taping machine as defined in claim 1, wherein: the bulk material feeding mechanism (2) comprises a bulk material feeding transversely-moving seat (21), a bulk material feeding transversely-moving cylinder (22), a bulk material feeding lifting cylinder (23), a bulk material feeding suction block (24), a bulk material feeding lifting block (25) and a lifting limit screw (26), wherein the bulk material feeding transversely-moving seat (21) is in transmission connection with the bulk material feeding transversely-moving cylinder (22) and is driven to transversely move by the bulk material feeding transversely-moving cylinder (22), the bulk material feeding lifting cylinder (23) is downwards arranged on the bulk material feeding transversely-moving seat (21), the bulk material feeding lifting block (25) is arranged on an output shaft of the bulk material feeding transversely-moving cylinder (23), the bulk material feeding suction block (24) is arranged on the bulk material feeding lifting block (25) in a lifting manner, a lug (251) positioned above the bulk material feeding suction block (24) is arranged on the bulk material lifting block (25), the lifting limit screw (26) upwards passes through the upper end of the bulk material feeding suction block (24) and is upwards connected with the upper end of the bulk material feeding block (251), a buffer block (24) is arranged between the two suction block (24) and the suction block (251) of the bulk material feeding (24), the lower ends of the air suction holes (241) penetrate through the bottoms of the bulk material feeding and sucking blocks (24) respectively, and the upper end parts of the air suction holes (241) penetrate through the two side surfaces of the bulk material feeding and sucking blocks (24) respectively and are connected with a vacuumizing device.

5. A bulk electronic component taping machine as defined in claim 1, wherein: the adhesive tape pasting mechanism (8) comprises an adhesive tape pasting support (81), an elbow clamp (82), an adhesive tape pasting seat (83), an adhesive tape pasting pinch roller (84), a pressure rod (85), a compression spring (86), a tension spring (87) and an adhesive tape pasting pinch roller mounting seat (88), wherein the adhesive tape pasting seat (83) is arranged on the adhesive tape pasting support (81) in a lifting manner, the elbow clamp (82) is arranged at the upper end of the adhesive tape pasting support (81) through the elbow clamp mounting seat (89), one end of the elbow clamp mounting seat (89) is positioned above a lifting path of the adhesive tape pasting seat (83), a longitudinal tension spring (87) is connected between one end of the elbow clamp mounting seat (89) and the upper end of the adhesive tape pasting seat (83), the pressure rod (85) is longitudinally arranged above the adhesive tape pasting seat (83) and the lower end of the pressure rod (85) butts against the top of the adhesive tape pasting seat (83), the upper end of the pressure rod (85) upwards passes through a pressing block (821) arranged on the elbow clamp (82) and then is fixedly connected with a second ring 822 positioned above the pressing block (821), the compression spring (821) is fixedly connected with the lower end of the pressure rod (821) and is positioned between the pressure rod (821) and the pressure rod (85) and the pressure rod (821) and the pressure rod, the adhesive tape pinch roller (84) is installed on the adhesive tape pinch roller mount pad (88) and is located the top of adhesive tape guide rail (3), be connected with second lift guide pillar (881) on the adhesive tape pinch roller mount pad (88), the lower extreme and the adhesive tape pinch roller mount pad (88) fixed connection of second lift guide pillar (881), the upper end of second lift guide pillar (881) upwards pass behind the first linear bearing that is equipped with on adhesive tape seat (83) with third spacing ring (832) fixed connection, be equipped with between the bottom of first linear bearing and the top of adhesive tape pinch roller mount pad (88) and overlap adhesive tape pinch roller spring (833) of locating second lift guide pillar (881) outside.

6. A bulk electronic component taping machine as defined in claim 5, wherein: the utility model discloses a tape dispenser, including rubberizing seat (83), rubberizing seat, upper tape guide rod (836), rubberizing seat (83) lower extreme both sides are equipped with micrometer installation piece (834) respectively, be equipped with micrometer knob (835) of transverse arrangement on micrometer installation piece (834) respectively, the lower extreme of rubberizing seat (83) can transversely be equipped with two rubberizing guide rods (836) of transverse arrangement that are located the inboard of micrometer knob (835) respectively that correspond respectively, rubberizing guide rod (836) are located rubberizing pinch roller (84) front edge top, the outer end of rubberizing guide rod (836) respectively with micrometer knob (835) looks butt that correspond respectively, the inner of rubberizing guide rod (836) is equipped with the rubberizing guide slot that rubberizing tape passed through.

7. A bulk electronic component taping machine as defined in claim 5, wherein: the lower extreme of rubberizing tape holder (83) is equipped with pinch roller (837) on the ejection of compact position top of sticky tape guide rail (3), be equipped with pinch roller rotating electrical machines (838) down on rubberizing tape support (81), be connected with pinch roller (839) down that are located pinch roller (837) below on the output shaft of pinch roller rotating electrical machines (838) down.

8. A bulk electronic component taping machine as defined in claim 1, wherein: the adhesive tape cutting mechanism (9) comprises an upper cutter (91), a lower cutter (92), an upper cutter lifting cylinder (93) and a cutting support (94), wherein a material passing hole (941) is formed in the cutting support (94), the lower cutter (92) is arranged on the cutting support (94) and located below the material passing hole (941), the upper cutter (91) is located above the lower cutter (92), and the upper cutter (91) is in transmission connection with the upper cutter lifting cylinder (93).

9. A bulk electronic component taping machine as defined in claim 1, wherein: finished product receiving mechanism (10) are including receiving material support (101), receiving tray (102) and receiving tray rotating electrical machines (103), receiving tray rotating electrical machines (103) are installed on receiving material support (101), receiving tray rotating electrical machines (103)'s output shaft is connected with receiving rotation axis (104) transmission that is equipped with on receiving material support (101), receiving tray (102) are installed on receiving rotation axis (104).